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[PATCH 2/6] Refactor index_concurrently_create_copy() for use with REPACK (CONCURRENTLY). 134+ messages / 1 participants [nested] [flat]
* [PATCH 2/6] Refactor index_concurrently_create_copy() for use with REPACK (CONCURRENTLY). @ 2026-01-27 10:48 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-01-27 10:48 UTC (permalink / raw) This patch moves the code to index_create_copy() and adds a "concurrently" parameter so it can be used by REPACK (CONCURRENTLY). With the CONCURRENTLY option, REPACK cannot simply swap the heap file and rebuild its indexes. Instead, it needs to build a separate set of indexes (including system catalog entries) *before* the actual swap, to reduce the time AccessExclusiveLock needs to be held for. --- src/backend/catalog/index.c | 54 +++++++++++++++++++++++--------- src/backend/commands/indexcmds.c | 6 ++-- src/backend/nodes/makefuncs.c | 9 +++--- src/include/catalog/index.h | 3 ++ src/include/nodes/makefuncs.h | 4 ++- 5 files changed, 54 insertions(+), 22 deletions(-) diff --git a/src/backend/catalog/index.c b/src/backend/catalog/index.c index 5ee6389d39c..f8e6c3d804e 100644 --- a/src/backend/catalog/index.c +++ b/src/backend/catalog/index.c @@ -1288,15 +1288,32 @@ index_create(Relation heapRelation, /* * index_concurrently_create_copy * - * Create concurrently an index based on the definition of the one provided by - * caller. The index is inserted into catalogs and needs to be built later - * on. This is called during concurrent reindex processing. - * - * "tablespaceOid" is the tablespace to use for this index. + * Variant of index_create_copy(), called during concurrent reindex + * processing. */ Oid index_concurrently_create_copy(Relation heapRelation, Oid oldIndexId, Oid tablespaceOid, const char *newName) +{ + return index_create_copy(heapRelation, oldIndexId, tablespaceOid, newName, + true); +} + +/* + * index_create_copy + * + * Create an index based on the definition of the one provided by caller. The + * index is inserted into catalogs. If 'concurrently' is TRUE, it needs to be + * built later on, otherwise it's built immediately. + * + * "tablespaceOid" is the tablespace to use for this index. + * + * The actual implementation of index_concurrently_create_copy(), reusable for + * other purposes. + */ +Oid +index_create_copy(Relation heapRelation, Oid oldIndexId, Oid tablespaceOid, + const char *newName, bool concurrently) { Relation indexRelation; IndexInfo *oldInfo, @@ -1315,6 +1332,7 @@ index_concurrently_create_copy(Relation heapRelation, Oid oldIndexId, List *indexColNames = NIL; List *indexExprs = NIL; List *indexPreds = NIL; + int flags = 0; indexRelation = index_open(oldIndexId, RowExclusiveLock); @@ -1325,7 +1343,7 @@ index_concurrently_create_copy(Relation heapRelation, Oid oldIndexId, * Concurrent build of an index with exclusion constraints is not * supported. */ - if (oldInfo->ii_ExclusionOps != NULL) + if (oldInfo->ii_ExclusionOps != NULL && concurrently) ereport(ERROR, (errcode(ERRCODE_FEATURE_NOT_SUPPORTED), errmsg("concurrent index creation for exclusion constraints is not supported"))); @@ -1381,9 +1399,7 @@ index_concurrently_create_copy(Relation heapRelation, Oid oldIndexId, } /* - * Build the index information for the new index. Note that rebuild of - * indexes with exclusion constraints is not supported, hence there is no - * need to fill all the ii_Exclusion* fields. + * Build the index information for the new index. */ newInfo = makeIndexInfo(oldInfo->ii_NumIndexAttrs, oldInfo->ii_NumIndexKeyAttrs, @@ -1392,10 +1408,13 @@ index_concurrently_create_copy(Relation heapRelation, Oid oldIndexId, indexPreds, oldInfo->ii_Unique, oldInfo->ii_NullsNotDistinct, - false, /* not ready for inserts */ - true, + !concurrently, /* isready */ + concurrently, /* concurrent */ indexRelation->rd_indam->amsummarizing, - oldInfo->ii_WithoutOverlaps); + oldInfo->ii_WithoutOverlaps, + oldInfo->ii_ExclusionOps, + oldInfo->ii_ExclusionProcs, + oldInfo->ii_ExclusionStrats); /* * Extract the list of column names and the column numbers for the new @@ -1433,6 +1452,9 @@ index_concurrently_create_copy(Relation heapRelation, Oid oldIndexId, stattargets[i].isnull = isnull; } + if (concurrently) + flags = INDEX_CREATE_SKIP_BUILD | INDEX_CREATE_CONCURRENT; + /* * Now create the new index. * @@ -1456,7 +1478,7 @@ index_concurrently_create_copy(Relation heapRelation, Oid oldIndexId, indcoloptions->values, stattargets, reloptionsDatum, - INDEX_CREATE_SKIP_BUILD | INDEX_CREATE_CONCURRENT, + flags, 0, true, /* allow table to be a system catalog? */ false, /* is_internal? */ @@ -2450,7 +2472,8 @@ BuildIndexInfo(Relation index) indexStruct->indisready, false, index->rd_indam->amsummarizing, - indexStruct->indisexclusion && indexStruct->indisunique); + indexStruct->indisexclusion && indexStruct->indisunique, + NULL, NULL, NULL); /* fill in attribute numbers */ for (i = 0; i < numAtts; i++) @@ -2510,7 +2533,8 @@ BuildDummyIndexInfo(Relation index) indexStruct->indisready, false, index->rd_indam->amsummarizing, - indexStruct->indisexclusion && indexStruct->indisunique); + indexStruct->indisexclusion && indexStruct->indisunique, + NULL, NULL, NULL); /* fill in attribute numbers */ for (i = 0; i < numAtts; i++) diff --git a/src/backend/commands/indexcmds.c b/src/backend/commands/indexcmds.c index 635679cc1f2..34209bd1393 100644 --- a/src/backend/commands/indexcmds.c +++ b/src/backend/commands/indexcmds.c @@ -243,7 +243,8 @@ CheckIndexCompatible(Oid oldId, */ indexInfo = makeIndexInfo(numberOfAttributes, numberOfAttributes, accessMethodId, NIL, NIL, false, false, - false, false, amsummarizing, isWithoutOverlaps); + false, false, amsummarizing, isWithoutOverlaps, + NULL, NULL, NULL); typeIds = palloc_array(Oid, numberOfAttributes); collationIds = palloc_array(Oid, numberOfAttributes); opclassIds = palloc_array(Oid, numberOfAttributes); @@ -930,7 +931,8 @@ DefineIndex(ParseState *pstate, !concurrent, concurrent, amissummarizing, - stmt->iswithoutoverlaps); + stmt->iswithoutoverlaps, + NULL, NULL, NULL); typeIds = palloc_array(Oid, numberOfAttributes); collationIds = palloc_array(Oid, numberOfAttributes); diff --git a/src/backend/nodes/makefuncs.c b/src/backend/nodes/makefuncs.c index 2caec621d73..ca7e21e8349 100644 --- a/src/backend/nodes/makefuncs.c +++ b/src/backend/nodes/makefuncs.c @@ -834,7 +834,8 @@ IndexInfo * makeIndexInfo(int numattrs, int numkeyattrs, Oid amoid, List *expressions, List *predicates, bool unique, bool nulls_not_distinct, bool isready, bool concurrent, bool summarizing, - bool withoutoverlaps) + bool withoutoverlaps, Oid *exclusion_ops, Oid *exclusion_procs, + uint16 *exclusion_strats) { IndexInfo *n = makeNode(IndexInfo); @@ -863,9 +864,9 @@ makeIndexInfo(int numattrs, int numkeyattrs, Oid amoid, List *expressions, n->ii_PredicateState = NULL; /* exclusion constraints */ - n->ii_ExclusionOps = NULL; - n->ii_ExclusionProcs = NULL; - n->ii_ExclusionStrats = NULL; + n->ii_ExclusionOps = exclusion_ops; + n->ii_ExclusionProcs = exclusion_procs; + n->ii_ExclusionStrats = exclusion_strats; /* speculative inserts */ n->ii_UniqueOps = NULL; diff --git a/src/include/catalog/index.h b/src/include/catalog/index.h index b259c4141ed..3426087b445 100644 --- a/src/include/catalog/index.h +++ b/src/include/catalog/index.h @@ -99,6 +99,9 @@ extern Oid index_concurrently_create_copy(Relation heapRelation, Oid oldIndexId, Oid tablespaceOid, const char *newName); +extern Oid index_create_copy(Relation heapRelation, Oid oldIndexId, + Oid tablespaceOid, const char *newName, + bool concurrently); extern void index_concurrently_build(Oid heapRelationId, Oid indexRelationId); diff --git a/src/include/nodes/makefuncs.h b/src/include/nodes/makefuncs.h index 982ec25ae14..dcea148ae1a 100644 --- a/src/include/nodes/makefuncs.h +++ b/src/include/nodes/makefuncs.h @@ -99,7 +99,9 @@ extern IndexInfo *makeIndexInfo(int numattrs, int numkeyattrs, Oid amoid, List *expressions, List *predicates, bool unique, bool nulls_not_distinct, bool isready, bool concurrent, - bool summarizing, bool withoutoverlaps); + bool summarizing, bool withoutoverlaps, + Oid *exclusion_ops, Oid *exclusion_procs, + uint16 *exclusion_strats); extern Node *makeStringConst(char *str, int location); extern DefElem *makeDefElem(char *name, Node *arg, int location); -- 2.47.3 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v32-0003-Move-conversion-of-a-historic-to-MVCC-snapshot-to-a-.