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From: Dmitry Koval <[email protected]>
To: jian he <[email protected]>
Cc: [email protected]
Subject: Re: Add SPLIT PARTITION/MERGE PARTITIONS commands
Date: Wed, 25 Jun 2025 00:28:28 +0300
Message-ID: <[email protected]> (raw)
In-Reply-To: <CACJufxGSwvUwu2gyZfTzv=3TJ8Zu4=Kq-GB_pg3x5_5dpwYQkA@mail.gmail.com>
References: <171085360143.2046436.7217841141682511557.pgcf@coridan.postgresql.org>
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	<[email protected]>
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	<[email protected]>
	<CACJufxHakPGgUHfe4uThY2u_Hzq3YOP9m4B3gjZUTUm2mbVryA@mail.gmail.com>
	<CACJufxHo0u=PzgCn88VZEW0mtB=JopchqBTESudUMH+HCyiTpg@mail.gmail.com>
	<[email protected]>
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	<CACJufxGSwvUwu2gyZfTzv=3TJ8Zu4=Kq-GB_pg3x5_5dpwYQkA@mail.gmail.com>

Hi!
Thanks for notes!

1.
 >here, we don't need ``(void *)``

Corrected.


2.
 >In the synopsis section, we can combine the last two lines into one
 >for better formatting.

Changed.


3.
 > after ...
 >we can add the following to briefly explain parameters: partition_name1,
 >partition_name2

Added.


4.
 >What do you think about alternative syntax:
 >ALTER TABLE tab1 MERGE PARTITION part1 WITH (part2, part3) mentioned 
in [1].
 >....

Is it additional syntax (to the existing one) with functionality: 
partition part1 survives and data from partitions part2, part3 is moved 
into part1?
And (if "yes") should we delete the part1 indexes (or other constraints) 
before moving the data?


[1] 
https://postgr.es/m/CA+TgmoY0=bT_xBP8csR=MFE=FxGE2n2-me2-31jBOgEcLvW7ug@mail.gmail.com

-- 
With best regards,
Dmitry Koval

Postgres Professional: http://postgrespro.com

From d5f7f509b97485970e970e3d5b1f9fba228f962c Mon Sep 17 00:00:00 2001
From: Alexander Korotkov <[email protected]>
Date: Sun, 7 Apr 2024 00:57:22 +0300
Subject: [PATCH v49 1/2] Implement ALTER TABLE ... MERGE PARTITIONS ...
 command

This new DDL command merges several partitions into the one partition of the
target table.  The target partition is created using new
createPartitionTable() function with parent partition as the template.

This commit comprises quite naive implementation which works in single process
and holds the ACCESS EXCLUSIVE LOCK on the parent table during all the
operations including the tuple routing.  This is why this new DDL command
can't be recommended for large partitioned tables under a high load.  However,
this implementation come in handy in certain cases even as is.
Also, it could be used as a foundation for future implementations with lesser
locking and possibly parallel.

Discussion: https://postgr.es/m/c73a1746-0cd0-6bdd-6b23-3ae0b7c0c582%40postgrespro.ru
Author: Dmitry Koval
Reviewed-by: Matthias van de Meent, Laurenz Albe, Zhihong Yu, Justin Pryzby
Reviewed-by: Alvaro Herrera, Robert Haas, Stephane Tachoires, Jian He

Fixes (summary information).
Authors: Alexander Korotkov, Tender Wang, Richard Guo, Dagfinn Ilmari Mannsaker
Authors: Fujii Masao, Jian He
Reviewed-by: Alexander Korotkov, Robert Haas, Justin Pryzby, Pavel Borisov
Reviewed-by: Masahiko Sawada
Reported-by: Alexander Lakhin, Justin Pryzby, Kyotaro Horiguchi
Reported-by: Daniel Gustafsson, Tom Lane, Noah Misch
---
 doc/src/sgml/ddl.sgml                         |   19 +
 doc/src/sgml/ref/alter_table.sgml             |  113 +-
 src/backend/catalog/dependency.c              |   50 +
 src/backend/catalog/heap.c                    |    4 +-
 src/backend/catalog/pg_constraint.c           |    2 +-
 src/backend/commands/tablecmds.c              |  908 +++++++++++++-
 src/backend/parser/gram.y                     |   22 +-
 src/backend/parser/parse_utilcmd.c            |  148 +++
 src/backend/partitioning/partbounds.c         |  194 +++
 src/bin/psql/tab-complete.in.c                |   10 +
 src/include/catalog/dependency.h              |    2 +
 src/include/nodes/parsenodes.h                |    5 +-
 src/include/parser/kwlist.h                   |    1 +
 src/include/partitioning/partbounds.h         |    6 +
 .../isolation/expected/partition-merge.out    |  199 +++
 src/test/isolation/isolation_schedule         |    1 +
 src/test/isolation/specs/partition-merge.spec |   54 +
 .../test_ddl_deparse/test_ddl_deparse.c       |    3 +
 src/test/regress/expected/partition_merge.out | 1105 +++++++++++++++++
 src/test/regress/parallel_schedule            |    2 +-
 src/test/regress/sql/partition_merge.sql      |  796 ++++++++++++
 21 files changed, 3618 insertions(+), 26 deletions(-)
 create mode 100644 src/test/isolation/expected/partition-merge.out
 create mode 100644 src/test/isolation/specs/partition-merge.spec
 create mode 100644 src/test/regress/expected/partition_merge.out
 create mode 100644 src/test/regress/sql/partition_merge.sql

diff --git a/doc/src/sgml/ddl.sgml b/doc/src/sgml/ddl.sgml
index 96936bcd3a..62c2bb54ea 100644
--- a/doc/src/sgml/ddl.sgml
+++ b/doc/src/sgml/ddl.sgml
@@ -4440,6 +4440,25 @@ ALTER TABLE measurement_y2006m02 ADD UNIQUE (city_id, logdate);
 ALTER INDEX measurement_city_id_logdate_key
     ATTACH PARTITION measurement_y2006m02_city_id_logdate_key;
 ...
+</programlisting>
+    </para>
+
+    <para>
+     There is also an option for merging multiple table partitions into
+     a single partition using the
+     <link linkend="sql-altertable-merge-partitions"><command>ALTER TABLE ... MERGE PARTITIONS</command></link>.
+     This feature simplifies the management of partitioned tables by allowing
+     users to combine partitions that are no longer needed as
+     separate entities.  It's important to note that this operation is not
+     supported for hash-partitioned tables and acquires an
+     <literal>ACCESS EXCLUSIVE</literal> lock, which could impact high-load
+     systems due to the lock's restrictive nature.  For example, we can
+     merge three monthly partitions into one quarter partition:
+<programlisting>
+ALTER TABLE measurement
+    MERGE PARTITIONS (measurement_y2006m01,
+                      measurement_y2006m02,
+                      measurement_y2006m03) INTO measurement_y2006q1;
 </programlisting>
     </para>
    </sect3>
diff --git a/doc/src/sgml/ref/alter_table.sgml b/doc/src/sgml/ref/alter_table.sgml
index d63f3a621a..dd429c12b1 100644
--- a/doc/src/sgml/ref/alter_table.sgml
+++ b/doc/src/sgml/ref/alter_table.sgml
@@ -37,6 +37,8 @@ ALTER TABLE [ IF EXISTS ] <replaceable class="parameter">name</replaceable>
     ATTACH PARTITION <replaceable class="parameter">partition_name</replaceable> { FOR VALUES <replaceable class="parameter">partition_bound_spec</replaceable> | DEFAULT }
 ALTER TABLE [ IF EXISTS ] <replaceable class="parameter">name</replaceable>
     DETACH PARTITION <replaceable class="parameter">partition_name</replaceable> [ CONCURRENTLY | FINALIZE ]
+ALTER TABLE [ IF EXISTS ] <replaceable class="parameter">name</replaceable>
+    MERGE PARTITIONS (<replaceable class="parameter">partition_name1</replaceable>, <replaceable class="parameter">partition_name2</replaceable> [, ...]) INTO <replaceable class="parameter">partition_name</replaceable>
 
 <phrase>where <replaceable class="parameter">action</replaceable> is one of:</phrase>
 
@@ -1147,14 +1149,101 @@ WITH ( MODULUS <replaceable class="parameter">numeric_literal</replaceable>, REM
     </listitem>
    </varlistentry>
 
+   <varlistentry id="sql-altertable-merge-partitions">
+    <term><literal>MERGE PARTITIONS (<replaceable class="parameter">partition_name1</replaceable>, <replaceable class="parameter">partition_name2</replaceable> [, ...]) INTO <replaceable class="parameter">partition_name</replaceable></literal></term>
+
+    <listitem>
+     <para>
+      This form merges several partitions of the target table into a new partition.
+      Hash-partitioned target table is not supported.
+      If <literal>DEFAULT</literal> partition is not in the
+      list of partitions <replaceable class="parameter">partition_name1</replaceable>,
+      <replaceable class="parameter">partition_name2</replaceable> [, ...]:
+      <itemizedlist>
+       <listitem>
+        <para>
+         For range-partitioned tables, the ranges of the partitions
+         <replaceable class="parameter">partition_name1</replaceable>,
+         <replaceable class="parameter">partition_name2</replaceable>, [...]
+         must be adjacent in order to be merged. Otherwise, an error will be
+         raised. The resulting combined range will be the new partition bound
+         for the partition <replaceable class="parameter">partition_name</replaceable>.
+        </para>
+       </listitem>
+       <listitem>
+        <para>
+         For list-partitioned tables, the partition bounds of
+         <replaceable class="parameter">partition_name1</replaceable>,
+         <replaceable class="parameter">partition_name2</replaceable>, [...]
+         are combined to form the new partition bound for
+         <replaceable class="parameter">partition_name</replaceable>.
+        </para>
+       </listitem>
+      </itemizedlist>
+      If <literal>DEFAULT</literal> partition is in the list of partitions <replaceable class="parameter">partition_name1</replaceable>,
+      <replaceable class="parameter">partition_name2</replaceable> [, ...]:
+      <itemizedlist>
+       <listitem>
+        <para>
+         The partition <replaceable class="parameter">partition_name</replaceable>
+         will be the new <literal>DEFAULT</literal> partition of the target table.
+        </para>
+       </listitem>
+       <listitem>
+        <para>
+         The partition bound specifications for all partitions-
+         <replaceable class="parameter">partition_name1</replaceable>,
+         <replaceable class="parameter">partition_name2</replaceable>, [...]
+         can be arbitrary.
+        </para>
+       </listitem>
+      </itemizedlist>
+      The new partition <replaceable class="parameter">partition_name</replaceable>
+      can have the same name as one of the merged partitions. Only simple,
+      non-partitioned partitions can be merged.
+     </para>
+     <para>
+      If merged partitions have different owners, an error will be generated.
+      The owner of the merged partitions will be the owner of the new partition.
+      It is the user's responsibility to setup <acronym>ACL</acronym> on the
+      new partition.
+     </para>
+     <para>
+      The indexes and identity are created later, after moving the data
+      into the new partition.
+      Extended statistics aren't copied from the parent table, for consistency with
+      <command>CREATE TABLE PARTITION OF</command>.
+      The new partition will inherit the same table access method, persistence
+      type, and tablespace as the parent table.
+     </para>
+     <para>
+      When partitions are merged, any individual objects belonging to those
+      partitions, such as constraints or statistics will be dropped. This occurs
+      because <command>ALTER TABLE MERGE PARTITIONS</command> uses the partitioned table itself as the
+      template to define these objects.
+     </para>
+     <para>
+      If merged partitions have some objects dependent on them, the command can
+      not be done (<literal>CASCADE</literal> is not used, an error will be returned).
+     </para>
+     <note>
+      <para>
+       Merging partitions acquires a <literal>ACCESS EXCLUSIVE</literal> lock on
+       the parent table, in addition to the <literal>ACCESS EXCLUSIVE</literal>
+       locks on the tables being merged and on the default partition (if any).
+      </para>
+     </note>
+    </listitem>
+   </varlistentry>
+
   </variablelist>
   </para>
 
   <para>
    All the forms of <command>ALTER TABLE</command> that act on a single table,
    except <literal>RENAME</literal>, <literal>SET SCHEMA</literal>,
-   <literal>ATTACH PARTITION</literal>, and
-   <literal>DETACH PARTITION</literal> can be combined into
+   <literal>ATTACH PARTITION</literal>, <literal>DETACH PARTITION</literal>,
+   and <literal>MERGE PARTITIONS</literal> can be combined into
    a list of multiple alterations to be applied together.  For example, it
    is possible to add several columns and/or alter the type of several
    columns in a single command.  This is particularly useful with large
@@ -1397,7 +1486,18 @@ WITH ( MODULUS <replaceable class="parameter">numeric_literal</replaceable>, REM
       <term><replaceable class="parameter">partition_name</replaceable></term>
       <listitem>
        <para>
-        The name of the table to attach as a new partition or to detach from this table.
+        The name of the table to attach as a new partition or to detach from this table,
+        or the name of the new merged partition.
+       </para>
+      </listitem>
+     </varlistentry>
+
+     <varlistentry id="sql-altertable-parms-partition-name1">
+      <term><replaceable class="parameter">partition_name1</replaceable></term>
+      <term><replaceable class="parameter">partition_name2</replaceable></term>
+      <listitem>
+       <para>
+        The names of the tables being merged into the new partition.
        </para>
       </listitem>
      </varlistentry>
@@ -1830,6 +1930,13 @@ ALTER TABLE measurement
     DETACH PARTITION measurement_y2015m12;
 </programlisting></para>
 
+  <para>
+   To merge several partitions into one partition of the target table:
+<programlisting>
+ALTER TABLE sales_list MERGE PARTITIONS (sales_west, sales_east, sales_central)
+    INTO sales_all;
+</programlisting></para>
+
  </refsect1>
 
  <refsect1>
diff --git a/src/backend/catalog/dependency.c b/src/backend/catalog/dependency.c
index 18316a3968..5afc493820 100644
--- a/src/backend/catalog/dependency.c
+++ b/src/backend/catalog/dependency.c
@@ -319,6 +319,56 @@ performDeletion(const ObjectAddress *object,
 	table_close(depRel, RowExclusiveLock);
 }
 
+/*
+ * performDeletionCheck: Check whether a specific object can be safely deleted.
+ * This function does not perform any deletion; instead, it raises an error
+ * if the object cannot be deleted due to existing dependencies.
+ *
+ * It can be useful when you need delete some objects later.  See comments in
+ * performDeletion too.
+ * The behavior must specified as DROP_RESTRICT.
+ */
+void
+performDeletionCheck(const ObjectAddress *object,
+					 DropBehavior behavior, int flags)
+{
+	Relation	depRel;
+	ObjectAddresses *targetObjects;
+
+	Assert(behavior == DROP_RESTRICT);
+
+	depRel = table_open(DependRelationId, RowExclusiveLock);
+
+	AcquireDeletionLock(object, 0);
+
+	/*
+	 * Construct a list of objects we want delete later (ie, the given object plus
+	 * everything directly or indirectly dependent on it).
+	 */
+	targetObjects = new_object_addresses();
+
+	findDependentObjects(object,
+						 DEPFLAG_ORIGINAL,
+						 flags,
+						 NULL,	/* empty stack */
+						 targetObjects,
+						 NULL,	/* no pendingObjects */
+						 &depRel);
+
+	/*
+	 * Check if deletion is allowed.
+	 */
+	reportDependentObjects(targetObjects,
+						   behavior,
+						   flags,
+						   object);
+
+	/* And clean up */
+	free_object_addresses(targetObjects);
+
+	table_close(depRel, RowExclusiveLock);
+}
+
 /*
  * performMultipleDeletions: Similar to performDeletion, but act on multiple
  * objects at once.
diff --git a/src/backend/catalog/heap.c b/src/backend/catalog/heap.c
index 10f43c51c5..696f80be83 100644
--- a/src/backend/catalog/heap.c
+++ b/src/backend/catalog/heap.c
@@ -102,11 +102,11 @@ static ObjectAddress AddNewRelationType(const char *typeName,
 										Oid new_row_type,
 										Oid new_array_type);
 static void RelationRemoveInheritance(Oid relid);
+static void StoreConstraints(Relation rel, List *cooked_constraints,
+							 bool is_internal);
 static Oid	StoreRelCheck(Relation rel, const char *ccname, Node *expr,
 						  bool is_enforced, bool is_validated, bool is_local,
 						  int16 inhcount, bool is_no_inherit, bool is_internal);
-static void StoreConstraints(Relation rel, List *cooked_constraints,
-							 bool is_internal);
 static bool MergeWithExistingConstraint(Relation rel, const char *ccname, Node *expr,
 										bool allow_merge, bool is_local,
 										bool is_enforced,
diff --git a/src/backend/catalog/pg_constraint.c b/src/backend/catalog/pg_constraint.c
index 2d5ac1ea81..1f948876d9 100644
--- a/src/backend/catalog/pg_constraint.c
+++ b/src/backend/catalog/pg_constraint.c
@@ -875,7 +875,7 @@ RelationGetNotNullConstraints(Oid relid, bool cooked, bool include_noinh)
 															 false)));
 			constr->is_enforced = true;
 			constr->skip_validation = !conForm->convalidated;
-			constr->initially_valid = true;
+			constr->initially_valid = conForm->convalidated;
 			constr->is_no_inherit = conForm->connoinherit;
 			notnulls = lappend(notnulls, constr);
 		}
diff --git a/src/backend/commands/tablecmds.c b/src/backend/commands/tablecmds.c
index 074ddb6b9c..34858ab509 100644
--- a/src/backend/commands/tablecmds.c
+++ b/src/backend/commands/tablecmds.c
@@ -740,6 +740,8 @@ static void ATDetachCheckNoForeignKeyRefs(Relation partition);
 static char GetAttributeCompression(Oid atttypid, const char *compression);
 static char GetAttributeStorage(Oid atttypid, const char *storagemode);
 
+static void ATExecMergePartitions(List **wqueue, AlteredTableInfo *tab, Relation rel,
+								  PartitionCmd *cmd, AlterTableUtilityContext *context);
 
 /* ----------------------------------------------------------------
  *		DefineRelation
@@ -4834,6 +4836,10 @@ AlterTableGetLockLevel(List *cmds)
 				cmd_lockmode = ShareUpdateExclusiveLock;
 				break;
 
+			case AT_MergePartitions:
+				cmd_lockmode = AccessExclusiveLock;
+				break;
+
 			default:			/* oops */
 				elog(ERROR, "unrecognized alter table type: %d",
 					 (int) cmd->subtype);
@@ -5269,6 +5275,11 @@ ATPrepCmd(List **wqueue, Relation rel, AlterTableCmd *cmd,
 			/* No command-specific prep needed */
 			pass = AT_PASS_MISC;
 			break;
+		case AT_MergePartitions:
+			ATSimplePermissions(cmd->subtype, rel, ATT_PARTITIONED_TABLE);
+			/* No command-specific prep needed */
+			pass = AT_PASS_MISC;
+			break;
 		default:				/* oops */
 			elog(ERROR, "unrecognized alter table type: %d",
 				 (int) cmd->subtype);
@@ -5665,6 +5676,14 @@ ATExecCmd(List **wqueue, AlteredTableInfo *tab,
 		case AT_DetachPartitionFinalize:
 			address = ATExecDetachPartitionFinalize(rel, ((PartitionCmd *) cmd->def)->name);
 			break;
+		case AT_MergePartitions:
+			cmd = ATParseTransformCmd(wqueue, tab, rel, cmd, false, lockmode,
+									  cur_pass, context);
+			Assert(cmd != NULL);
+			Assert(rel->rd_rel->relkind == RELKIND_PARTITIONED_TABLE);
+			ATExecMergePartitions(wqueue, tab, rel, (PartitionCmd *) cmd->def,
+								  context);
+			break;
 		default:				/* oops */
 			elog(ERROR, "unrecognized alter table type: %d",
 				 (int) cmd->subtype);
@@ -6705,6 +6724,8 @@ alter_table_type_to_string(AlterTableType cmdtype)
 			return "DETACH PARTITION";
 		case AT_DetachPartitionFinalize:
 			return "DETACH PARTITION ... FINALIZE";
+		case AT_MergePartitions:
+			return "MERGE PARTITIONS";
 		case AT_AddIdentity:
 			return "ALTER COLUMN ... ADD IDENTITY";
 		case AT_SetIdentity:
@@ -20169,6 +20190,37 @@ QueuePartitionConstraintValidation(List **wqueue, Relation scanrel,
 	}
 }
 
+/*
+ * attachPartitionTable: attach a new partition to the partitioned table
+ *
+ * wqueue: the ALTER TABLE work queue; can be NULL when not running as part
+ *   of an ALTER TABLE sequence.
+ * rel: partitioned relation;
+ * attachrel: relation of attached partition;
+ * bound: bounds of attached relation.
+ */
+static void
+attachPartitionTable(List **wqueue, Relation rel, Relation attachrel, PartitionBoundSpec *bound)
+{
+	/* OK to create inheritance.  Rest of the checks performed there */
+	CreateInheritance(attachrel, rel, true);
+
+	/* Update the pg_class entry. */
+	StorePartitionBound(attachrel, rel, bound);
+
+	/* Ensure there exists a correct set of indexes in the partition. */
+	AttachPartitionEnsureIndexes(wqueue, rel, attachrel);
+
+	/* and triggers */
+	CloneRowTriggersToPartition(rel, attachrel);
+
+	/*
+	 * Clone foreign key constraints.  Callee is responsible for setting up
+	 * for phase 3 constraint verification.
+	 */
+	CloneForeignKeyConstraints(wqueue, rel, attachrel);
+}
+
 /*
  * ALTER TABLE <name> ATTACH PARTITION <partition-name> FOR VALUES
  *
@@ -20372,23 +20424,8 @@ ATExecAttachPartition(List **wqueue, Relation rel, PartitionCmd *cmd,
 	check_new_partition_bound(RelationGetRelationName(attachrel), rel,
 							  cmd->bound, pstate);
 
-	/* OK to create inheritance.  Rest of the checks performed there */
-	CreateInheritance(attachrel, rel, true);
-
-	/* Update the pg_class entry. */
-	StorePartitionBound(attachrel, rel, cmd->bound);
-
-	/* Ensure there exists a correct set of indexes in the partition. */
-	AttachPartitionEnsureIndexes(wqueue, rel, attachrel);
-
-	/* and triggers */
-	CloneRowTriggersToPartition(rel, attachrel);
-
-	/*
-	 * Clone foreign key constraints.  Callee is responsible for setting up
-	 * for phase 3 constraint verification.
-	 */
-	CloneForeignKeyConstraints(wqueue, rel, attachrel);
+	/* Attach a new partition to the partitioned table. */
+	attachPartitionTable(wqueue, rel, attachrel, cmd->bound);
 
 	/*
 	 * Generate partition constraint from the partition bound specification.
@@ -22035,3 +22072,840 @@ GetAttributeStorage(Oid atttypid, const char *storagemode)
 