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-06-16 11:54 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-06-16 11:54 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index 2268cc277bc..127d4415084 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -609,11 +608,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -627,11 +623,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -705,6 +696,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -881,11 +874,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -901,8 +892,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -922,6 +912,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -932,33 +924,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2346,21 +2341,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2372,6 +2391,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2380,76 +2402,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v01-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
* [PATCH 1/8] Use tuple slot to pass tuples for rewriting. @ 2026-07-15 08:37 Antonin Houska <[email protected]> 0 siblings, 0 replies; 134+ messages in thread From: Antonin Houska @ 2026-07-15 08:37 UTC (permalink / raw) This patch tries to adopt the preferable way of handling tuples, i.e. pass the containing tuple slot rather than the actual tuple. The motivation is that heap_insert_for_repack() will need a slot in the near future, in order to call ExecInsertIndexTuples(). Also, in order to set values of dropped attributes to to NULL, it seems more compact to pass a tuple slot as a workspace than two arrays (one for values and one for nulls). --- src/backend/access/heap/heapam_handler.c | 199 +++++++++++++---------- 1 file changed, 110 insertions(+), 89 deletions(-) diff --git a/src/backend/access/heap/heapam_handler.c b/src/backend/access/heap/heapam_handler.c index bf87430cf01..4db8a16f691 100644 --- a/src/backend/access/heap/heapam_handler.c +++ b/src/backend/access/heap/heapam_handler.c @@ -48,14 +48,13 @@ #include "utils/rel.h" #include "utils/tuplesort.h" -static void reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate); -static void heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull, - BulkInsertState bistate); -static HeapTuple reform_tuple(HeapTuple tuple, Relation OldHeap, - Relation NewHeap, Datum *values, bool *isnull); +static void reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate); +static void heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, + BulkInsertStateData *bistate); +static bool tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc); +static void clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform); static bool SampleHeapTupleVisible(TableScanDesc scan, Buffer buffer, HeapTuple tuple, @@ -603,11 +602,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, bool is_system_catalog; Tuplesortstate *tuplesort; TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); TupleTableSlot *slot; - int natts; - Datum *values; - bool *isnull; + TupleTableSlot *reform_slot; BufferHeapTupleTableSlot *hslot; BlockNumber prev_cblock = InvalidBlockNumber; bool concurrent = snapshot != NULL; @@ -621,11 +617,6 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, */ Assert(RelationGetTargetBlock(NewHeap) == InvalidBlockNumber); - /* Preallocate values/isnull arrays */ - natts = newTupDesc->natts; - values = palloc_array(Datum, natts); - isnull = palloc_array(bool, natts); - /* * In non-concurrent mode, initialize the rewrite operation. This is not * needed in concurrent mode. @@ -699,6 +690,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, slot = table_slot_create(OldHeap, NULL); hslot = (BufferHeapTupleTableSlot *) slot; + reform_slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsVirtual); /* * Scan through the OldHeap, either in OldIndex order or sequentially; @@ -875,11 +868,9 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, int64 ct_val[2]; if (!concurrent) - reform_and_rewrite_tuple(tuple, OldHeap, NewHeap, - values, isnull, rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* * In indexscan mode and also VACUUM FULL, report increase in @@ -895,8 +886,7 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, index_endscan(indexScan); if (tableScan != NULL) table_endscan(tableScan); - if (slot) - ExecDropSingleTupleTableSlot(slot); + ExecDropSingleTupleTableSlot(slot); /* * In scan-and-sort mode, complete the sort, then read out all live tuples @@ -916,6 +906,8 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, pgstat_progress_update_param(PROGRESS_REPACK_PHASE, PROGRESS_REPACK_PHASE_WRITE_NEW_HEAP); + slot = MakeSingleTupleTableSlot(RelationGetDescr(OldHeap), + &TTSOpsHeapTuple); for (;;) { HeapTuple tuple; @@ -926,33 +918,36 @@ heapam_relation_copy_for_cluster(Relation OldHeap, Relation NewHeap, if (tuple == NULL) break; + /* + * XXX Ideally we should use tuplesort_gettupleslot() above, but + * it retrieves minimal tuples and tuplesort_puttupleslot() cannot + * get the tuple descriptor from tuplesort created by + * tuplesort_begin_cluster(). + */ + ExecStoreHeapTuple(tuple, slot, false); + n_tuples += 1; if (!concurrent) - reform_and_rewrite_tuple(tuple, - OldHeap, NewHeap, - values, isnull, - rwstate); + reform_and_rewrite_tuple(slot, reform_slot, rwstate); else - heap_insert_for_repack(tuple, OldHeap, NewHeap, - values, isnull, bistate); + heap_insert_for_repack(NewHeap, slot, reform_slot, bistate); /* Report n_tuples */ pgstat_progress_update_param(PROGRESS_REPACK_HEAP_TUPLES_INSERTED, n_tuples); } + ExecDropSingleTupleTableSlot(slot); tuplesort_end(tuplesort); } + ExecDropSingleTupleTableSlot(reform_slot); + /* Write out any remaining tuples, and fsync if needed */ if (rwstate) end_heap_rewrite(rwstate); if (bistate) FreeBulkInsertState(bistate); - - /* Clean up */ - pfree(values); - pfree(isnull); } /* @@ -2340,21 +2335,45 @@ heapam_scan_sample_next_tuple(TableScanDesc scan, SampleScanState *scanstate, * currently only known to happen as an after-effect of ALTER TABLE * SET WITHOUT OIDS. * - * So, we must reconstruct the tuple from component Datums. + * So, we must reconstruct the tuple from component Datums. 'reform' slot + * is a workspace for this reconstruction. */ static void -reform_and_rewrite_tuple(HeapTuple tuple, - Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, RewriteState rwstate) +reform_and_rewrite_tuple(TupleTableSlot *src, TupleTableSlot *reform, + RewriteState rwstate) { - HeapTuple newtuple; + HeapTuple tuple, + newtuple; + bool shouldFree, + shouldFreeNew; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + /* + * The old tuple will not be modified, so do not request materialization. + * (A copy can be created for specific slot type though, e.g. + * TTSOpsMinimalTuple.) + */ + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + + /* No need to materialize, copy will be created anyway. */ + Assert(TTS_IS_VIRTUAL(reform)); + newtuple = ExecFetchSlotHeapTuple(reform, false, &shouldFreeNew); + } + else + { + newtuple = heap_copytuple(tuple); + shouldFreeNew = true; + } /* The heap rewrite module does the rest */ rewrite_heap_tuple(rwstate, tuple, newtuple); - heap_freetuple(newtuple); + if (shouldFree) + heap_freetuple(tuple); + if (shouldFreeNew) + heap_freetuple(newtuple); } /* @@ -2366,6 +2385,9 @@ reform_and_rewrite_tuple(HeapTuple tuple, * information). Thus we must use heap_insert() both during the * catch-up and here. * + * 'reform' is a slot to use for tuple "reforming", typically to get set + * values of dropped columns to NULL. + * * We pass the NO_LOGICAL flag to heap_insert() in order to skip logical * decoding: as soon as REPACK CONCURRENTLY swaps the relation files, it drops * this relation, so no logical replication subscription should need the data. @@ -2374,76 +2396,75 @@ reform_and_rewrite_tuple(HeapTuple tuple, * case. */ static void -heap_insert_for_repack(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull, BulkInsertState bistate) +heap_insert_for_repack(Relation rel, TupleTableSlot *src, + TupleTableSlot *reform, BulkInsertStateData *bistate) { - HeapTuple