 	return cstorage;
 }
+
+
+/*
+ * buildExpressionExecutionStates: build the needed expression execution states
+ * for new partition (newPartRel) checks and initialize expressions for
+ * generated columns. All expressions should be created in "tab"
+ * (AlteredTableInfo structure).
+ */
+static void
+buildExpressionExecutionStates(AlteredTableInfo *tab, Relation newPartRel, EState *estate)
+{
+	/* Build the needed expression execution states. */
+	foreach_ptr(NewConstraint, con, tab->constraints)
+	{
+		switch (con->contype)
+		{
+			case CONSTR_CHECK:
+				con->qualstate = ExecPrepareExpr((Expr *) expand_generated_columns_in_expr(con->qual, newPartRel, 1), estate);
+				break;
+			case CONSTR_FOREIGN:
+				/* Nothing to do here. */
+				break;
+			case CONSTR_NOTNULL:
+				/* Nothing to do here. */
+				break;
+			default:
+				elog(ERROR, "unrecognized constraint type: %d",
+					 (int) con->contype);
+		}
+	}
+
+	foreach_ptr(NewColumnValue, ex, tab->newvals)
+	{
+		/* Expression already planned. */
+		ex->exprstate = ExecInitExpr((Expr *) ex->expr, NULL);
+	}
+}
+
+/*
+ * evaluateGeneratedExpressionsAndCheckConstraints: evaluate any generated
+ * expressions for "tab" (AlteredTableInfo structure) whose inputs come from
+ * the new tuple (insertslot) of new partition (newPartRel).
+ */
+static void
+evaluateGeneratedExpressionsAndCheckConstraints(AlteredTableInfo *tab,
+												Relation newPartRel,
+												TupleTableSlot *insertslot,
+												ExprContext *econtext)
+{
+	econtext->ecxt_scantuple = insertslot;
+
+	foreach_ptr(NewColumnValue, ex, tab->newvals)
+	{
+		if (!ex->is_generated)
+			continue;
+
+		insertslot->tts_values[ex->attnum - 1]
+			= ExecEvalExpr(ex->exprstate,
+							econtext,
+							&insertslot->tts_isnull[ex->attnum - 1]);
+	}
+
+	foreach_ptr(NewConstraint, con, tab->constraints)
+	{
+		switch (con->contype)
+		{
+			case CONSTR_CHECK:
+				if (!ExecCheck(con->qualstate, econtext))
+					ereport(ERROR,
+							errcode(ERRCODE_CHECK_VIOLATION),
+							errmsg("check constraint \"%s\" of relation \"%s\" is violated by some row",
+								   con->name, RelationGetRelationName(newPartRel)),
+							errtableconstraint(newPartRel, con->name));
+				break;
+			case CONSTR_NOTNULL:
+			case CONSTR_FOREIGN:
+				/* Nothing to do here */
+				break;
+			default:
+				elog(ERROR, "unrecognized constraint type: %d",
+					 (int) con->contype);
+		}
+	}
+}
+
+/*
+ * getAttributesList: build a list of columns (ColumnDef) based on parent_rel
+ */
+static List *
+getAttributesList(Relation parent_rel)
+{
+	AttrNumber	parent_attno;
+	TupleDesc	modelDesc;
+	List	   *colList = NIL;
+
+	modelDesc = RelationGetDescr(parent_rel);
+
+	for (parent_attno = 1; parent_attno <= modelDesc->natts;
+		 parent_attno++)
+	{
+		Form_pg_attribute attribute = TupleDescAttr(modelDesc,
+													parent_attno - 1);
+		ColumnDef  *def;
+
+		/* Ignore dropped columns in the parent. */
+		if (attribute->attisdropped)
+			continue;
+
+		def = makeColumnDef(NameStr(attribute->attname), attribute->atttypid,
+							attribute->atttypmod, attribute->attcollation);
+
+		def->is_not_null = attribute->attnotnull;
+
+		/* Copy identity for new partition. */
+		def->identity = attribute->attidentity;
+
+		/* Add to column list */
+		colList = lappend(colList, def);
+
+		/*
+		 * Although we don't transfer the column's default/generation
+		 * expression now, we need to mark it GENERATED if appropriate.
+		 */
+		if (attribute->atthasdef && attribute->attgenerated)
+			def->generated = attribute->attgenerated;
+
+		def->storage = attribute->attstorage;
+
+		/* Likewise, copy compression if requested */
+		if (CompressionMethodIsValid(attribute->attcompression))
+			def->compression =
+				pstrdup(GetCompressionMethodName(attribute->attcompression));
+		else
+			def->compression = NULL;
+	}
+
+	return colList;
+}
+
+
+/*
+ * createTableConstraints:
+ * create check constraints, default values and generated values for newRel
+ * based on parent_rel.  tab is pending-work queue for newRel, we may need it in
+ * MergePartitionsMoveRows.
+ */
+static void
+createTableConstraints(List **wqueue, AlteredTableInfo *tab,
+					   Relation parent_rel, Relation newRel)
+{
+	TupleDesc	tupleDesc;
+	TupleConstr *constr;
+	AttrMap    *attmap;
+	AttrNumber	parent_attno;
+	int			ccnum;
+	List	   *Constraints = NIL;
+	List	   *cookedConstraints = NIL;
+
+	tupleDesc = RelationGetDescr(parent_rel);
+	constr = tupleDesc->constr;
+
+	if (!constr)
+		return;
+
+	/*
+	 * Construct a map from the parent relation's attnos to the child rel's.
+	 * This re-checks type match etc, although it shouldn't be possible to
+	 * have a failure since both tables are locked.
+	 */
+	attmap = build_attrmap_by_name(RelationGetDescr(newRel),
+								   tupleDesc,
+								   false);
+
+	/* Cycle for default values. */
+	for (parent_attno = 1; parent_attno <= tupleDesc->natts; parent_attno++)
+	{
+		Form_pg_attribute attribute = TupleDescAttr(tupleDesc,
+													parent_attno - 1);
+
+		/* Ignore dropped columns in the parent. */
+		if (attribute->attisdropped)
+			continue;
+
+		/* Copy default, if present and it should be copied. */
+		if (attribute->atthasdef)
+		{
+			Node	   *this_default = NULL;
+			bool		found_whole_row;
+			AttrNumber	num;
+			Node	   *def;
+			NewColumnValue *newval;
+
+			if (attribute->attgenerated == ATTRIBUTE_GENERATED_VIRTUAL)
+				this_default = build_generation_expression(parent_rel, attribute->attnum);
+			else
+			{
+				this_default = TupleDescGetDefault(tupleDesc, attribute->attnum);
+				if (this_default == NULL)
+					elog(ERROR, "default expression not found for attribute %d of relation \"%s\"",
+						 attribute->attnum, RelationGetRelationName(parent_rel));
+			}
+
+			num = attmap->attnums[parent_attno - 1];
+			def = map_variable_attnos(this_default, 1, 0, attmap, InvalidOid, &found_whole_row);
+
+			/*
+			 * Prevent this for the same reason as for constraints below. Note
+			 * that defaults cannot contain any vars, so it's OK that the
+			 * error message refers to generated columns.
+			 */
+			if (found_whole_row && attribute->attgenerated != '\0')
+				ereport(ERROR,
+						errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
+						errmsg("cannot convert whole-row table reference"),
+						errdetail("Generation expression for column \"%s\" contains a whole-row reference to table \"%s\".",
+								 NameStr(attribute->attname),
+								 RelationGetRelationName(parent_rel)));
+
+			/* Add a pre-cooked default expression. */
+			StoreAttrDefault(newRel, num, def, true);
+
+			/*
+			 * Stored generated column expressions in parent_rel might reference
+			 * tableoid.  newRel, parent_rel tableoid clear is not the same. If
+			 * so, these stored generated columns require recomputation for
+			 * newRel within MergePartitionsMoveRows.
+			 */
+			if (attribute->attgenerated == ATTRIBUTE_GENERATED_STORED)
+			{
+				newval = (NewColumnValue *) palloc0(sizeof(NewColumnValue));
+				newval->attnum = num;
+				newval->expr = expression_planner((Expr *) def);
+				newval->is_generated = (attribute->attgenerated != '\0');
+				tab->newvals = lappend(tab->newvals, newval);
+			}
+		}
+	}
+
+	/* Cycle for CHECK constraints. */
+	for (ccnum = 0; ccnum < constr->num_check; ccnum++)
+	{
+		char	   *ccname = constr->check[ccnum].ccname;
+		char	   *ccbin = constr->check[ccnum].ccbin;
+		bool		ccenforced = constr->check[ccnum].ccenforced;
+		bool		ccnoinherit = constr->check[ccnum].ccnoinherit;
+		bool		ccvalid = constr->check[ccnum].ccvalid;
+		Node	   *ccbin_node;
+		bool		found_whole_row;
+		Constraint *constr;
+
+		/*
+		 * Partitioned table can not have NO INHERIT check constraint (see
+		 * StoreRelCheck function).
+		 */
+		Assert(!ccnoinherit);
+
+		ccbin_node = map_variable_attnos(stringToNode(ccbin),
+										 1, 0,
+										 attmap,
+										 InvalidOid, &found_whole_row);
+
+		/*
+		 * We reject whole-row variables because the whole point of LIKE is
+		 * that the new table's rowtype might later diverge from the parent's.
+		 * So, while translation might be possible right now, it wouldn't be
+		 * possible to guarantee it would work in future.
+		 */
+		if (found_whole_row)
+			ereport(ERROR,
+					errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
+					errmsg("cannot convert whole-row table reference"),
+					errdetail("Constraint \"%s\" contains a whole-row reference to table \"%s\".",
+							   ccname,
+							   RelationGetRelationName(parent_rel)));
+
+		constr = makeNode(Constraint);
+		constr->contype = CONSTR_CHECK;
+		constr->conname = pstrdup(ccname);
+		constr->deferrable = false;
+		constr->initdeferred = false;
+		constr->is_enforced = ccenforced;
+		constr->skip_validation = !ccvalid;
+		constr->initially_valid = ccvalid;
+		constr->is_no_inherit = ccnoinherit;
+		constr->raw_expr = NULL;
+		constr->cooked_expr = nodeToString(ccbin_node);
+		constr->location = -1;
+		Constraints = lappend(Constraints, constr);
+	}
+
+	/* install all CHECK constraints. */
+	cookedConstraints = AddRelationNewConstraints(newRel, NIL, Constraints,
+												  false, true, true, NULL);
+
+	/* Make the additional catalog changes visible */
+	CommandCounterIncrement();
+
+	/*
+	 * parent_rel check constraint expresssion may reference tableoid, so later
+	 * in MergePartitionsMoveRows, we need evulate the check constraint again
+	 * for the newRel. We can check weather check constraint contain tableoid
+	 * reference or not via pull_varattnos.
+	 */
+	foreach_ptr(CookedConstraint, ccon, cookedConstraints)
+	{
+		if (!ccon->skip_validation && ccon->contype == CONSTR_CHECK)
+		{
+			Node		*qual;
+			Bitmapset	  *attnums = NULL;
+
+			qual = expand_generated_columns_in_expr(ccon->expr, newRel, 1);
+			pull_varattnos(qual, 1, &attnums);
+
+			/*
+			 * Add check only if it contains tableoid (TableOidAttributeNumber).
+			 */
+			if (bms_is_member(TableOidAttributeNumber - FirstLowInvalidHeapAttributeNumber,
+							  attnums))
+			{
+				NewConstraint *newcon;
+
+				newcon = (NewConstraint *) palloc0(sizeof(NewConstraint));
+				newcon->name = ccon->name;
+				newcon->contype = ccon->contype;
+				newcon->qual = qual;
+
+				tab->constraints = lappend(tab->constraints, newcon);
+			}
+		}
+	}
+
+	/* Don't need the cookedConstraints any more. */
+	list_free_deep(cookedConstraints);
+
+	/* Reproduce not-null constraints. */
+	if (constr->has_not_null)
+	{
+		List	   *nnconstraints;
+
+		/*
+		 * The "include_noinh" argument is false because a partitioned table
+		 * cannot have NO INHERIT constraint.
+		 */
+		nnconstraints = RelationGetNotNullConstraints(RelationGetRelid(parent_rel),
+													  false, false);
+
+		Assert(list_length(nnconstraints) > 0);
+
+		/*
+		 * We already set pg_attribute.attnotnull in createPartitionTable. No
+		 * need call set_attnotnull again.
+		*/
+		AddRelationNewConstraints(newRel, NIL, nnconstraints, false, true, true, NULL);
+	}
+}
+
+
+/*
+ * createPartitionTable:
+ *
+ * Create a new partition (newPartName) for partitioned table (parent_rel).
+ * ownerId is determined by the partition on which the operation is performed,
+ * so it is passed separately.  The new partition will inherit the access method
+ * and persistence type from the parent table.
+ *
+ * returns the created relation (locked in AccessExclusiveLock mode).
+ */
+static Relation
+createPartitionTable(List **wqueue, RangeVar *newPartName,
+					 Relation parent_rel, Oid ownerId)
+{
+	Relation	newRel;
+	Oid			newRelId;
+	Oid			existingRelid;
+	TupleDesc	descriptor;
+	List	   *colList = NIL;
+	Oid			relamId;
+	Oid			namespaceId;
+	AlteredTableInfo *new_partrel_tab;
+
+	/* If existing rel is temp, it must belong to this session */
+	if (RELATION_IS_OTHER_TEMP(parent_rel))
+		ereport(ERROR,
+				errcode(ERRCODE_WRONG_OBJECT_TYPE),
+				errmsg("cannot create as partition of temporary relation of another session"));
+
+	/* Look up inheritance ancestors and generate relation schema. */
+	colList = getAttributesList(parent_rel);
+
+	/* Create a tuple descriptor from the relation schema. */
+	descriptor = BuildDescForRelation(colList);
+
+	/* Look up the access method for new relation. */
+	relamId = (parent_rel->rd_rel->relam != InvalidOid) ? parent_rel->rd_rel->relam : HEAP_TABLE_AM_OID;
+
+	/* Look up the namespace in which we are supposed to create the relation. */
+	namespaceId =
+		RangeVarGetAndCheckCreationNamespace(newPartName, NoLock, &existingRelid);
+	if (OidIsValid(existingRelid))
+		ereport(ERROR,
+				errcode(ERRCODE_DUPLICATE_TABLE),
+				errmsg("relation \"%s\" already exists", newPartName->relname));
+
+	/* Create the relation. */
+	newRelId = heap_create_with_catalog(newPartName->relname,
+										namespaceId,
+										parent_rel->rd_rel->reltablespace,
+										InvalidOid,
+										InvalidOid,
+										InvalidOid,
+										ownerId,
+										relamId,
+										descriptor,
+										NIL,
+										RELKIND_RELATION,
+										newPartName->relpersistence,
+										false,
+										false,
+										ONCOMMIT_NOOP,
+										(Datum) 0,
+										true,
+										allowSystemTableMods,
+										true,
+										InvalidOid,
+										NULL);
+
+	/*
+	 * We must bump the command counter to make the newly-created relation
+	 * tuple visible for opening.
+	 */
+	CommandCounterIncrement();
+
+	/*
+	 * Open the new partition with no lock, because we already have
+	 * AccessExclusiveLock placed there after creation.
+	 */
+	newRel = table_open(newRelId, NoLock);
+
+	/* Find or create work queue entry for newly created table. */
+	new_partrel_tab = ATGetQueueEntry(wqueue, newRel);
+
+	/*
+	 * We intended to create the partition with the same persistence as the
+	 * parent table, but we still need to recheck because that might be
+	 * affected by the search_path.  If the parent is permanent, so must be
+	 * all of its partitions.
+	 */
+	if (parent_rel->rd_rel->relpersistence != RELPERSISTENCE_TEMP &&
+		newRel->rd_rel->relpersistence == RELPERSISTENCE_TEMP)
+		ereport(ERROR,
+				errcode(ERRCODE_WRONG_OBJECT_TYPE),
+				errmsg("cannot create a temporary relation as partition of permanent relation \"%s\"",
+					   RelationGetRelationName(parent_rel)));
+
+	/* Permanent rels cannot be partitions belonging to temporary parent */
+	if (newRel->rd_rel->relpersistence != RELPERSISTENCE_TEMP &&
+		parent_rel->rd_rel->relpersistence == RELPERSISTENCE_TEMP)
+		ereport(ERROR,
+				errcode(ERRCODE_WRONG_OBJECT_TYPE),
+				errmsg("cannot create a permanent relation as partition of temporary relation \"%s\"",
+					   RelationGetRelationName(parent_rel)));
+
+	/* Create constraints, default values and generated values */
+	createTableConstraints(wqueue, new_partrel_tab, parent_rel, newRel);
+
+	/*
+	 * Need to call CommandCounterIncrement, so fresh relcache entry have newly
+	 * installed constraint info.
+	 */
+	CommandCounterIncrement();
+
+	return newRel;
+}
+
+/*
+ * MergePartitionsMoveRows: scan partitions to be merged (mergingPartitions)
+ * of the partitioned table and move rows into the new partition
+ * (newPartRel). We also reevaulate check constraints against these rows.
+ */
+static void
+MergePartitionsMoveRows(List **wqueue, List *mergingPartitions, Relation newPartRel)
+{
+	CommandId	mycid;
+	EState	   *estate;
+	ExprContext *econtext;
+	AlteredTableInfo *tab;
+	ListCell   *ltab;
+
+	/* The FSM is empty, so don't bother using it. */
+	int			ti_options = TABLE_INSERT_SKIP_FSM;
+	BulkInsertState bistate;	/* state of bulk inserts for partition */
+	TupleTableSlot *dstslot;
+
+	/* Find the work queue entry for new partition table: newPartRel. */
+	tab = ATGetQueueEntry(wqueue, newPartRel);
+
+	/* Generate the constraint and default execution states. */
+	estate = CreateExecutorState();
+
+	buildExpressionExecutionStates(tab, newPartRel, estate);
+
+	econtext = GetPerTupleExprContext(estate);
+
+	mycid = GetCurrentCommandId(true);
+
+	/* Prepare a BulkInsertState for table_tuple_insert. */
+	bistate = GetBulkInsertState();
+
+	/* Create necessary tuple slot. */
+	dstslot = table_slot_create(newPartRel, NULL);
+
+	foreach_oid(merging_oid, mergingPartitions)
+	{
+		TupleTableSlot *srcslot;
+		TupleConversionMap *tuple_map;
+		TableScanDesc scan;
+		Snapshot	snapshot;
+		Relation 	mergingPartition;
+
+		/*
+		 * Partition is already locked in the transformPartitionCmdForMerge
+		 * function.
+		 */
+		mergingPartition = table_open(merging_oid, NoLock);
+
+		/* Create tuple slot for new partition. */
+		srcslot = table_slot_create(mergingPartition, NULL);
+
+		/*
+		 * Map computing for moving attributes of merged partition to new
+		 * partition.
+		 */
+		tuple_map = convert_tuples_by_name(RelationGetDescr(mergingPartition),
+										   RelationGetDescr(newPartRel));
+
+		/* Scan through the rows. */
+		snapshot = RegisterSnapshot(GetLatestSnapshot());
+		scan = table_beginscan(mergingPartition, snapshot, 0, NULL);
+
+		while (table_scan_getnextslot(scan, ForwardScanDirection, srcslot))
+		{
+			TupleTableSlot *insertslot;
+
+			CHECK_FOR_INTERRUPTS();
+
+			if (tuple_map)
+			{
+				/* Need to use map to copy attributes. */
+				insertslot = execute_attr_map_slot(tuple_map->attrMap, srcslot, dstslot);
+			}
+			else
+			{
+				slot_getallattrs(srcslot);
+
+				/* Copy attributes directly. */
+				insertslot = dstslot;
+
+				ExecClearTuple(insertslot);
+
+				memcpy(insertslot->tts_values, srcslot->tts_values,
+					   sizeof(Datum) * srcslot->tts_nvalid);
+				memcpy(insertslot->tts_isnull, srcslot->tts_isnull,
+					   sizeof(bool) * srcslot->tts_nvalid);
+
+				ExecStoreVirtualTuple(insertslot);
+			}
+
+			/*
+			 * Constraints and GENERATED expressions might reference the
+			 * tableoid column, so fill tts_tableOid with the desired
+			 * value.  (We must do this each time, because it gets
+			 * overwritten with newrel's OID during storing.)
+			 */
+			insertslot->tts_tableOid = RelationGetRelid(newPartRel);
+
+			/*
+			 * Now, evaluate any generated expressions whose inputs come from
+			 * the new tuple.  We assume these columns won't reference each
+			 * other, so that there's no ordering dependency.
+			 */
+			evaluateGeneratedExpressionsAndCheckConstraints(tab, newPartRel,
+															insertslot, econtext);
+
+			/* Write the tuple out to the new relation. */
+			table_tuple_insert(newPartRel, insertslot, mycid,
+							   ti_options, bistate);
+
+			ResetExprContext(econtext);
+		}
+
+		table_endscan(scan);
+		UnregisterSnapshot(snapshot);
+
+		if (tuple_map)
+			free_conversion_map(tuple_map);
+
+		ExecDropSingleTupleTableSlot(srcslot);
+		table_close(mergingPartition, NoLock);
+	}
+
+	FreeExecutorState(estate);
+	ExecDropSingleTupleTableSlot(dstslot);
+	FreeBulkInsertState(bistate);
+
+	table_finish_bulk_insert(newPartRel, ti_options);
+
+	/*
+	 * We don't need process this newPartRel since we already processed in here,
+	 * so delete the ALTER TABLE queue of it.
+	 */
+	foreach(ltab, *wqueue)
+	{
+		tab = (AlteredTableInfo *) lfirst(ltab);
+		if (tab->relid == RelationGetRelid(newPartRel))
+			*wqueue = list_delete_cell(*wqueue, ltab);
+	}
+}
+
+/*
+ * detachPartitionTable: detach partition "child_rel" from partitioned table
+ * "parent_rel" with default partition identifier "defaultPartOid"
+ */
+static void
+detachPartitionTable(Relation parent_rel, Relation child_rel, Oid defaultPartOid)
+{
+	/* Remove the pg_inherits row first. */
+	RemoveInheritance(child_rel, parent_rel, false);
+
+	/*
+	 * Detaching the partition might involve TOAST table access, so ensure we
+	 * have a valid snapshot.
+	 */
+	PushActiveSnapshot(GetTransactionSnapshot());
+
+	/* Do the final part of detaching. */
+	DetachPartitionFinalize(parent_rel, child_rel, false, defaultPartOid);
+
+	PopActiveSnapshot();
+}
+
+/*
+ * ALTER TABLE <name> MERGE PARTITIONS <partition-list> INTO <partition-name>
+ */
+static void
+ATExecMergePartitions(List **wqueue, AlteredTableInfo *tab, Relation rel,
+					  PartitionCmd *cmd, AlterTableUtilityContext *context)
+{
+	Relation	newPartRel;
+	List	   *mergingPartitions = NIL;
+	Oid			defaultPartOid;
+	Oid			existingRelid;
+	Oid			ownerId = InvalidOid;
+	Oid			save_userid;
+	int			save_sec_context;
+	int			save_nestlevel;
+
+	/*
+	 * Check ownership of merged partitions — partitions with different owners
+	 * cannot be merged. Also, collect the OIDs of these partitions during the
+	 * check.
+	*/
+	foreach_node(RangeVar, name, cmd->partlist)
+	{
+		Relation	mergingPartition;
+
+		/*
+		 * We are going to detach and remove this partition.  We already took
+		 * AccessExclusiveLock lock on transformPartitionCmdForMerge, so here,
+		 * NoLock is fine.
+		 */
+		mergingPartition = table_openrv_extended(name, NoLock, false);
+		Assert(CheckRelationLockedByMe(mergingPartition, AccessExclusiveLock, false));
+
+		if (OidIsValid(ownerId))
+		{
+			/* Do the partitions being merged have different owners? */
+			if (ownerId != mergingPartition->rd_rel->relowner)
+				ereport(ERROR,
+						errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
+						errmsg("partitions being merged have different owners"));
+		}
+		else
+			ownerId = mergingPartition->rd_rel->relowner;
+
+		/* Store a next merging partition into the list. */
+		mergingPartitions = lappend_oid(mergingPartitions,
+										RelationGetRelid(mergingPartition));
+
+		table_close(mergingPartition, NoLock);
+	}
+
+	/*
+	 * Look up existing relation by new partition name, check we have
+	 * permission to create there, lock it against concurrent drop, and mark
+	 * stmt->relation as RELPERSISTENCE_TEMP if a temporary namespace is
+	 * selected.
+	 */
+	cmd->name->relpersistence = rel->rd_rel->relpersistence;
+	RangeVarGetAndCheckCreationNamespace(cmd->name, NoLock, &existingRelid);
+
+	/*
+	 * Check if this name is already taken.  This helps us to detect the
+	 * situation when one of the merging partitions has the same name as the
+	 * new partition.  Otherwise, this would fail later on anyway but catching
+	 * this here allows us to emit a nicer error message.
+	 */
+	if (OidIsValid(existingRelid))
+	{
+		Oid		newPartitionOid = InvalidOid;
+
+		foreach_oid(mergingPartitionOid, mergingPartitions)
+		{
+			if (mergingPartitionOid == existingRelid)
+			{
+				newPartitionOid = mergingPartitionOid;
+				break;
+			}
+		}
+
+		if (OidIsValid(newPartitionOid))
+		{
+			/*
+			 * The new partition has the same name as one of merging
+			 * partitions.
+			 */
+			char		tmpRelName[NAMEDATALEN];
+
+			/* Generate temporary name. */
+			sprintf(tmpRelName, "merge-%u-%X-tmp", RelationGetRelid(rel), MyProcPid);
+
+			/*
+			 * Rename the existing partition with a temporary name, leaving it
+			 * free for the new partition.  We don't need to care about this
+			 * in the future because we're going to eventually drop the
+			 * existing partition anyway.
+			 */
+			RenameRelationInternal(newPartitionOid, tmpRelName, true, false);
+
+			/*
+			 * We must bump the command counter to make the new partition
+			 * tuple visible for rename.
+			 */
+			CommandCounterIncrement();
+		}
+		else
+		{
+			ereport(ERROR,
+					errcode(ERRCODE_DUPLICATE_TABLE),
+					errmsg("relation \"%s\" already exists", cmd->name->relname));
+		}
+	}
+
+	defaultPartOid =
+		get_default_oid_from_partdesc(RelationGetPartitionDesc(rel, true));
+
+	/* Detach all merged partitions */
+	foreach_oid(mergingPartitionOid, mergingPartitions)
+	{
+		Relation	child_rel;
+
+		child_rel = table_open(mergingPartitionOid, NoLock);
+
+		detachPartitionTable(rel, child_rel, defaultPartOid);
+
+		table_close(child_rel, NoLock);
+	}
+
+	/*
+	 * Perform a preliminary check to determine whether it's safe to drop all
+	 * merging partitions before we actually do so later. After merging rows
+	 * into the new partitions via MergePartitionsMoveRows, all old partitions
+	 * need be dropped. However, since the drop behavior is DROP_RESTRICT and
+	 * the merge process (MergePartitionsMoveRows) can be time-consuming,
+	 * performing an early check on the drop eligibility of old partitions is
+	 * preferable.
+	 */
+	foreach_oid(mergingPartitionOid, mergingPartitions)
+	{
+		ObjectAddress object;
+
+		/* Get oid of the later to be dropped relation */
+		object.objectId = mergingPartitionOid;
+		object.classId = RelationRelationId;
+		object.objectSubId = 0;
+
+		performDeletionCheck(&object, DROP_RESTRICT, PERFORM_DELETION_INTERNAL);
+	}
+
+	/* Create table for new partition, use partitioned table as model. */
+	Assert(OidIsValid(ownerId));
+	newPartRel = createPartitionTable(wqueue, cmd->name, rel, ownerId);
+
+	/*
+	 * Switch to the table owner's userid, so that any index functions are run
+	 * as that user.  Also lock down security-restricted operations and
+	 * arrange to make GUC variable changes local to this command.
+	 *
+	 * Need to do it after determine namespace in createPartitionTable call.
+	 */
+	GetUserIdAndSecContext(&save_userid, &save_sec_context);
+	SetUserIdAndSecContext(ownerId,
+						   save_sec_context | SECURITY_RESTRICTED_OPERATION);
+	save_nestlevel = NewGUCNestLevel();
+	RestrictSearchPath();
+
+	/* Copy data from merged partitions to new partition. */
+	MergePartitionsMoveRows(wqueue, mergingPartitions, newPartRel);
+
+	/* Drop the current partitions before attaching the new one. */
+	foreach_oid(mergingPartitionOid, mergingPartitions)
+	{
+		ObjectAddress object;
+
+		object.objectId = mergingPartitionOid;
+		object.classId = RelationRelationId;
+		object.objectSubId = 0;
+
+		performDeletion(&object, DROP_RESTRICT, 0);
+	}
+
+	list_free(mergingPartitions);
+
+	/*
+	 * Attach a new partition to the partitioned table. wqueue = NULL:
+	 * verification for each cloned constraint is not needed.
+	 */
+	attachPartitionTable(NULL, rel, newPartRel, cmd->bound);
+
+	/* Keep the lock until commit. */
+	table_close(newPartRel, NoLock);
+
+	/* Roll back any GUC changes executed by index functions. */
+	AtEOXact_GUC(false, save_nestlevel);
+
+	/* Restore userid and security context. */
+	SetUserIdAndSecContext(save_userid, save_sec_context);
+}
diff --git a/src/backend/parser/gram.y b/src/backend/parser/gram.y
index 50f53159d5..46bbdcbc74 100644
--- a/src/backend/parser/gram.y
+++ b/src/backend/parser/gram.y
@@ -755,7 +755,7 @@ static Node *makeRecursiveViewSelect(char *relname, List *aliases, Node *query);
 	ORDER ORDINALITY OTHERS OUT_P OUTER_P
 	OVER OVERLAPS OVERLAY OVERRIDING OWNED OWNER
 
-	PARALLEL PARAMETER PARSER PARTIAL PARTITION PASSING PASSWORD PATH
+	PARALLEL PARAMETER PARSER PARTIAL PARTITION PARTITIONS PASSING PASSWORD PATH
 	PERIOD PLACING PLAN PLANS POLICY
 	POSITION PRECEDING PRECISION PRESERVE PREPARE PREPARED PRIMARY
 	PRIOR PRIVILEGES PROCEDURAL PROCEDURE PROCEDURES PROGRAM PUBLICATION
@@ -2331,6 +2331,7 @@ partition_cmd:
 					n->subtype = AT_AttachPartition;
 					cmd->name = $3;
 					cmd->bound = $4;
+					cmd->partlist = NIL;
 					cmd->concurrent = false;
 					n->def = (Node *) cmd;
 
@@ -2345,6 +2346,7 @@ partition_cmd:
 					n->subtype = AT_DetachPartition;
 					cmd->name = $3;
 					cmd->bound = NULL;
+					cmd->partlist = NIL;
 					cmd->concurrent = $4;
 					n->def = (Node *) cmd;
 
@@ -2358,6 +2360,21 @@ partition_cmd:
 					n->subtype = AT_DetachPartitionFinalize;
 					cmd->name = $3;
 					cmd->bound = NULL;
+					cmd->partlist = NIL;
+					cmd->concurrent = false;
+					n->def = (Node *) cmd;
+					$$ = (Node *) n;
+				}
+			/* ALTER TABLE <name> MERGE PARTITIONS () INTO <partition_name> */
+			| MERGE PARTITIONS '(' qualified_name_list ')' INTO qualified_name
+				{
+					AlterTableCmd *n = makeNode(AlterTableCmd);
+					PartitionCmd *cmd = makeNode(PartitionCmd);
+
+					n->subtype = AT_MergePartitions;
+					cmd->name = $7;
+					cmd->bound = NULL;
+					cmd->partlist = $4;
 					cmd->concurrent = false;
 					n->def = (Node *) cmd;
 					$$ = (Node *) n;
@@ -2374,6 +2391,7 @@ index_partition_cmd:
 					n->subtype = AT_AttachPartition;
 					cmd->name = $3;
 					cmd->bound = NULL;
+					cmd->partlist = NIL;
 					cmd->concurrent = false;
 					n->def = (Node *) cmd;
 
@@ -17876,6 +17894,7 @@ unreserved_keyword:
 			| PARSER
 			| PARTIAL
 			| PARTITION
+			| PARTITIONS
 			| PASSING
 			| PASSWORD
 			| PATH
@@ -18503,6 +18522,7 @@ bare_label_keyword:
 			| PARSER
 			| PARTIAL
 			| PARTITION
+			| PARTITIONS
 			| PASSING
 			| PASSWORD
 			| PATH
diff --git a/src/backend/parser/parse_utilcmd.c b/src/backend/parser/parse_utilcmd.c
index 62015431fd..f55ad17528 100644
--- a/src/backend/parser/parse_utilcmd.c
+++ b/src/backend/parser/parse_utilcmd.c
@@ -32,6 +32,7 @@
 #include "catalog/heap.h"
 #include "catalog/index.h"
 #include "catalog/namespace.h"
+#include "catalog/partition.h"
 #include "catalog/pg_am.h"
 #include "catalog/pg_collation.h"
 #include "catalog/pg_constraint.h"
@@ -58,6 +59,8 @@
 #include "parser/parse_type.h"
 #include "parser/parse_utilcmd.h"
 #include "parser/parser.h"
+#include "partitioning/partdesc.h"
+#include "partitioning/partbounds.h"
 #include "rewrite/rewriteManip.h"
 #include "utils/acl.h"
 #include "utils/builtins.h"
@@ -3488,6 +3491,138 @@ transformRuleStmt(RuleStmt *stmt, const char *queryString,
 }
 
 
+/*
+ * checkPartition
+ * Check whether partRelOid is a leaf partition of the parent table (rel).
+ * Partition with OID partRelOid must be locked before function call.
+ */
+static void
+checkPartition(Relation rel, Oid partRelOid)
+{
+	Relation	partRel;
+
+	partRel = table_open(partRelOid, NoLock);
+
+	if (partRel->rd_rel->relkind != RELKIND_RELATION)
+		ereport(ERROR,
+				errcode(ERRCODE_WRONG_OBJECT_TYPE),
+				errmsg("\"%s\" is not a table", RelationGetRelationName(partRel)),
+				errhint("ALTER TABLE ... MERGE PARTITIONS can only merge partitions don't have sub-partitions"));
+
+	if (!partRel->rd_rel->relispartition)
+		ereport(ERROR,
+				errcode(ERRCODE_WRONG_OBJECT_TYPE),
+				errmsg("\"%s\" is not a partition of partitioned table \"%s\"",
+					   RelationGetRelationName(partRel), RelationGetRelationName(rel)),
+				errhint("ALTER TABLE ... MERGE PARTITIONS can only merge partitions don't have sub-partitions"));
+
+	if (get_partition_parent(partRelOid, false) != RelationGetRelid(rel))
+		ereport(ERROR,
+				errcode(ERRCODE_UNDEFINED_TABLE),
+				errmsg("relation \"%s\" is not a partition of relation \"%s\"",
+					   RelationGetRelationName(partRel), RelationGetRelationName(rel)),
+				errhint("ALTER TABLE ... MERGE PARTITIONS can only merge partitions don't have sub-partitions"));
+
+	table_close(partRel, NoLock);
+}
+
+/*
+ * transformPartitionCmdForMerge
+ *		Analyze the ALTER TABLE ... MERGE PARTITIONS command
+ *
+ * Does simple checks for merged partitions. Calculates bound of resulting
+ * partition.
+ */
+static void
+transformPartitionCmdForMerge(CreateStmtContext *cxt, PartitionCmd *partcmd)
+{
+	Oid			defaultPartOid;
+	Oid			partOid;
+	Relation	parent = cxt->rel;
+	PartitionKey key;
+	char		strategy;
+	ListCell   *listptr,
+			   *listptr2;
+	bool		isDefaultPart = false;
+	List	   *partOids = NIL;
+
+	key = RelationGetPartitionKey(parent);
+	strategy = get_partition_strategy(key);
+
+	if (strategy == PARTITION_STRATEGY_HASH)
+		ereport(ERROR,
+				errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
+				errmsg("partition of hash-partitioned table cannot be merged"));
+
+	/* Is current partition a DEFAULT partition? */
+	defaultPartOid = get_default_oid_from_partdesc(RelationGetPartitionDesc(parent, true));
+
+	foreach(listptr, partcmd->partlist)
+	{
+		RangeVar   *name = (RangeVar *) lfirst(listptr);
+
+		/* Partitions in the list should have different names. */
+		for_each_cell(listptr2, partcmd->partlist, lnext(partcmd->partlist, listptr))
+		{
+			RangeVar   *name2 = (RangeVar *) lfirst(listptr2);
+
+			if (equal(name, name2))
+				ereport(ERROR,
+						errcode(ERRCODE_DUPLICATE_TABLE),
+						errmsg("partition with name \"%s\" is already used", name->relname),
+						parser_errposition(cxt->pstate, name2->location));
+		}
+
+		/*
+		 * Search DEFAULT partition in the list. Open and lock partitions before
+		 * calculating the boundary for resulting partition, we also check for
+		 * ownership along the way.  We need to use AccessExclusiveLock here,
+		 * because these merged partitions will be detached then dropped in
+		 * ATExecMergePartitions.
+		 */
+		partOid = RangeVarGetRelidExtended(name,
+										   AccessExclusiveLock,
+										   false,
+										   RangeVarCallbackOwnsRelation,
+										   NULL);
+
+		if (partOid == defaultPartOid)
+			isDefaultPart = true;
+
+		/*
+		 * Extended check because the same partition can have different names
+		 * (for example, "part_name" and "public.part_name").
+		 */
+		foreach(listptr2, partOids)
+		{
+			Oid		curOid = lfirst_oid(listptr2);
+
+			if (curOid == partOid)
+				ereport(ERROR,
+						errcode(ERRCODE_DUPLICATE_TABLE),
+						errmsg("partition with name \"%s\" is already used", name->relname),
+						parser_errposition(cxt->pstate, name->location));
+		}
+
+		checkPartition(parent, partOid);
+
+		partOids = lappend_oid(partOids, partOid);
+	}
+
+	/* Allocate bound of resulting partition. */
+	Assert(partcmd->bound == NULL);
+	partcmd->bound = makeNode(PartitionBoundSpec);
+
+	/* Fill partition bound. */
+	partcmd->bound->strategy = strategy;
+	partcmd->bound->location = -1;
+	partcmd->bound->is_default = isDefaultPart;
+	if (!isDefaultPart)
+		calculate_partition_bound_for_merge(parent, partcmd->partlist,
+											partOids, partcmd->bound,
+											cxt->pstate);
+}
+
 /*
  * transformAlterTableStmt -
  *		parse analysis for ALTER TABLE
@@ -3765,6 +3900,19 @@ transformAlterTableStmt(Oid relid, AlterTableStmt *stmt,
 				newcmds = lappend(newcmds, cmd);
 				break;
 
+			case AT_MergePartitions:
+				{
+					PartitionCmd *partcmd = (PartitionCmd *) cmd->def;
+
+					if (list_length(partcmd->partlist) < 2)
+						ereport(ERROR,
+								errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
+								errmsg("list of new partitions should contain at least two items"));
+					transformPartitionCmdForMerge(&cxt, partcmd);
+					newcmds = lappend(newcmds, cmd);
+					break;
+				}
+
 			default:
 
 				/*
diff --git a/src/backend/partitioning/partbounds.c b/src/backend/partitioning/partbounds.c
index 4bdc2941ef..ea33c15194 100644
--- a/src/backend/partitioning/partbounds.c
+++ b/src/backend/partitioning/partbounds.c
@@ -4977,3 +4977,197 @@ satisfies_hash_partition(PG_FUNCTION_ARGS)
 
 	PG_RETURN_BOOL(rowHash % modulus == remainder);
 }
+
+/*
+ * check_two_partitions_bounds_range
+ *
+ * (function for BY RANGE partitioning)
+ *
+ * This is a helper function for calculate_partition_bound_for_merge().
+ * This function compares upper bound of first_bound and lower bound of
+ * second_bound. These bounds should be equal.
+ *
+ * parent:			partitioned table
+ * first_name:		name of first partition
+ * first_bound:		bound of first partition
+ * second_name:		name of second partition
+ * second_bound:	bound of second partition
+ * pstate:			pointer to ParseState struct for determining error position
+ */
+static void
+check_two_partitions_bounds_range(Relation parent,
+								  RangeVar *first_name,
+								  PartitionBoundSpec *first_bound,
+								  RangeVar *second_name,
+								  PartitionBoundSpec *second_bound,
+								  ParseState *pstate)
+{
+	PartitionKey key = RelationGetPartitionKey(parent);
+	PartitionRangeBound *first_upper;
+	PartitionRangeBound *second_lower;
+	int			cmpval;
+
+	Assert(key->strategy == PARTITION_STRATEGY_RANGE);
+
+	first_upper = make_one_partition_rbound(key, -1, first_bound->upperdatums, false);
+	second_lower = make_one_partition_rbound(key, -1, second_bound->lowerdatums, true);
+
+	/*
+	 * lower1=false (the second to last argument) for correct comparison of
+	 * lower and upper bounds.
+	 */
+	cmpval = partition_rbound_cmp(key->partnatts,
+								  key->partsupfunc,
+								  key->partcollation,
+								  second_lower->datums, second_lower->kind,
+								  false, first_upper);
+	if (cmpval)
+	{
+		PartitionRangeDatum *datum = linitial(second_bound->lowerdatums);
+
+		ereport(ERROR,
+				errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
+				errmsg("lower bound of partition \"%s\" is not equal to the upper bound of partition \"%s\"",
+					   second_name->relname, first_name->relname),
+				errhint("ALTER TABLE ... MERGE PARTITIONS requires the partition bounds to be adjacent."),
+				parser_errposition(pstate, datum->location));
+	}
+}
+
+/*
+ * get_partition_bound_spec
+ *
+ * Returns the PartitionBoundSpec for the partition with the given OID partOid.
+ */
+static PartitionBoundSpec *
+get_partition_bound_spec(Oid partOid)
+{
+	HeapTuple	tuple;
+	Datum		datum;
+	bool		isnull;
+	PartitionBoundSpec *boundspec = NULL;
+
+	/* Try fetching the tuple from the catcache, for speed. */
+	tuple = SearchSysCache1(RELOID, partOid);
+	if (!HeapTupleIsValid(tuple))
+		elog(ERROR, "cache lookup failed for relation %u", partOid);
+
+	datum = SysCacheGetAttr(RELOID, tuple,
+							Anum_pg_class_relpartbound,
+							&isnull);
+	if (isnull)
+		elog(ERROR, "partition bound for relation %u is null",
+			 partOid);
+
+	boundspec = stringToNode(TextDatumGetCString(datum));
+
+	if (!IsA(boundspec, PartitionBoundSpec))
+		elog(ERROR, "expected PartitionBoundSpec for relation %u",
+			 partOid);
+
+	ReleaseSysCache(tuple);
+	return boundspec;
+}
+
+/*
+ * calculate_partition_bound_for_merge
+ *
+ * Calculates the bound of merged partition "spec" by using the bounds of
+ * partitions to be merged.
+ *
+ * parent:			partitioned table
+ * partNames:		names of partitions to be merged
+ * partOids:		Oids of partitions to be merged
+ * spec (out):		bounds specification of the merged partition
+ * pstate:			pointer to ParseState struct for determine error position
+ */
+void
+calculate_partition_bound_for_merge(Relation parent,
+									List *partNames,
+									List *partOids,
+									PartitionBoundSpec *spec,
+									ParseState *pstate)
+{
+	PartitionKey key = RelationGetPartitionKey(parent);
+	PartitionBoundSpec *bound;
+
+	Assert(!spec->is_default);
+
+	switch (key->strategy)
+	{
+		case PARTITION_STRATEGY_RANGE:
+			{
+				int			i;
+				PartitionRangeBound **lower_bounds;
+				int			nparts = list_length(partOids);
+				List	   *bounds = NIL;
+
+				lower_bounds = (PartitionRangeBound **)
+					palloc0(nparts * sizeof(PartitionRangeBound *));
+
+				/*
+				 * Create array of lower bounds and list of
+				 * PartitionBoundSpec.
+				 */
+				foreach_oid(partoid, partOids)
+				{
+					bound = get_partition_bound_spec(partoid);
+					i = foreach_current_index(partoid);
+
+					lower_bounds[i] = make_one_partition_rbound(key, i, bound->lowerdatums, true);
+					bounds = lappend(bounds, bound);
+				}
+
+				/* Sort array of lower bounds. */
+				qsort_arg(lower_bounds, nparts, sizeof(PartitionRangeBound *),
+						  qsort_partition_rbound_cmp, key);
+
+				/* Ranges of partitions should not overlap. */
+				for (i = 1; i < nparts; i++)
+				{
+					int			index = lower_bounds[i]->index;
+					int			prev_index = lower_bounds[i - 1]->index;
+
+					check_two_partitions_bounds_range(parent,
+													  (RangeVar *) list_nth(partNames, prev_index),
+													  (PartitionBoundSpec *) list_nth(bounds, prev_index),
+													  (RangeVar *) list_nth(partNames, index),
+													  (PartitionBoundSpec *) list_nth(bounds, index),
+													  pstate);
+				}
+
+				/*
+				 * Lower bound of first partition is the lower bound of merged
+				 * partition.
+				 */
+				spec->lowerdatums =
+					((PartitionBoundSpec *) list_nth(bounds, lower_bounds[0]->index))->lowerdatums;
+
+				/*
+				 * Upper bound of last partition is the upper bound of merged
+				 * partition.
+				 */
+				spec->upperdatums =
+					((PartitionBoundSpec *) list_nth(bounds, lower_bounds[nparts - 1]->index))->upperdatums;
+
+				pfree(lower_bounds);
+				list_free(bounds);
+				break;
+			}
+
+		case PARTITION_STRATEGY_LIST:
+			{
+				/* Consolidate bounds for all partitions in the list. */
+				foreach_oid(partoid, partOids)
+				{
+					bound = get_partition_bound_spec(partoid);
+					spec->listdatums = list_concat(spec->listdatums, bound->listdatums);
+				}
+				break;
+			}
+
+		default:
+			elog(ERROR, "unexpected partition strategy: %d",
+				 (int) key->strategy);
+	}
+}
diff --git a/src/bin/psql/tab-complete.in.c b/src/bin/psql/tab-complete.in.c
index 908eef97c6..1145b9d7ce 100644
--- a/src/bin/psql/tab-complete.in.c
+++ b/src/bin/psql/tab-complete.in.c
@@ -2721,6 +2721,7 @@ match_previous_words(int pattern_id,
 					  "OWNER TO", "SET", "VALIDATE CONSTRAINT",
 					  "REPLICA IDENTITY", "ATTACH PARTITION",
 					  "DETACH PARTITION", "FORCE ROW LEVEL SECURITY",
+					  "MERGE PARTITIONS (",
 					  "OF", "NOT OF");
 	/* ALTER TABLE xxx ADD */
 	else if (Matches("ALTER", "TABLE", MatchAny, "ADD"))
@@ -2987,6 +2988,15 @@ match_previous_words(int pattern_id,
 	else if (Matches("ALTER", "TABLE", MatchAny, "DETACH", "PARTITION", MatchAny))
 		COMPLETE_WITH("CONCURRENTLY", "FINALIZE");
 
+	/* ALTER TABLE <name> MERGE PARTITIONS ( */
+	else if (Matches("ALTER", "TABLE", MatchAny, "MERGE", "PARTITIONS", "("))
+	{
+		set_completion_reference(prev4_wd);
+		COMPLETE_WITH_SCHEMA_QUERY(Query_for_partition_of_table);
+	}
+	else if (Matches("ALTER", "TABLE", MatchAny, "MERGE", "PARTITIONS", "(*)"))
+		COMPLETE_WITH("INTO");
+
 	/* ALTER TABLE <name> OF */
 	else if (Matches("ALTER", "TABLE", MatchAny, "OF"))
 		COMPLETE_WITH_SCHEMA_QUERY(Query_for_list_of_composite_datatypes);
diff --git a/src/include/catalog/dependency.h b/src/include/catalog/dependency.h
index 0ea7ccf524..f54233499b 100644
--- a/src/include/catalog/dependency.h
+++ b/src/include/catalog/dependency.h
@@ -107,6 +107,8 @@ extern void ReleaseDeletionLock(const ObjectAddress *object);
 extern void performDeletion(const ObjectAddress *object,
 							DropBehavior behavior, int flags);
 
+extern void performDeletionCheck(const ObjectAddress *object,
+								 DropBehavior behavior, int flags);
 extern void performMultipleDeletions(const ObjectAddresses *objects,
 									 DropBehavior behavior, int flags);
 
diff --git a/src/include/nodes/parsenodes.h b/src/include/nodes/parsenodes.h
index ba12678d1c..b8e2a679cd 100644
--- a/src/include/nodes/parsenodes.h
+++ b/src/include/nodes/parsenodes.h
@@ -969,8 +969,10 @@ typedef struct PartitionRangeDatum
 typedef struct PartitionCmd
 {
 	NodeTag		type;
-	RangeVar   *name;			/* name of partition to attach/detach */
+	RangeVar   *name;			/* name of partition to attach/detach/merge */
 	PartitionBoundSpec *bound;	/* FOR VALUES, if attaching */
+	List	   *partlist;		/* list of partitions, for MERGE
+								 * PARTITION command */
 	bool		concurrent;
 } PartitionCmd;
 
@@ -2473,6 +2475,7 @@ typedef enum AlterTableType
 	AT_AttachPartition,			/* ATTACH PARTITION */
 	AT_DetachPartition,			/* DETACH PARTITION */
 	AT_DetachPartitionFinalize, /* DETACH PARTITION FINALIZE */
+	AT_MergePartitions,			/* MERGE PARTITIONS */
 	AT_AddIdentity,				/* ADD IDENTITY */
 	AT_SetIdentity,				/* SET identity column options */
 	AT_DropIdentity,			/* DROP IDENTITY */
diff --git a/src/include/parser/kwlist.h b/src/include/parser/kwlist.h
index a4af3f717a..90e8cddf8b 100644
--- a/src/include/parser/kwlist.h
+++ b/src/include/parser/kwlist.h
@@ -337,6 +337,7 @@ PG_KEYWORD("parameter", PARAMETER, UNRESERVED_KEYWORD, BARE_LABEL)
 PG_KEYWORD("parser", PARSER, UNRESERVED_KEYWORD, BARE_LABEL)
 PG_KEYWORD("partial", PARTIAL, UNRESERVED_KEYWORD, BARE_LABEL)
 PG_KEYWORD("partition", PARTITION, UNRESERVED_KEYWORD, BARE_LABEL)
+PG_KEYWORD("partitions", PARTITIONS, UNRESERVED_KEYWORD, BARE_LABEL)
 PG_KEYWORD("passing", PASSING, UNRESERVED_KEYWORD, BARE_LABEL)
 PG_KEYWORD("password", PASSWORD, UNRESERVED_KEYWORD, BARE_LABEL)
 PG_KEYWORD("path", PATH, UNRESERVED_KEYWORD, BARE_LABEL)
diff --git a/src/include/partitioning/partbounds.h b/src/include/partitioning/partbounds.h
index 65f161f718..690d259619 100644
--- a/src/include/partitioning/partbounds.h
+++ b/src/include/partitioning/partbounds.h
@@ -143,4 +143,10 @@ extern int	partition_range_datum_bsearch(FmgrInfo *partsupfunc,
 extern int	partition_hash_bsearch(PartitionBoundInfo boundinfo,
 								   int modulus, int remainder);
 