newtuple; + HeapTuple tuple; + bool shouldFree; + TupleTableSlot *slot; - newtuple = reform_tuple(tuple, OldHeap, NewHeap, values, isnull); + tuple = ExecFetchSlotHeapTuple(src, false, &shouldFree); + if (tuple_needs_reform(tuple, src->tts_tupleDescriptor)) + { + clear_dropped_attributes(tuple, reform); + slot = reform; + } + else + slot = src; - heap_insert(NewHeap, newtuple, GetCurrentCommandId(true), - HEAP_INSERT_NO_LOGICAL, bistate); + /* + * clear_dropped_attributes() should have deformed the tuple, so nothing + * should depend on it now. + */ + if (shouldFree) + heap_freetuple(tuple); - heap_freetuple(newtuple); + table_tuple_insert(rel, slot, GetCurrentCommandId(true), + TABLE_INSERT_NO_LOGICAL, bistate); } -/* - * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. - * - * Deform the given tuple, set values of dropped columns to NULL, and fill in - * any values from attmissingval; then form a new tuple and return it. If no - * attributes need to be changed, a copy of the original tuple is returned. - * Caller is responsible for freeing the returned tuple. - * - * XXX this coding assumes that both relations have the same tupledesc. - */ -static HeapTuple -reform_tuple(HeapTuple tuple, Relation OldHeap, Relation NewHeap, - Datum *values, bool *isnull) +static bool +tuple_needs_reform(HeapTuple tuple, TupleDesc tupDesc) { - TupleDesc oldTupDesc = RelationGetDescr(OldHeap); - TupleDesc newTupDesc = RelationGetDescr(NewHeap); - bool needs_reform = false; - /* * A short tuple might require values from attmissing val, so activate the * coding unconditionally in that case. The value might legitimally be * NULL otherwise, so this is slightly wasteful, but it probably beats * having to test each attribute for presence of attmissingval each time. */ - if (HeapTupleHeaderGetNatts(tuple->t_data) < newTupDesc->natts) - needs_reform = true; + if (HeapTupleHeaderGetNatts(tuple->t_data) < tupDesc->natts) + return true; - /* - * If the column has been dropped but a value is still present, we can - * optimize storage now by getting rid of it. - */ - if (!needs_reform) + /* Does it have dropped attributes? */ + for (int i = 0; i < tupDesc->natts; i++) { - for (int i = 0; i < newTupDesc->natts; i++) - { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped && - !heap_attisnull(tuple, i + 1, newTupDesc)) - { - needs_reform = true; - break; - } - } + if (TupleDescCompactAttr(tupDesc, i)->attisdropped && + !heap_attisnull(tuple, i + 1, tupDesc)) + return true; } - /* Skip work if no changes are needed */ - if (!needs_reform) - return heap_copytuple(tuple); + return false; +} - heap_deform_tuple(tuple, oldTupDesc, values, isnull); +/* + * Subroutine for reform_and_rewrite_tuple and heap_insert_for_repack. + * + * Set values of dropped columns to NULL, + */ +static void +clear_dropped_attributes(HeapTuple tuple, TupleTableSlot *reform) +{ + TupleDesc tupDesc = reform->tts_tupleDescriptor; + + /* Assuming 'reform' is virtual, this deforms the tuple. */ + Assert(TTS_IS_VIRTUAL(reform)); + ExecForceStoreHeapTuple(tuple, reform, false); - for (int i = 0; i < newTupDesc->natts; i++) + for (int i = 0; i < tupDesc->natts; i++) { - if (TupleDescCompactAttr(newTupDesc, i)->attisdropped) - isnull[i] = true; + if (TupleDescCompactAttr(tupDesc, i)->attisdropped) + reform->tts_isnull[i] = true; } - - return heap_form_tuple(newTupDesc, values, isnull); } /* -- 2.52.0 --=-=-= Content-Type: text/x-diff Content-Disposition: attachment; filename=v02-0002-Move-functions-to-repack.c.patch ^ permalink raw reply [nested|flat] 134+ messages in thread
end of thread, other threads:[~2026-07-15 08:37 UTC | newest] Thread overview: 134+ messages (download: mbox mbox.gz follow: Atom feed) -- links below jump to the message on this page -- 2026-01-27 10:48 [PATCH 2/6] Refactor index_concurrently_create_copy() for use with REPACK (CONCURRENTLY). Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-06-16 11:54 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]> 2026-07-15 08:37 [PATCH 1/8] Use tuple slot to pass tuples for rewriting. Antonin Houska <[email protected]>
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