+extern void calculate_partition_bound_for_merge(Relation parent,
+												List *partNames,
+												List *partOids,
+												PartitionBoundSpec *spec,
+												ParseState *pstate);
+
 #endif							/* PARTBOUNDS_H */
diff --git a/src/test/isolation/expected/partition-merge.out b/src/test/isolation/expected/partition-merge.out
new file mode 100644
index 0000000000..98446aaab5
--- /dev/null
+++ b/src/test/isolation/expected/partition-merge.out
@@ -0,0 +1,199 @@
+Parsed test spec with 2 sessions
+
+starting permutation: s2b s2i s2c s1b s1merg s2b s2u s1c s2c s2s
+step s2b: BEGIN;
+step s2i: INSERT INTO tpart VALUES (1, 'text01');
+step s2c: COMMIT;
+step s1b: BEGIN;
+step s1merg: ALTER TABLE tpart MERGE PARTITIONS (tpart_00_10, tpart_10_20) INTO tpart_00_20;
+step s2b: BEGIN;
+step s2u: UPDATE tpart SET t = 'text01modif' where i = 1; <waiting ...>
+step s1c: COMMIT;
+step s2u: <... completed>
+step s2c: COMMIT;
+step s2s: SELECT * FROM tpart;
+ i|t          
+--+-----------
+ 5|text05     
+15|text15     
+ 1|text01modif
+25|text25     
+35|text35     
+(5 rows)
+
+
+starting permutation: s2b s2i s2c s1brr s1merg s2b s2u s1c s2c s2s
+step s2b: BEGIN;
+step s2i: INSERT INTO tpart VALUES (1, 'text01');
+step s2c: COMMIT;
+step s1brr: BEGIN ISOLATION LEVEL REPEATABLE READ;
+step s1merg: ALTER TABLE tpart MERGE PARTITIONS (tpart_00_10, tpart_10_20) INTO tpart_00_20;
+step s2b: BEGIN;
+step s2u: UPDATE tpart SET t = 'text01modif' where i = 1; <waiting ...>
+step s1c: COMMIT;
+step s2u: <... completed>
+step s2c: COMMIT;
+step s2s: SELECT * FROM tpart;
+ i|t          
+--+-----------
+ 5|text05     
+15|text15     
+ 1|text01modif
+25|text25     
+35|text35     
+(5 rows)
+
+
+starting permutation: s2b s2i s2c s1bs s1merg s2b s2u s1c s2c s2s
+step s2b: BEGIN;
+step s2i: INSERT INTO tpart VALUES (1, 'text01');
+step s2c: COMMIT;
+step s1bs: BEGIN ISOLATION LEVEL SERIALIZABLE;
+step s1merg: ALTER TABLE tpart MERGE PARTITIONS (tpart_00_10, tpart_10_20) INTO tpart_00_20;
+step s2b: BEGIN;
+step s2u: UPDATE tpart SET t = 'text01modif' where i = 1; <waiting ...>
+step s1c: COMMIT;
+step s2u: <... completed>
+step s2c: COMMIT;
+step s2s: SELECT * FROM tpart;
+ i|t          
+--+-----------
+ 5|text05     
+15|text15     
+ 1|text01modif
+25|text25     
+35|text35     
+(5 rows)
+
+
+starting permutation: s2brr s2i s2c s1b s1merg s2b s2u s1c s2c s2s
+step s2brr: BEGIN ISOLATION LEVEL REPEATABLE READ;
+step s2i: INSERT INTO tpart VALUES (1, 'text01');
+step s2c: COMMIT;
+step s1b: BEGIN;
+step s1merg: ALTER TABLE tpart MERGE PARTITIONS (tpart_00_10, tpart_10_20) INTO tpart_00_20;
+step s2b: BEGIN;
+step s2u: UPDATE tpart SET t = 'text01modif' where i = 1; <waiting ...>
+step s1c: COMMIT;
+step s2u: <... completed>
+step s2c: COMMIT;
+step s2s: SELECT * FROM tpart;
+ i|t          
+--+-----------
+ 5|text05     
+15|text15     
+ 1|text01modif
+25|text25     
+35|text35     
+(5 rows)
+
+
+starting permutation: s2brr s2i s2c s1brr s1merg s2b s2u s1c s2c s2s
+step s2brr: BEGIN ISOLATION LEVEL REPEATABLE READ;
+step s2i: INSERT INTO tpart VALUES (1, 'text01');
+step s2c: COMMIT;
+step s1brr: BEGIN ISOLATION LEVEL REPEATABLE READ;
+step s1merg: ALTER TABLE tpart MERGE PARTITIONS (tpart_00_10, tpart_10_20) INTO tpart_00_20;
+step s2b: BEGIN;
+step s2u: UPDATE tpart SET t = 'text01modif' where i = 1; <waiting ...>
+step s1c: COMMIT;
+step s2u: <... completed>
+step s2c: COMMIT;
+step s2s: SELECT * FROM tpart;
+ i|t          
+--+-----------
+ 5|text05     
+15|text15     
+ 1|text01modif
+25|text25     
+35|text35     
+(5 rows)
+
+
+starting permutation: s2brr s2i s2c s1bs s1merg s2b s2u s1c s2c s2s
+step s2brr: BEGIN ISOLATION LEVEL REPEATABLE READ;
+step s2i: INSERT INTO tpart VALUES (1, 'text01');
+step s2c: COMMIT;
+step s1bs: BEGIN ISOLATION LEVEL SERIALIZABLE;
+step s1merg: ALTER TABLE tpart MERGE PARTITIONS (tpart_00_10, tpart_10_20) INTO tpart_00_20;
+step s2b: BEGIN;
+step s2u: UPDATE tpart SET t = 'text01modif' where i = 1; <waiting ...>
+step s1c: COMMIT;
+step s2u: <... completed>
+step s2c: COMMIT;
+step s2s: SELECT * FROM tpart;
+ i|t          
+--+-----------
+ 5|text05     
+15|text15     
+ 1|text01modif
+25|text25     
+35|text35     
+(5 rows)
+
+
+starting permutation: s2bs s2i s2c s1b s1merg s2b s2u s1c s2c s2s
+step s2bs: BEGIN ISOLATION LEVEL SERIALIZABLE;
+step s2i: INSERT INTO tpart VALUES (1, 'text01');
+step s2c: COMMIT;
+step s1b: BEGIN;
+step s1merg: ALTER TABLE tpart MERGE PARTITIONS (tpart_00_10, tpart_10_20) INTO tpart_00_20;
+step s2b: BEGIN;
+step s2u: UPDATE tpart SET t = 'text01modif' where i = 1; <waiting ...>
+step s1c: COMMIT;
+step s2u: <... completed>
+step s2c: COMMIT;
+step s2s: SELECT * FROM tpart;
+ i|t          
+--+-----------
+ 5|text05     
+15|text15     
+ 1|text01modif
+25|text25     
+35|text35     
+(5 rows)
+
+
+starting permutation: s2bs s2i s2c s1brr s1merg s2b s2u s1c s2c s2s
+step s2bs: BEGIN ISOLATION LEVEL SERIALIZABLE;
+step s2i: INSERT INTO tpart VALUES (1, 'text01');
+step s2c: COMMIT;
+step s1brr: BEGIN ISOLATION LEVEL REPEATABLE READ;
+step s1merg: ALTER TABLE tpart MERGE PARTITIONS (tpart_00_10, tpart_10_20) INTO tpart_00_20;
+step s2b: BEGIN;
+step s2u: UPDATE tpart SET t = 'text01modif' where i = 1; <waiting ...>
+step s1c: COMMIT;
+step s2u: <... completed>
+step s2c: COMMIT;
+step s2s: SELECT * FROM tpart;
+ i|t          
+--+-----------
+ 5|text05     
+15|text15     
+ 1|text01modif
+25|text25     
+35|text35     
+(5 rows)
+
+
+starting permutation: s2bs s2i s2c s1bs s1merg s2b s2u s1c s2c s2s
+step s2bs: BEGIN ISOLATION LEVEL SERIALIZABLE;
+step s2i: INSERT INTO tpart VALUES (1, 'text01');
+step s2c: COMMIT;
+step s1bs: BEGIN ISOLATION LEVEL SERIALIZABLE;
+step s1merg: ALTER TABLE tpart MERGE PARTITIONS (tpart_00_10, tpart_10_20) INTO tpart_00_20;
+step s2b: BEGIN;
+step s2u: UPDATE tpart SET t = 'text01modif' where i = 1; <waiting ...>
+step s1c: COMMIT;
+step s2u: <... completed>
+step s2c: COMMIT;
+step s2s: SELECT * FROM tpart;
+ i|t          
+--+-----------
+ 5|text05     
+15|text15     
+ 1|text01modif
+25|text25     
+35|text35     
+(5 rows)
+
diff --git a/src/test/isolation/isolation_schedule b/src/test/isolation/isolation_schedule
index e3c669a29c..0dca684955 100644
--- a/src/test/isolation/isolation_schedule
+++ b/src/test/isolation/isolation_schedule
@@ -107,6 +107,7 @@ test: partition-key-update-1
 test: partition-key-update-2
 test: partition-key-update-3
 test: partition-key-update-4
+test: partition-merge
 test: plpgsql-toast
 test: cluster-conflict
 test: cluster-conflict-partition
diff --git a/src/test/isolation/specs/partition-merge.spec b/src/test/isolation/specs/partition-merge.spec
new file mode 100644
index 0000000000..dc2b9d3445
--- /dev/null
+++ b/src/test/isolation/specs/partition-merge.spec
@@ -0,0 +1,54 @@
+# Verify that MERGE operation locks DML operations with partitioned table
+
+setup
+{
+  DROP TABLE IF EXISTS tpart;
+  CREATE TABLE tpart(i int, t text) partition by range(i);
+  CREATE TABLE tpart_00_10 PARTITION OF tpart FOR VALUES FROM (0) TO (10);
+  CREATE TABLE tpart_10_20 PARTITION OF tpart FOR VALUES FROM (10) TO (20);
+  CREATE TABLE tpart_20_30 PARTITION OF tpart FOR VALUES FROM (20) TO (30);
+  CREATE TABLE tpart_default PARTITION OF tpart DEFAULT;
+  INSERT INTO tpart VALUES (5, 'text05');
+  INSERT INTO tpart VALUES (15, 'text15');
+  INSERT INTO tpart VALUES (25, 'text25');
+  INSERT INTO tpart VALUES (35, 'text35');
+}
+
+teardown
+{
+  DROP TABLE tpart;
+}
+
+session s1
+step s1b	{ BEGIN; }
+step s1brr	{ BEGIN ISOLATION LEVEL REPEATABLE READ; }
+step s1bs	{ BEGIN ISOLATION LEVEL SERIALIZABLE; }
+step s1merg	{ ALTER TABLE tpart MERGE PARTITIONS (tpart_00_10, tpart_10_20) INTO tpart_00_20; }
+step s1c	{ COMMIT; }
+
+
+session s2
+step s2b	{ BEGIN; }
+step s2brr	{ BEGIN ISOLATION LEVEL REPEATABLE READ; }
+step s2bs	{ BEGIN ISOLATION LEVEL SERIALIZABLE; }
+step s2i	{ INSERT INTO tpart VALUES (1, 'text01'); }
+step s2u	{ UPDATE tpart SET t = 'text01modif' where i = 1; }
+step s2c	{ COMMIT; }
+step s2s	{ SELECT * FROM tpart; }
+
+
+# s2 inserts row into table. s1 starts MERGE PARTITIONS then
+# s2 is trying to update inserted row and waits until s1 finishes
+# MERGE operation.
+
+permutation s2b s2i s2c s1b s1merg s2b s2u s1c s2c s2s
+permutation s2b s2i s2c s1brr s1merg s2b s2u s1c s2c s2s
+permutation s2b s2i s2c s1bs s1merg s2b s2u s1c s2c s2s
+
+permutation s2brr s2i s2c s1b s1merg s2b s2u s1c s2c s2s
+permutation s2brr s2i s2c s1brr s1merg s2b s2u s1c s2c s2s
+permutation s2brr s2i s2c s1bs s1merg s2b s2u s1c s2c s2s
+
+permutation s2bs s2i s2c s1b s1merg s2b s2u s1c s2c s2s
+permutation s2bs s2i s2c s1brr s1merg s2b s2u s1c s2c s2s
+permutation s2bs s2i s2c s1bs s1merg s2b s2u s1c s2c s2s
diff --git a/src/test/modules/test_ddl_deparse/test_ddl_deparse.c b/src/test/modules/test_ddl_deparse/test_ddl_deparse.c
index 193669f2bc..7de5ddb878 100644
--- a/src/test/modules/test_ddl_deparse/test_ddl_deparse.c
+++ b/src/test/modules/test_ddl_deparse/test_ddl_deparse.c
@@ -296,6 +296,9 @@ get_altertable_subcmdinfo(PG_FUNCTION_ARGS)
 			case AT_DetachPartitionFinalize:
 				strtype = "DETACH PARTITION ... FINALIZE";
 				break;
+			case AT_MergePartitions:
+				strtype = "MERGE PARTITIONS";
+				break;
 			case AT_AddIdentity:
 				strtype = "ADD IDENTITY";
 				break;
diff --git a/src/test/regress/expected/partition_merge.out b/src/test/regress/expected/partition_merge.out
new file mode 100644
index 0000000000..531f2021aa
--- /dev/null
+++ b/src/test/regress/expected/partition_merge.out
@@ -0,0 +1,1105 @@
+--
+-- PARTITIONS_MERGE
+-- Tests for "ALTER TABLE ... MERGE PARTITIONS ..." command
+--
+CREATE SCHEMA partitions_merge_schema;
+CREATE SCHEMA partitions_merge_schema2;
+SET search_path = partitions_merge_schema, public;
+--
+-- BY RANGE partitioning
+--
+--
+-- Test for error codes
+--
+CREATE TABLE sales_range (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date DATE) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_dec2021 PARTITION OF sales_range FOR VALUES FROM ('2021-12-01') TO ('2021-12-31');
+CREATE TABLE sales_jan2022 PARTITION OF sales_range FOR VALUES FROM ('2022-01-01') TO ('2022-02-01');
+CREATE TABLE sales_feb2022 PARTITION OF sales_range FOR VALUES FROM ('2022-02-01') TO ('2022-03-01');
+CREATE TABLE sales_mar2022 PARTITION OF sales_range FOR VALUES FROM ('2022-03-01') TO ('2022-04-01');
+CREATE TABLE sales_apr2022 (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date DATE) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_apr_1 PARTITION OF sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-04-15');
+CREATE TABLE sales_apr_2 PARTITION OF sales_apr2022 FOR VALUES FROM ('2022-04-15') TO ('2022-05-01');
+ALTER TABLE sales_range ATTACH PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01');
+CREATE TABLE sales_others PARTITION OF sales_range DEFAULT;
+-- ERROR:  partition with name "sales_feb2022" is already used
+ALTER TABLE sales_range MERGE PARTITIONS (sales_feb2022, sales_mar2022, sales_feb2022) INTO sales_feb_mar_apr2022;
+ERROR:  partition with name "sales_feb2022" is already used
+LINE 1: ...e MERGE PARTITIONS (sales_feb2022, sales_mar2022, sales_feb2...
+                                                             ^
+-- ERROR:  "sales_apr2022" is not a table
+ALTER TABLE sales_range MERGE PARTITIONS (sales_feb2022, sales_mar2022, sales_apr2022) INTO sales_feb_mar_apr2022;
+ERROR:  "sales_apr2022" is not a table
+HINT:  ALTER TABLE ... MERGE PARTITIONS can only merge partitions don't have sub-partitions
+-- ERROR:  lower bound of partition "sales_mar2022" is not equal to the upper bound of partition "sales_jan2022"
+-- (space between sections sales_jan2022 and sales_mar2022)
+ALTER TABLE sales_range MERGE PARTITIONS (sales_jan2022, sales_mar2022) INTO sales_jan_mar2022;
+ERROR:  lower bound of partition "sales_mar2022" is not equal to the upper bound of partition "sales_jan2022"
+HINT:  ALTER TABLE ... MERGE PARTITIONS requires the partition bounds to be adjacent.
+-- ERROR:  lower bound of partition "sales_jan2022" is not equal to the upper bound of partition "sales_dec2021"
+-- (space between sections sales_dec2021 and sales_jan2022)
+ALTER TABLE sales_range MERGE PARTITIONS (sales_dec2021, sales_jan2022, sales_feb2022) INTO sales_dec_jan_feb2022;
+ERROR:  lower bound of partition "sales_jan2022" is not equal to the upper bound of partition "sales_dec2021"
+HINT:  ALTER TABLE ... MERGE PARTITIONS requires the partition bounds to be adjacent.
+-- ERROR:  partition with name "sales_feb2022" is already used
+ALTER TABLE sales_range MERGE PARTITIONS (sales_feb2022, sales_mar2022, partitions_merge_schema.sales_feb2022) INTO sales_feb_mar_apr2022;
+ERROR:  partition with name "sales_feb2022" is already used
+LINE 1: ...e MERGE PARTITIONS (sales_feb2022, sales_mar2022, partitions...
+                                                             ^
+--ERROR, sales_apr_2 already exists
+ALTER TABLE sales_range MERGE PARTITIONS (sales_feb2022, sales_mar2022, sales_jan2022) INTO sales_apr_2;
+ERROR:  relation "sales_apr_2" already exists
+CREATE VIEW jan2022v as SELECT * FROM sales_jan2022;
+ALTER TABLE sales_range MERGE PARTITIONS (sales_jan2022, sales_feb2022) INTO sales_dec_jan_feb2022;
+ERROR:  cannot drop table sales_jan2022 because other objects depend on it
+DETAIL:  view jan2022v depends on table sales_jan2022
+HINT:  Use DROP ... CASCADE to drop the dependent objects too.
+DROP VIEW jan2022v;
+-- NO ERROR: test for custom partitions order, source partitions not in the search_path
+SET search_path = partitions_merge_schema2, public;
+ALTER TABLE partitions_merge_schema.sales_range MERGE PARTITIONS (
+  partitions_merge_schema.sales_feb2022,
+  partitions_merge_schema.sales_mar2022,
+  partitions_merge_schema.sales_jan2022) INTO sales_jan_feb_mar2022;
+SET search_path = partitions_merge_schema, public;
+PREPARE get_partition_info(regclass[]) AS
+SELECT  c.oid::pg_catalog.regclass,
+        c.relpersistence,
+        c.relkind,
+        i.inhdetachpending,
+        pg_catalog.pg_get_expr(c.relpartbound, c.oid)
+FROM    pg_catalog.pg_class c, pg_catalog.pg_inherits i
+WHERE   c.oid = i.inhrelid AND i.inhparent = ANY($1)
+ORDER BY pg_catalog.pg_get_expr(c.relpartbound, c.oid) = 'DEFAULT',
+         c.oid::regclass::text COLLATE "C";
+EXECUTE get_partition_info('{sales_range}');
+                      oid                       | relpersistence | relkind | inhdetachpending |                   pg_get_expr                    
+------------------------------------------------+----------------+---------+------------------+--------------------------------------------------
+ partitions_merge_schema2.sales_jan_feb_mar2022 | p              | r       | f                | FOR VALUES FROM ('01-01-2022') TO ('04-01-2022')
+ sales_apr2022                                  | p              | p       | f                | FOR VALUES FROM ('04-01-2022') TO ('05-01-2022')
+ sales_dec2021                                  | p              | r       | f                | FOR VALUES FROM ('12-01-2021') TO ('12-31-2021')
+ sales_others                                   | p              | r       | f                | DEFAULT
+(4 rows)
+
+DROP TABLE sales_range;
+--
+-- Add rows into partitioned table, then merge partitions
+--
+CREATE TABLE sales_range (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date DATE) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_jan2022 PARTITION OF sales_range FOR VALUES FROM ('2022-01-01') TO ('2022-02-01');
+CREATE TABLE sales_feb2022 PARTITION OF sales_range FOR VALUES FROM ('2022-02-01') TO ('2022-03-01');
+CREATE TABLE sales_mar2022 PARTITION OF sales_range FOR VALUES FROM ('2022-03-01') TO ('2022-04-01');
+CREATE TABLE sales_apr2022 PARTITION OF sales_range FOR VALUES FROM ('2022-04-01') TO ('2022-05-01');
+CREATE TABLE sales_others PARTITION OF sales_range DEFAULT;
+CREATE INDEX sales_range_sales_date_idx ON sales_range USING btree (sales_date);
+INSERT INTO sales_range VALUES
+  (1,  'May',      1000, '2022-01-31'),
+  (2,  'Smirnoff', 500,  '2022-02-10'),
+  (3,  'Ford',     2000, '2022-04-30'),
+  (4,  'Ivanov',   750,  '2022-04-13'),
+  (5,  'Deev',     250,  '2022-04-07'),
+  (6,  'Poirot',   150,  '2022-02-11'),
+  (7,  'Li',       175,  '2022-03-08'),
+  (8,  'Ericsson', 185,  '2022-02-23'),
+  (9,  'Muller',   250,  '2022-03-11'),
+  (10, 'Halder',   350,  '2022-01-28'),
+  (11, 'Trump',    380,  '2022-04-06'),
+  (12, 'Plato',    350,  '2022-03-19'),
+  (13, 'Gandi',    377,  '2022-01-09'),
+  (14, 'Smith',    510,  '2022-05-04');
+SELECT pg_catalog.pg_get_partkeydef('sales_range'::regclass);
+ pg_get_partkeydef  
+--------------------
+ RANGE (sales_date)
+(1 row)
+
+-- show partitions with conditions:
+EXECUTE get_partition_info('{sales_range}');
+      oid      | relpersistence | relkind | inhdetachpending |                   pg_get_expr                    
+---------------+----------------+---------+------------------+--------------------------------------------------
+ sales_apr2022 | p              | r       | f                | FOR VALUES FROM ('04-01-2022') TO ('05-01-2022')
+ sales_feb2022 | p              | r       | f                | FOR VALUES FROM ('02-01-2022') TO ('03-01-2022')
+ sales_jan2022 | p              | r       | f                | FOR VALUES FROM ('01-01-2022') TO ('02-01-2022')
+ sales_mar2022 | p              | r       | f                | FOR VALUES FROM ('03-01-2022') TO ('04-01-2022')
+ sales_others  | p              | r       | f                | DEFAULT
+(5 rows)
+
+-- check schema-qualified name of the new partition
+ALTER TABLE sales_range MERGE PARTITIONS (sales_feb2022, sales_mar2022, sales_apr2022) INTO partitions_merge_schema2.sales_feb_mar_apr2022;
+-- show partitions with conditions:
+EXECUTE get_partition_info('{sales_range}');
+                      oid                       | relpersistence | relkind | inhdetachpending |                   pg_get_expr                    
+------------------------------------------------+----------------+---------+------------------+--------------------------------------------------
+ partitions_merge_schema2.sales_feb_mar_apr2022 | p              | r       | f                | FOR VALUES FROM ('02-01-2022') TO ('05-01-2022')
+ sales_jan2022                                  | p              | r       | f                | FOR VALUES FROM ('01-01-2022') TO ('02-01-2022')
+ sales_others                                   | p              | r       | f                | DEFAULT
+(3 rows)
+
+SELECT * FROM pg_indexes WHERE tablename = 'sales_feb_mar_apr2022' and schemaname = 'partitions_merge_schema2';
+        schemaname        |       tablename       |              indexname               | tablespace |                                                           indexdef                                                           
+--------------------------+-----------------------+--------------------------------------+------------+------------------------------------------------------------------------------------------------------------------------------
+ partitions_merge_schema2 | sales_feb_mar_apr2022 | sales_feb_mar_apr2022_sales_date_idx |            | CREATE INDEX sales_feb_mar_apr2022_sales_date_idx ON partitions_merge_schema2.sales_feb_mar_apr2022 USING btree (sales_date)
+(1 row)
+
+SELECT tableoid::regclass, * FROM sales_range ORDER BY tableoid, salesperson_id;
+                    tableoid                    | salesperson_id | salesperson_name | sales_amount | sales_date 
+------------------------------------------------+----------------+------------------+--------------+------------
+ sales_jan2022                                  |              1 | May              |         1000 | 01-31-2022
+ sales_jan2022                                  |             10 | Halder           |          350 | 01-28-2022
+ sales_jan2022                                  |             13 | Gandi            |          377 | 01-09-2022
+ sales_others                                   |             14 | Smith            |          510 | 05-04-2022
+ partitions_merge_schema2.sales_feb_mar_apr2022 |              2 | Smirnoff         |          500 | 02-10-2022
+ partitions_merge_schema2.sales_feb_mar_apr2022 |              3 | Ford             |         2000 | 04-30-2022
+ partitions_merge_schema2.sales_feb_mar_apr2022 |              4 | Ivanov           |          750 | 04-13-2022
+ partitions_merge_schema2.sales_feb_mar_apr2022 |              5 | Deev             |          250 | 04-07-2022
+ partitions_merge_schema2.sales_feb_mar_apr2022 |              6 | Poirot           |          150 | 02-11-2022
+ partitions_merge_schema2.sales_feb_mar_apr2022 |              7 | Li               |          175 | 03-08-2022
+ partitions_merge_schema2.sales_feb_mar_apr2022 |              8 | Ericsson         |          185 | 02-23-2022
+ partitions_merge_schema2.sales_feb_mar_apr2022 |              9 | Muller           |          250 | 03-11-2022
+ partitions_merge_schema2.sales_feb_mar_apr2022 |             11 | Trump            |          380 | 04-06-2022
+ partitions_merge_schema2.sales_feb_mar_apr2022 |             12 | Plato            |          350 | 03-19-2022
+(14 rows)
+
+-- Use indexscan for testing indexes
+SET enable_seqscan = OFF;
+SELECT * FROM partitions_merge_schema2.sales_feb_mar_apr2022 where sales_date > '2022-01-01';
+ salesperson_id | salesperson_name | sales_amount | sales_date 
+----------------+------------------+--------------+------------
+              2 | Smirnoff         |          500 | 02-10-2022
+              6 | Poirot           |          150 | 02-11-2022
+              8 | Ericsson         |          185 | 02-23-2022
+              7 | Li               |          175 | 03-08-2022
+              9 | Muller           |          250 | 03-11-2022
+             12 | Plato            |          350 | 03-19-2022
+             11 | Trump            |          380 | 04-06-2022
+              5 | Deev             |          250 | 04-07-2022
+              4 | Ivanov           |          750 | 04-13-2022
+              3 | Ford             |         2000 | 04-30-2022
+(10 rows)
+
+RESET enable_seqscan;
+DROP TABLE sales_range;
+--
+-- Merge some partitions into DEFAULT partition
+--
+CREATE TABLE sales_range (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date DATE) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_jan2022 PARTITION OF sales_range FOR VALUES FROM ('2022-01-01') TO ('2022-02-01');
+CREATE TABLE sales_feb2022 PARTITION OF sales_range FOR VALUES FROM ('2022-02-01') TO ('2022-03-01');
+CREATE TABLE sales_mar2022 PARTITION OF sales_range FOR VALUES FROM ('2022-03-01') TO ('2022-04-01');
+CREATE TABLE sales_apr2022 PARTITION OF sales_range FOR VALUES FROM ('2022-04-01') TO ('2022-05-01');
+CREATE TABLE sales_others PARTITION OF sales_range DEFAULT;
+CREATE INDEX sales_range_sales_date_idx ON sales_range USING btree (sales_date);
+INSERT INTO sales_range VALUES
+  (1,  'May',      1000, '2022-01-31'),
+  (2,  'Smirnoff', 500,  '2022-02-10'),
+  (3,  'Ford',     2000, '2022-04-30'),
+  (4,  'Ivanov',   750,  '2022-04-13'),
+  (5,  'Deev',     250,  '2022-04-07'),
+  (6,  'Poirot',   150,  '2022-02-11'),
+  (7,  'Li',       175,  '2022-03-08'),
+  (8,  'Ericsson', 185,  '2022-02-23'),
+  (9,  'Muller',   250,  '2022-03-11'),
+  (10, 'Halder',   350,  '2022-01-28'),
+  (11, 'Trump',    380,  '2022-04-06'),
+  (12, 'Plato',    350,  '2022-03-19'),
+  (13, 'Gandi',    377,  '2022-01-09'),
+  (14, 'Smith',    510,  '2022-05-04');
+-- Merge partitions (include DEFAULT partition) into partition with the same
+-- name
+ALTER TABLE sales_range MERGE PARTITIONS
+  (sales_jan2022, sales_mar2022, partitions_merge_schema.sales_others) INTO sales_others;
+SELECT * FROM sales_others ORDER BY salesperson_id;
+ salesperson_id | salesperson_name | sales_amount | sales_date 
+----------------+------------------+--------------+------------
+              1 | May              |         1000 | 01-31-2022
+              7 | Li               |          175 | 03-08-2022
+              9 | Muller           |          250 | 03-11-2022
+             10 | Halder           |          350 | 01-28-2022
+             12 | Plato            |          350 | 03-19-2022
+             13 | Gandi            |          377 | 01-09-2022
+             14 | Smith            |          510 | 05-04-2022
+(7 rows)
+
+-- show partitions with conditions:
+EXECUTE get_partition_info('{sales_range}');
+      oid      | relpersistence | relkind | inhdetachpending |                   pg_get_expr                    
+---------------+----------------+---------+------------------+--------------------------------------------------
+ sales_apr2022 | p              | r       | f                | FOR VALUES FROM ('04-01-2022') TO ('05-01-2022')
+ sales_feb2022 | p              | r       | f                | FOR VALUES FROM ('02-01-2022') TO ('03-01-2022')
+ sales_others  | p              | r       | f                | DEFAULT
+(3 rows)
+
+DROP TABLE sales_range;
+--
+-- Test for:
+--   * composite partition key;
+--   * GENERATED column;
+--   * column with DEFAULT value.
+--
+CREATE TABLE sales_date (salesperson_name VARCHAR(30), sales_year INT, sales_month INT, sales_day INT,
+  sales_date VARCHAR(10) GENERATED ALWAYS AS
+    (LPAD(sales_year::text, 4, '0') || '.' || LPAD(sales_month::text, 2, '0') || '.' || LPAD(sales_day::text, 2, '0')) STORED,
+  sales_department VARCHAR(30) DEFAULT 'Sales department')
+  PARTITION BY RANGE (sales_year, sales_month, sales_day);
+CREATE TABLE sales_dec2022 PARTITION OF sales_date FOR VALUES FROM (2021, 12, 1) TO (2022, 1, 1);
+CREATE TABLE sales_jan2022 PARTITION OF sales_date FOR VALUES FROM (2022, 1, 1) TO (2022, 2, 1);
+CREATE TABLE sales_feb2022 PARTITION OF sales_date FOR VALUES FROM (2022, 2, 1) TO (2022, 3, 1);
+CREATE TABLE sales_other PARTITION OF sales_date FOR VALUES FROM (2022, 3, 1) TO (MAXVALUE, MAXVALUE, MAXVALUE);
+INSERT INTO sales_date(salesperson_name, sales_year, sales_month, sales_day) VALUES
+  ('Manager1', 2021, 12, 7),
+  ('Manager2', 2021, 12, 8),
+  ('Manager3', 2022, 1, 1),
+  ('Manager1', 2022, 2, 4),
+  ('Manager2', 2022, 1, 2),
+  ('Manager3', 2022, 2, 1),
+  ('Manager1', 2022, 3, 3),
+  ('Manager2', 2022, 3, 4),
+  ('Manager3', 2022, 5, 1);
+SELECT * FROM sales_date;
+ salesperson_name | sales_year | sales_month | sales_day | sales_date | sales_department 
+------------------+------------+-------------+-----------+------------+------------------
+ Manager1         |       2021 |          12 |         7 | 2021.12.07 | Sales department
+ Manager2         |       2021 |          12 |         8 | 2021.12.08 | Sales department
+ Manager3         |       2022 |           1 |         1 | 2022.01.01 | Sales department
+ Manager2         |       2022 |           1 |         2 | 2022.01.02 | Sales department
+ Manager1         |       2022 |           2 |         4 | 2022.02.04 | Sales department
+ Manager3         |       2022 |           2 |         1 | 2022.02.01 | Sales department
+ Manager1         |       2022 |           3 |         3 | 2022.03.03 | Sales department
+ Manager2         |       2022 |           3 |         4 | 2022.03.04 | Sales department
+ Manager3         |       2022 |           5 |         1 | 2022.05.01 | Sales department
+(9 rows)
+
+SELECT * FROM sales_dec2022;
+ salesperson_name | sales_year | sales_month | sales_day | sales_date | sales_department 
+------------------+------------+-------------+-----------+------------+------------------
+ Manager1         |       2021 |          12 |         7 | 2021.12.07 | Sales department
+ Manager2         |       2021 |          12 |         8 | 2021.12.08 | Sales department
+(2 rows)
+
+SELECT * FROM sales_jan2022;
+ salesperson_name | sales_year | sales_month | sales_day | sales_date | sales_department 
+------------------+------------+-------------+-----------+------------+------------------
+ Manager3         |       2022 |           1 |         1 | 2022.01.01 | Sales department
+ Manager2         |       2022 |           1 |         2 | 2022.01.02 | Sales department
+(2 rows)
+
+SELECT * FROM sales_feb2022;
+ salesperson_name | sales_year | sales_month | sales_day | sales_date | sales_department 
+------------------+------------+-------------+-----------+------------+------------------
+ Manager1         |       2022 |           2 |         4 | 2022.02.04 | Sales department
+ Manager3         |       2022 |           2 |         1 | 2022.02.01 | Sales department
+(2 rows)
+
+SELECT * FROM sales_other;
+ salesperson_name | sales_year | sales_month | sales_day | sales_date | sales_department 
+------------------+------------+-------------+-----------+------------+------------------
+ Manager1         |       2022 |           3 |         3 | 2022.03.03 | Sales department
+ Manager2         |       2022 |           3 |         4 | 2022.03.04 | Sales department
+ Manager3         |       2022 |           5 |         1 | 2022.05.01 | Sales department
+(3 rows)
+
+ALTER TABLE sales_date MERGE PARTITIONS (sales_jan2022, sales_feb2022) INTO sales_jan_feb2022;
+INSERT INTO sales_date(salesperson_name, sales_year, sales_month, sales_day) VALUES
+  ('Manager1', 2022, 1, 10),
+  ('Manager2', 2022, 2, 10);
+SELECT * FROM sales_date;
+ salesperson_name | sales_year | sales_month | sales_day | sales_date | sales_department 
+------------------+------------+-------------+-----------+------------+------------------
+ Manager1         |       2021 |          12 |         7 | 2021.12.07 | Sales department
+ Manager2         |       2021 |          12 |         8 | 2021.12.08 | Sales department
+ Manager3         |       2022 |           1 |         1 | 2022.01.01 | Sales department
+ Manager2         |       2022 |           1 |         2 | 2022.01.02 | Sales department
+ Manager1         |       2022 |           2 |         4 | 2022.02.04 | Sales department
+ Manager3         |       2022 |           2 |         1 | 2022.02.01 | Sales department
+ Manager1         |       2022 |           1 |        10 | 2022.01.10 | Sales department
+ Manager2         |       2022 |           2 |        10 | 2022.02.10 | Sales department
+ Manager1         |       2022 |           3 |         3 | 2022.03.03 | Sales department
+ Manager2         |       2022 |           3 |         4 | 2022.03.04 | Sales department
+ Manager3         |       2022 |           5 |         1 | 2022.05.01 | Sales department
+(11 rows)
+
+SELECT * FROM sales_dec2022;
+ salesperson_name | sales_year | sales_month | sales_day | sales_date | sales_department 
+------------------+------------+-------------+-----------+------------+------------------
+ Manager1         |       2021 |          12 |         7 | 2021.12.07 | Sales department
+ Manager2         |       2021 |          12 |         8 | 2021.12.08 | Sales department
+(2 rows)
+
+SELECT * FROM sales_jan_feb2022;
+ salesperson_name | sales_year | sales_month | sales_day | sales_date | sales_department 
+------------------+------------+-------------+-----------+------------+------------------
+ Manager3         |       2022 |           1 |         1 | 2022.01.01 | Sales department
+ Manager2         |       2022 |           1 |         2 | 2022.01.02 | Sales department
+ Manager1         |       2022 |           2 |         4 | 2022.02.04 | Sales department
+ Manager3         |       2022 |           2 |         1 | 2022.02.01 | Sales department
+ Manager1         |       2022 |           1 |        10 | 2022.01.10 | Sales department
+ Manager2         |       2022 |           2 |        10 | 2022.02.10 | Sales department
+(6 rows)
+
+SELECT * FROM sales_other;
+ salesperson_name | sales_year | sales_month | sales_day | sales_date | sales_department 
+------------------+------------+-------------+-----------+------------+------------------
+ Manager1         |       2022 |           3 |         3 | 2022.03.03 | Sales department
+ Manager2         |       2022 |           3 |         4 | 2022.03.04 | Sales department
+ Manager3         |       2022 |           5 |         1 | 2022.05.01 | Sales department
+(3 rows)
+
+DROP TABLE sales_date;
+--
+-- Test: merge partitions of partitioned table with triggers
+--
+CREATE TABLE salespeople(salesperson_id INT PRIMARY KEY, salesperson_name VARCHAR(30)) PARTITION BY RANGE (salesperson_id);
+CREATE TABLE salespeople01_10 PARTITION OF salespeople FOR VALUES FROM (1) TO (10);
+CREATE TABLE salespeople10_20 PARTITION OF salespeople FOR VALUES FROM (10) TO (20);
+CREATE TABLE salespeople20_30 PARTITION OF salespeople FOR VALUES FROM (20) TO (30);
+CREATE TABLE salespeople30_40 PARTITION OF salespeople FOR VALUES FROM (30) TO (40);
+INSERT INTO salespeople VALUES (1,  'Poirot');
+CREATE OR REPLACE FUNCTION after_insert_row_trigger() RETURNS trigger LANGUAGE 'plpgsql' AS $BODY$
+BEGIN
+    RAISE NOTICE 'trigger(%) called: action = %, when = %, level = %', TG_ARGV[0], TG_OP, TG_WHEN, TG_LEVEL;
+    RETURN NULL;
+END;
+$BODY$;
+CREATE TRIGGER salespeople_after_insert_statement_trigger
+    AFTER INSERT
+    ON salespeople
+    FOR EACH STATEMENT
+    EXECUTE PROCEDURE after_insert_row_trigger('salespeople');
+CREATE TRIGGER salespeople_after_insert_row_trigger
+    AFTER INSERT
+    ON salespeople
+    FOR EACH ROW
+    EXECUTE PROCEDURE after_insert_row_trigger('salespeople');
+-- 2 triggers should fire here (row + statement):
+INSERT INTO salespeople VALUES (10, 'May');
+NOTICE:  trigger(salespeople) called: action = INSERT, when = AFTER, level = ROW
+NOTICE:  trigger(salespeople) called: action = INSERT, when = AFTER, level = STATEMENT
+-- 1 trigger should fire here (row):
+INSERT INTO salespeople10_20 VALUES (19, 'Ivanov');
+NOTICE:  trigger(salespeople) called: action = INSERT, when = AFTER, level = ROW
+ALTER TABLE salespeople MERGE PARTITIONS (salespeople10_20, salespeople20_30, salespeople30_40) INTO salespeople10_40;
+-- 2 triggers should fire here (row + statement):
+INSERT INTO salespeople VALUES (20, 'Smirnoff');
+NOTICE:  trigger(salespeople) called: action = INSERT, when = AFTER, level = ROW
+NOTICE:  trigger(salespeople) called: action = INSERT, when = AFTER, level = STATEMENT
+-- 1 trigger should fire here (row):
+INSERT INTO salespeople10_40 VALUES (30, 'Ford');
+NOTICE:  trigger(salespeople) called: action = INSERT, when = AFTER, level = ROW
+SELECT * FROM salespeople01_10;
+ salesperson_id | salesperson_name 
+----------------+------------------
+              1 | Poirot
+(1 row)
+
+SELECT * FROM salespeople10_40;
+ salesperson_id | salesperson_name 
+----------------+------------------
+             10 | May
+             19 | Ivanov
+             20 | Smirnoff
+             30 | Ford
+(4 rows)
+
+DROP TABLE salespeople;
+DROP FUNCTION after_insert_row_trigger();
+--
+-- Test: merge partitions with deleted columns
+--
+CREATE TABLE salespeople(salesperson_id INT PRIMARY KEY, salesperson_name VARCHAR(30)) PARTITION BY RANGE (salesperson_id);
+CREATE TABLE salespeople01_10 PARTITION OF salespeople FOR VALUES FROM (1) TO (10);
+-- Create partitions with some deleted columns:
+CREATE TABLE salespeople10_20(d1 VARCHAR(30), salesperson_id INT PRIMARY KEY, salesperson_name VARCHAR(30));
+CREATE TABLE salespeople20_30(salesperson_id INT PRIMARY KEY, d2 INT,  salesperson_name VARCHAR(30));
+CREATE TABLE salespeople30_40(salesperson_id INT PRIMARY KEY, d3 DATE, salesperson_name VARCHAR(30));
+INSERT INTO salespeople10_20 VALUES ('dummy value 1', 19, 'Ivanov');
+INSERT INTO salespeople20_30 VALUES (20, 101, 'Smirnoff');
+INSERT INTO salespeople30_40 VALUES (31, now(), 'Popov');
+ALTER TABLE salespeople10_20 DROP COLUMN d1;
+ALTER TABLE salespeople20_30 DROP COLUMN d2;
+ALTER TABLE salespeople30_40 DROP COLUMN d3;
+ALTER TABLE salespeople ATTACH PARTITION salespeople10_20 FOR VALUES FROM (10) TO (20);
+ALTER TABLE salespeople ATTACH PARTITION salespeople20_30 FOR VALUES FROM (20) TO (30);
+ALTER TABLE salespeople ATTACH PARTITION salespeople30_40 FOR VALUES FROM (30) TO (40);
+INSERT INTO salespeople VALUES
+  (1, 'Poirot'),
+  (10, 'May'),
+  (30, 'Ford');
+ALTER TABLE salespeople MERGE PARTITIONS (salespeople10_20, salespeople20_30, salespeople30_40) INTO salespeople10_40;
+select * from salespeople;
+ salesperson_id | salesperson_name 
+----------------+------------------
+              1 | Poirot
+             19 | Ivanov
+             10 | May
+             20 | Smirnoff
+             31 | Popov
+             30 | Ford
+(6 rows)
+
+select * from salespeople01_10;
+ salesperson_id | salesperson_name 
+----------------+------------------
+              1 | Poirot
+(1 row)
+
+select * from salespeople10_40;
+ salesperson_id | salesperson_name 
+----------------+------------------
+             19 | Ivanov
+             10 | May
+             20 | Smirnoff
+             31 | Popov
+             30 | Ford
+(5 rows)
+
+DROP TABLE salespeople;
+--
+-- Test: merge sub-partitions
+--
+CREATE TABLE sales_range (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date DATE) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_jan2022 PARTITION OF sales_range FOR VALUES FROM ('2022-01-01') TO ('2022-02-01');
+CREATE TABLE sales_feb2022 PARTITION OF sales_range FOR VALUES FROM ('2022-02-01') TO ('2022-03-01');
+CREATE TABLE sales_mar2022 PARTITION OF sales_range FOR VALUES FROM ('2022-03-01') TO ('2022-04-01');
+CREATE TABLE sales_apr2022 (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date DATE) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_apr2022_01_10 PARTITION OF sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-04-10');
+CREATE TABLE sales_apr2022_10_20 PARTITION OF sales_apr2022 FOR VALUES FROM ('2022-04-10') TO ('2022-04-20');
+CREATE TABLE sales_apr2022_20_30 PARTITION OF sales_apr2022 FOR VALUES FROM ('2022-04-20') TO ('2022-05-01');
+ALTER TABLE sales_range ATTACH PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01');
+CREATE TABLE sales_others PARTITION OF sales_range DEFAULT;
+CREATE INDEX sales_range_sales_date_idx ON sales_range USING btree (sales_date);
+INSERT INTO sales_range VALUES
+  (1,  'May',      1000, '2022-01-31'),
+  (2,  'Smirnoff', 500,  '2022-02-10'),
+  (3,  'Ford',     2000, '2022-04-30'),
+  (4,  'Ivanov',   750,  '2022-04-13'),
+  (5,  'Deev',     250,  '2022-04-07'),
+  (6,  'Poirot',   150,  '2022-02-11'),
+  (7,  'Li',       175,  '2022-03-08'),
+  (8,  'Ericsson', 185,  '2022-02-23'),
+  (9,  'Muller',   250,  '2022-03-11'),
+  (10, 'Halder',   350,  '2022-01-28'),
+  (11, 'Trump',    380,  '2022-04-06'),
+  (12, 'Plato',    350,  '2022-03-19'),
+  (13, 'Gandi',    377,  '2022-01-09'),
+  (14, 'Smith',    510,  '2022-05-04');
+SELECT tableoid::regclass, * FROM sales_apr2022 ORDER BY tableoid, salesperson_id;
+      tableoid       | salesperson_id | salesperson_name | sales_amount | sales_date 
+---------------------+----------------+------------------+--------------+------------
+ sales_apr2022_01_10 |              5 | Deev             |          250 | 04-07-2022
+ sales_apr2022_01_10 |             11 | Trump            |          380 | 04-06-2022
+ sales_apr2022_10_20 |              4 | Ivanov           |          750 | 04-13-2022
+ sales_apr2022_20_30 |              3 | Ford             |         2000 | 04-30-2022
+(4 rows)
+
+ALTER TABLE sales_apr2022 MERGE PARTITIONS (sales_apr2022_01_10, sales_apr2022_10_20, sales_apr2022_20_30) INTO sales_apr_all;
+SELECT tableoid::regclass, * FROM sales_apr2022 ORDER BY tableoid, salesperson_id;
+   tableoid    | salesperson_id | salesperson_name | sales_amount | sales_date 
+---------------+----------------+------------------+--------------+------------
+ sales_apr_all |              3 | Ford             |         2000 | 04-30-2022
+ sales_apr_all |              4 | Ivanov           |          750 | 04-13-2022
+ sales_apr_all |              5 | Deev             |          250 | 04-07-2022
+ sales_apr_all |             11 | Trump            |          380 | 04-06-2022
+(4 rows)
+
+DROP TABLE sales_range;
+--
+-- BY LIST partitioning
+--
+--
+-- Test: specific errors for BY LIST partitioning
+--
+CREATE TABLE sales_list
+(salesperson_id INT GENERATED ALWAYS AS IDENTITY,
+ salesperson_name VARCHAR(30),
+ sales_state VARCHAR(20),
+ sales_amount INT,
+ sales_date DATE)
+PARTITION BY LIST (sales_state);
+CREATE TABLE sales_nord PARTITION OF sales_list FOR VALUES IN ('Oslo', 'St. Petersburg', 'Helsinki');
+CREATE TABLE sales_west PARTITION OF sales_list FOR VALUES IN ('Lisbon', 'New York', 'Madrid');
+CREATE TABLE sales_east PARTITION OF sales_list FOR VALUES IN ('Bejing', 'Delhi', 'Vladivostok');
+CREATE TABLE sales_central PARTITION OF sales_list FOR VALUES IN ('Warsaw', 'Berlin', 'Kyiv');
+CREATE TABLE sales_others PARTITION OF sales_list DEFAULT;
+CREATE TABLE sales_list2 (LIKE sales_list) PARTITION BY LIST (sales_state);
+CREATE TABLE sales_nord2 PARTITION OF sales_list2 FOR VALUES IN ('Oslo', 'St. Petersburg', 'Helsinki');
+CREATE TABLE sales_others2 PARTITION OF sales_list2 DEFAULT;
+CREATE TABLE sales_external (LIKE sales_list);
+CREATE TABLE sales_external2 (vch VARCHAR(5));
+-- ERROR:  "sales_external" is not a partition of partitioned table "sales_list"
+ALTER TABLE sales_list MERGE PARTITIONS (sales_west, sales_east, sales_external) INTO sales_all;
+ERROR:  "sales_external" is not a partition of partitioned table "sales_list"
+HINT:  ALTER TABLE ... MERGE PARTITIONS can only merge partitions don't have sub-partitions
+-- ERROR:  "sales_external2" is not a partition of partitioned table "sales_list"
+ALTER TABLE sales_list MERGE PARTITIONS (sales_west, sales_east, sales_external2) INTO sales_all;
+ERROR:  "sales_external2" is not a partition of partitioned table "sales_list"
+HINT:  ALTER TABLE ... MERGE PARTITIONS can only merge partitions don't have sub-partitions
+-- ERROR:  relation "sales_nord2" is not a partition of relation "sales_list"
+ALTER TABLE sales_list MERGE PARTITIONS (sales_west, sales_nord2, sales_east) INTO sales_all;
+ERROR:  relation "sales_nord2" is not a partition of relation "sales_list"
+HINT:  ALTER TABLE ... MERGE PARTITIONS can only merge partitions don't have sub-partitions
+DROP TABLE sales_external2;
+DROP TABLE sales_external;
+DROP TABLE sales_list2;
+DROP TABLE sales_list;
+--
+-- Test: BY LIST partitioning, MERGE PARTITIONS with data
+--
+CREATE TABLE sales_list
+(salesperson_id INT GENERATED ALWAYS AS IDENTITY,
+ salesperson_name VARCHAR(30),
+ sales_state VARCHAR(20),
+ sales_amount INT,
+ sales_date DATE)
+PARTITION BY LIST (sales_state);
+CREATE INDEX sales_list_salesperson_name_idx ON sales_list USING btree (salesperson_name);
+CREATE INDEX sales_list_sales_state_idx ON sales_list USING btree (sales_state);
+CREATE TABLE sales_nord PARTITION OF sales_list FOR VALUES IN ('Oslo', 'St. Petersburg', 'Helsinki');
+CREATE TABLE sales_west PARTITION OF sales_list FOR VALUES IN ('Lisbon', 'New York', 'Madrid');
+CREATE TABLE sales_east PARTITION OF sales_list FOR VALUES IN ('Bejing', 'Delhi', 'Vladivostok');
+CREATE TABLE sales_central PARTITION OF sales_list FOR VALUES IN ('Warsaw', 'Berlin', 'Kyiv');
+CREATE TABLE sales_others PARTITION OF sales_list DEFAULT;
+INSERT INTO sales_list (salesperson_name, sales_state, sales_amount, sales_date) VALUES
+  ('Trump',    'Bejing',         1000, '2022-03-01'),
+  ('Smirnoff', 'New York',        500, '2022-03-03'),
+  ('Ford',     'St. Petersburg', 2000, '2022-03-05'),
+  ('Ivanov',   'Warsaw',          750, '2022-03-04'),
+  ('Deev',     'Lisbon',          250, '2022-03-07'),
+  ('Poirot',   'Berlin',         1000, '2022-03-01'),
+  ('May',      'Helsinki',       1200, '2022-03-06'),
+  ('Li',       'Vladivostok',    1150, '2022-03-09'),
+  ('May',      'Helsinki',       1200, '2022-03-11'),
+  ('Halder',   'Oslo',            800, '2022-03-02'),
+  ('Muller',   'Madrid',          650, '2022-03-05'),
+  ('Smith',    'Kyiv',            350, '2022-03-10'),
+  ('Gandi',    'Warsaw',          150, '2022-03-08'),
+  ('Plato',    'Lisbon',          950, '2022-03-05');
+-- show partitions with conditions:
+EXECUTE get_partition_info('{sales_list}');
+      oid      | relpersistence | relkind | inhdetachpending |                     pg_get_expr                      
+---------------+----------------+---------+------------------+------------------------------------------------------
+ sales_central | p              | r       | f                | FOR VALUES IN ('Warsaw', 'Berlin', 'Kyiv')
+ sales_east    | p              | r       | f                | FOR VALUES IN ('Bejing', 'Delhi', 'Vladivostok')
+ sales_nord    | p              | r       | f                | FOR VALUES IN ('Oslo', 'St. Petersburg', 'Helsinki')
+ sales_west    | p              | r       | f                | FOR VALUES IN ('Lisbon', 'New York', 'Madrid')
+ sales_others  | p              | r       | f                | DEFAULT
+(5 rows)
+
+ALTER TABLE sales_list MERGE PARTITIONS (sales_west, sales_east, sales_central) INTO sales_all;
+-- show partitions with conditions:
+EXECUTE get_partition_info('{sales_list}');
+     oid      | relpersistence | relkind | inhdetachpending |                                                 pg_get_expr                                                  
+--------------+----------------+---------+------------------+--------------------------------------------------------------------------------------------------------------
+ sales_all    | p              | r       | f                | FOR VALUES IN ('Lisbon', 'New York', 'Madrid', 'Bejing', 'Delhi', 'Vladivostok', 'Warsaw', 'Berlin', 'Kyiv')
+ sales_nord   | p              | r       | f                | FOR VALUES IN ('Oslo', 'St. Petersburg', 'Helsinki')
+ sales_others | p              | r       | f                | DEFAULT
+(3 rows)
+
+SELECT tableoid::regclass, * FROM sales_list ORDER BY tableoid, salesperson_id;
+  tableoid  | salesperson_id | salesperson_name |  sales_state   | sales_amount | sales_date 
+------------+----------------+------------------+----------------+--------------+------------
+ sales_nord |              3 | Ford             | St. Petersburg |         2000 | 03-05-2022
+ sales_nord |              7 | May              | Helsinki       |         1200 | 03-06-2022
+ sales_nord |              9 | May              | Helsinki       |         1200 | 03-11-2022
+ sales_nord |             10 | Halder           | Oslo           |          800 | 03-02-2022
+ sales_all  |              1 | Trump            | Bejing         |         1000 | 03-01-2022
+ sales_all  |              2 | Smirnoff         | New York       |          500 | 03-03-2022
+ sales_all  |              4 | Ivanov           | Warsaw         |          750 | 03-04-2022
+ sales_all  |              5 | Deev             | Lisbon         |          250 | 03-07-2022
+ sales_all  |              6 | Poirot           | Berlin         |         1000 | 03-01-2022
+ sales_all  |              8 | Li               | Vladivostok    |         1150 | 03-09-2022
+ sales_all  |             11 | Muller           | Madrid         |          650 | 03-05-2022
+ sales_all  |             12 | Smith            | Kyiv           |          350 | 03-10-2022
+ sales_all  |             13 | Gandi            | Warsaw         |          150 | 03-08-2022
+ sales_all  |             14 | Plato            | Lisbon         |          950 | 03-05-2022
+(14 rows)
+
+-- Use indexscan for testing indexes after merging partitions
+SET enable_seqscan = OFF;
+SELECT * FROM sales_all WHERE sales_state = 'Warsaw';
+ salesperson_id | salesperson_name | sales_state | sales_amount | sales_date 
+----------------+------------------+-------------+--------------+------------
+              4 | Ivanov           | Warsaw      |          750 | 03-04-2022
+             13 | Gandi            | Warsaw      |          150 | 03-08-2022
+(2 rows)
+
+SELECT * FROM sales_list WHERE sales_state = 'Warsaw';
+ salesperson_id | salesperson_name | sales_state | sales_amount | sales_date 
+----------------+------------------+-------------+--------------+------------
+              4 | Ivanov           | Warsaw      |          750 | 03-04-2022
+             13 | Gandi            | Warsaw      |          150 | 03-08-2022
+(2 rows)
+
+SELECT * FROM sales_list WHERE salesperson_name = 'Ivanov';
+ salesperson_id | salesperson_name | sales_state | sales_amount | sales_date 
+----------------+------------------+-------------+--------------+------------
+              4 | Ivanov           | Warsaw      |          750 | 03-04-2022
+(1 row)
+
+RESET enable_seqscan;
+DROP TABLE sales_list;
+--
+-- Try to MERGE partitions of another table.
+--
+CREATE TABLE t1 (i int, a int, b int, c int) PARTITION BY RANGE (a, b);
+CREATE TABLE t1p1 PARTITION OF t1 FOR VALUES FROM (1, 1) TO (1, 2);
+CREATE TABLE t2 (i int, t text) PARTITION BY RANGE (t);
+CREATE TABLE t2pa PARTITION OF t2 FOR VALUES FROM ('A') TO ('C');
+CREATE TABLE t3 (i int, t text);
+-- ERROR:  relation "t1p1" is not a partition of relation "t2"
+ALTER TABLE t2 MERGE PARTITIONS (t1p1, t2pa) INTO t2p;
+ERROR:  relation "t1p1" is not a partition of relation "t2"
+HINT:  ALTER TABLE ... MERGE PARTITIONS can only merge partitions don't have sub-partitions
+-- ERROR:  "t3" is not a partition of partitioned table "t2"
+ALTER TABLE t2 MERGE PARTITIONS (t2pa, t3) INTO t2p;
+ERROR:  "t3" is not a partition of partitioned table "t2"
+HINT:  ALTER TABLE ... MERGE PARTITIONS can only merge partitions don't have sub-partitions
+DROP TABLE t3;
+DROP TABLE t2;
+DROP TABLE t1;
+--
+-- Try to MERGE partitions of temporary table.
+--
+CREATE TEMP TABLE t (i int) PARTITION BY RANGE (i);
+CREATE TEMP TABLE tp_0_1 PARTITION OF t FOR VALUES FROM (0) TO (1);
+CREATE TEMP TABLE tp_1_2 PARTITION OF t FOR VALUES FROM (1) TO (2);
+EXECUTE get_partition_info('{t}');
+  oid   | relpersistence | relkind | inhdetachpending |        pg_get_expr         
+--------+----------------+---------+------------------+----------------------------
+ tp_0_1 | t              | r       | f                | FOR VALUES FROM (0) TO (1)
+ tp_1_2 | t              | r       | f                | FOR VALUES FROM (1) TO (2)
+(2 rows)
+
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO tp_0_2;
+-- Partition should be temporary.
+EXECUTE get_partition_info('{t}');
+  oid   | relpersistence | relkind | inhdetachpending |        pg_get_expr         
+--------+----------------+---------+------------------+----------------------------
+ tp_0_2 | t              | r       | f                | FOR VALUES FROM (0) TO (2)
+(1 row)
+
+DROP TABLE t;
+--
+-- Check the partition index name if the partition name is the same as one
+-- of the merged partitions.
+--
+CREATE TABLE t (i int, PRIMARY KEY(i)) PARTITION BY RANGE (i);
+CREATE TABLE tp_0_1 PARTITION OF t FOR VALUES FROM (0) TO (1);
+CREATE TABLE tp_1_2 PARTITION OF t FOR VALUES FROM (1) TO (2);
+CREATE INDEX tidx ON t(i);
+ALTER TABLE t MERGE PARTITIONS (tp_1_2, tp_0_1) INTO tp_1_2;
+-- Indexname values should be 'tp_1_2_pkey' and 'tp_1_2_i_idx'.
+-- Not-null constraint name should be 'tp_1_2_i_not_null'.
+\d+ tp_1_2
+                          Table "partitions_merge_schema.tp_1_2"
+ Column |  Type   | Collation | Nullable | Default | Storage | Stats target | Description 
+--------+---------+-----------+----------+---------+---------+--------------+-------------
+ i      | integer |           | not null |         | plain   |              | 
+Partition of: t FOR VALUES FROM (0) TO (2)
+Partition constraint: ((i IS NOT NULL) AND (i >= 0) AND (i < 2))
+Indexes:
+    "tp_1_2_pkey" PRIMARY KEY, btree (i)
+    "tp_1_2_i_idx" btree (i)
+Not-null constraints:
+    "t_i_not_null" NOT NULL "i" (inherited)
+
+DROP TABLE t;
+--
+-- Try mixing permanent and temporary partitions.
+--
+SET search_path = partitions_merge_schema, pg_temp, public;
+CREATE TABLE t (i int) PARTITION BY RANGE (i);
+CREATE TABLE tp_0_1 PARTITION OF t FOR VALUES FROM (0) TO (1);
+CREATE TABLE tp_1_2 PARTITION OF t FOR VALUES FROM (1) TO (2);
+SELECT c.oid::pg_catalog.regclass, c.relpersistence FROM pg_catalog.pg_class c WHERE c.oid = 't'::regclass;
+ oid | relpersistence 
+-----+----------------
+ t   | p
+(1 row)
+
+EXECUTE get_partition_info('{t}');
+  oid   | relpersistence | relkind | inhdetachpending |        pg_get_expr         
+--------+----------------+---------+------------------+----------------------------
+ tp_0_1 | p              | r       | f                | FOR VALUES FROM (0) TO (1)
+ tp_1_2 | p              | r       | f                | FOR VALUES FROM (1) TO (2)
+(2 rows)
+
+SET search_path = pg_temp, partitions_merge_schema, public;
+-- Can't merge persistent partitions into a temporary partition
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO tp_0_2;
+ERROR:  cannot create a temporary relation as partition of permanent relation "t"
+SET search_path = partitions_merge_schema, public;
+-- Can't merge persistent partitions into a temporary partition
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO pg_temp.tp_0_2;
+ERROR:  cannot create a temporary relation as partition of permanent relation "t"
+DROP TABLE t;
+SET search_path = pg_temp, partitions_merge_schema, public;
+BEGIN;
+CREATE TABLE t (i int) PARTITION BY RANGE (i);
+CREATE TABLE tp_0_1 PARTITION OF t FOR VALUES FROM (0) TO (1);
+CREATE TABLE tp_1_2 PARTITION OF t FOR VALUES FROM (1) TO (2);
+SELECT c.oid::pg_catalog.regclass, c.relpersistence FROM pg_catalog.pg_class c WHERE c.oid = 't'::regclass;
+ oid | relpersistence 
+-----+----------------
+ t   | t
+(1 row)
+
+EXECUTE get_partition_info('{t}');
+  oid   | relpersistence | relkind | inhdetachpending |        pg_get_expr         
+--------+----------------+---------+------------------+----------------------------
+ tp_0_1 | t              | r       | f                | FOR VALUES FROM (0) TO (1)
+ tp_1_2 | t              | r       | f                | FOR VALUES FROM (1) TO (2)
+(2 rows)
+
+DEALLOCATE get_partition_info;
+SET search_path = partitions_merge_schema, pg_temp, public;
+-- Can't merge temporary partitions into a persistent partition
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO tp_0_2;
+ROLLBACK;
+-- Check the new partition inherits parent's tablespace
+SET search_path = partitions_merge_schema, public;
+CREATE TABLE t (i int PRIMARY KEY USING INDEX TABLESPACE regress_tblspace)
+  PARTITION BY RANGE (i) TABLESPACE regress_tblspace;
+CREATE TABLE tp_0_1 PARTITION OF t FOR VALUES FROM (0) TO (1);
+CREATE TABLE tp_1_2 PARTITION OF t FOR VALUES FROM (1) TO (2);
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO tp_0_2;
+SELECT tablename, tablespace FROM pg_tables
+  WHERE tablename IN ('t', 'tp_0_2') AND schemaname = 'partitions_merge_schema'
+  ORDER BY tablename, tablespace;
+ tablename |    tablespace    
+-----------+------------------
+ t         | regress_tblspace
+ tp_0_2    | regress_tblspace
+(2 rows)
+
+SELECT tablename, indexname, tablespace FROM pg_indexes
+  WHERE tablename IN ('t', 'tp_0_2') AND schemaname = 'partitions_merge_schema'
+  ORDER BY tablename, indexname, tablespace;
+ tablename |  indexname  |    tablespace    
+-----------+-------------+------------------
+ t         | t_pkey      | regress_tblspace
+ tp_0_2    | tp_0_2_pkey | regress_tblspace
+(2 rows)
+
+DROP TABLE t;
+-- Check the new partition inherits parent's table access method
+SET search_path = partitions_merge_schema, public;
+CREATE ACCESS METHOD partitions_merge_heap TYPE TABLE HANDLER heap_tableam_handler;
+CREATE TABLE t (i int) PARTITION BY RANGE (i) USING partitions_merge_heap;
+CREATE TABLE tp_0_1 PARTITION OF t FOR VALUES FROM (0) TO (1);
+CREATE TABLE tp_1_2 PARTITION OF t FOR VALUES FROM (1) TO (2);
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO tp_0_2;
+SELECT c.relname, a.amname
+FROM pg_class c JOIN pg_am a ON c.relam = a.oid
+WHERE c.oid IN ('t'::regclass, 'tp_0_2'::regclass)
+ORDER BY c.relname;
+ relname |        amname         
+---------+-----------------------
+ t       | partitions_merge_heap
+ tp_0_2  | partitions_merge_heap
+(2 rows)
+
+DROP TABLE t;
+DROP ACCESS METHOD partitions_merge_heap;
+-- Test permission checks.  The user needs to own the parent table and all
+-- the merging partitions to do the merge.
+CREATE ROLE regress_partition_merge_alice;
+CREATE ROLE regress_partition_merge_bob;
+GRANT ALL ON SCHEMA partitions_merge_schema TO regress_partition_merge_alice;
+GRANT ALL ON SCHEMA partitions_merge_schema TO regress_partition_merge_bob;
+SET SESSION AUTHORIZATION regress_partition_merge_alice;
+CREATE TABLE t (i int) PARTITION BY RANGE (i);
+CREATE TABLE tp_0_1 PARTITION OF t FOR VALUES FROM (0) TO (1);
+CREATE TABLE tp_1_2 PARTITION OF t FOR VALUES FROM (1) TO (2);
+SET SESSION AUTHORIZATION regress_partition_merge_bob;
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO tp_0_2;
+ERROR:  must be owner of table t
+RESET SESSION AUTHORIZATION;
+ALTER TABLE t OWNER TO regress_partition_merge_bob;
+SET SESSION AUTHORIZATION regress_partition_merge_bob;
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO tp_0_2;
+ERROR:  must be owner of table tp_0_1
+RESET SESSION AUTHORIZATION;
+ALTER TABLE tp_0_1 OWNER TO regress_partition_merge_bob;
+SET SESSION AUTHORIZATION regress_partition_merge_bob;
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO tp_0_2;
+ERROR:  must be owner of table tp_1_2
+RESET SESSION AUTHORIZATION;
+ALTER TABLE tp_1_2 OWNER TO regress_partition_merge_bob;
+SET SESSION AUTHORIZATION regress_partition_merge_bob;
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO tp_0_2;
+RESET SESSION AUTHORIZATION;
+DROP TABLE t;
+REVOKE ALL ON SCHEMA partitions_merge_schema FROM regress_partition_merge_alice;
+REVOKE ALL ON SCHEMA partitions_merge_schema FROM regress_partition_merge_bob;
+DROP ROLE regress_partition_merge_alice;
+DROP ROLE regress_partition_merge_bob;
+-- Test: we can't merge partitions with different owners
+CREATE ROLE regress_partitions_merge_alice;
+CREATE ROLE regress_partitions_merge_bob;
+GRANT ALL ON SCHEMA partitions_merge_schema TO regress_partitions_merge_alice;
+GRANT ALL ON SCHEMA partitions_merge_schema TO regress_partitions_merge_bob;
+SET SESSION AUTHORIZATION regress_partitions_merge_alice;
+CREATE TABLE tp_0_1(i int);
+RESET SESSION AUTHORIZATION;
+SET SESSION AUTHORIZATION regress_partitions_merge_bob;
+CREATE TABLE tp_1_2(i int);
+RESET SESSION AUTHORIZATION;
+CREATE TABLE t (i int) PARTITION BY RANGE (i);
+ALTER TABLE t ATTACH PARTITION tp_0_1 FOR VALUES FROM (0) TO (1);
+ALTER TABLE t ATTACH PARTITION tp_1_2 FOR VALUES FROM (1) TO (2);
+-- Owner is 'regress_partitions_merge_alice':
+\dt tp_0_1
+                              List of tables
+         Schema          |  Name  | Type  |             Owner              
+-------------------------+--------+-------+--------------------------------
+ partitions_merge_schema | tp_0_1 | table | regress_partitions_merge_alice
+(1 row)
+
+-- Owner is 'regress_partitions_merge_bob':
+\dt tp_1_2
+                             List of tables
+         Schema          |  Name  | Type  |            Owner             
+-------------------------+--------+-------+------------------------------
+ partitions_merge_schema | tp_1_2 | table | regress_partitions_merge_bob
+(1 row)
+
+-- ERROR:  partitions being merged have different owners
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO tp_0_2;
+ERROR:  partitions being merged have different owners
+DROP TABLE t;
+REVOKE ALL ON SCHEMA partitions_merge_schema FROM regress_partitions_merge_alice;
+REVOKE ALL ON SCHEMA partitions_merge_schema FROM regress_partitions_merge_bob;
+DROP ROLE regress_partitions_merge_alice;
+DROP ROLE regress_partitions_merge_bob;
+-- Test for hash partitioned table
+CREATE TABLE t (i int) PARTITION BY HASH(i);
+CREATE TABLE tp1 PARTITION OF t FOR VALUES WITH (MODULUS 2, REMAINDER 0);
+CREATE TABLE tp2 PARTITION OF t FOR VALUES WITH (MODULUS 2, REMAINDER 1);
+-- ERROR:  partition of hash-partitioned table cannot be merged
+ALTER TABLE t MERGE PARTITIONS (tp1, tp2) INTO tp3;
+ERROR:  partition of hash-partitioned table cannot be merged
+-- ERROR:  list of new partitions should contain at least two items
+ALTER TABLE t MERGE PARTITIONS (tp1) INTO tp3;
+ERROR:  list of new partitions should contain at least two items
+DROP TABLE t;
+-- Test for merged partition properties:
+-- * STATISTICS is empty
+-- * COMMENT is empty
+-- * DEFAULTS are the same as DEFAULTS for partitioned table
+-- * STORAGE is the same as STORAGE for partitioned table
+-- * GENERATED and CONSTRAINTS are the same as GENERATED and CONSTRAINTS for partitioned table
+-- * TRIGGERS are the same as TRIGGERS for partitioned table
+CREATE TABLE t
+(i int NOT NULL,
+ t text STORAGE EXTENDED COMPRESSION pglz DEFAULT 'default_t',
+ b bigint,
+ d date GENERATED ALWAYS as ('2022-01-01') STORED) PARTITION BY RANGE (abs(i));
+COMMENT ON COLUMN t.i IS 't1.i';
+CREATE TABLE tp_0_1
+(i int NOT NULL,
+ t text STORAGE MAIN DEFAULT 'default_tp_0_1',
+ b bigint,
+ d date GENERATED ALWAYS as ('2022-02-02') STORED);
+ALTER TABLE t ATTACH PARTITION tp_0_1 FOR VALUES FROM (0) TO (1);
+COMMENT ON COLUMN tp_0_1.i IS 'tp_0_1.i';
+CREATE TABLE tp_1_2
+(i int NOT NULL,
+ t text STORAGE MAIN DEFAULT 'default_tp_1_2',
+ b bigint,
+ d date GENERATED ALWAYS as ('2022-03-03') STORED);
+ALTER TABLE t ATTACH PARTITION tp_1_2 FOR VALUES FROM (1) TO (2);
+COMMENT ON COLUMN tp_1_2.i IS 'tp_1_2.i';
+CREATE STATISTICS t_stat (DEPENDENCIES) on i, b from t;
+CREATE STATISTICS tp_0_1_stat (DEPENDENCIES) on i, b from tp_0_1;
+CREATE STATISTICS tp_1_2_stat (DEPENDENCIES) on i, b from tp_1_2;
+ALTER TABLE t ADD CONSTRAINT t_b_check CHECK (b > 0);
+ALTER TABLE t ADD CONSTRAINT t_b_check1 CHECK (b > 0) NOT ENFORCED;
+ALTER TABLE t ADD CONSTRAINT t_b_check2 CHECK (b > 0) NOT VALID;
+ALTER TABLE t ADD CONSTRAINT t_b_nn NOT NULL b NOT VALID;
+INSERT INTO tp_0_1(i, t, b) VALUES(0, DEFAULT, 1);
+INSERT INTO tp_1_2(i, t, b) VALUES(1, DEFAULT, 2);
+CREATE OR REPLACE FUNCTION trigger_function() RETURNS trigger LANGUAGE 'plpgsql' AS
+$BODY$
+BEGIN
+  RAISE NOTICE 'trigger(%) called: action = %, when = %, level = %', TG_ARGV[0], TG_OP, TG_WHEN, TG_LEVEL;
+  RETURN new;
+END;
+$BODY$;
+CREATE TRIGGER t_before_insert_row_trigger BEFORE INSERT ON t FOR EACH ROW
+  EXECUTE PROCEDURE trigger_function('t');
+CREATE TRIGGER tp_0_1_before_insert_row_trigger BEFORE INSERT ON tp_0_1 FOR EACH ROW
+  EXECUTE PROCEDURE trigger_function('tp_0_1');
+CREATE TRIGGER tp_1_2_before_insert_row_trigger BEFORE INSERT ON tp_1_2 FOR EACH ROW
+  EXECUTE PROCEDURE trigger_function('tp_1_2');
+\d+ tp_0_1
+                                              Table "partitions_merge_schema.tp_0_1"
+ Column |  Type   | Collation | Nullable |                     Default                     | Storage | Stats target | Description 
+--------+---------+-----------+----------+-------------------------------------------------+---------+--------------+-------------
+ i      | integer |           | not null |                                                 | plain   |              | tp_0_1.i
+ t      | text    |           |          | 'default_tp_0_1'::text                          | main    |              | 
+ b      | bigint  |           | not null |                                                 | plain   |              | 
+ d      | date    |           |          | generated always as ('02-02-2022'::date) stored | plain   |              | 
+Partition of: t FOR VALUES FROM (0) TO (1)
+Partition constraint: ((abs(i) IS NOT NULL) AND (abs(i) >= 0) AND (abs(i) < 1))
+Check constraints:
+    "t_b_check" CHECK (b > 0)
+    "t_b_check1" CHECK (b > 0) NOT ENFORCED
+    "t_b_check2" CHECK (b > 0) NOT VALID
+Statistics objects:
+    "partitions_merge_schema.tp_0_1_stat" (dependencies) ON i, b FROM tp_0_1
+Not-null constraints:
+    "tp_0_1_i_not_null" NOT NULL "i" (inherited)
+    "t_b_nn" NOT NULL "b" (inherited) NOT VALID
+Triggers:
+    t_before_insert_row_trigger BEFORE INSERT ON tp_0_1 FOR EACH ROW EXECUTE FUNCTION trigger_function('t'), ON TABLE t
+    tp_0_1_before_insert_row_trigger BEFORE INSERT ON tp_0_1 FOR EACH ROW EXECUTE FUNCTION trigger_function('tp_0_1')
+
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO tp_0_1;
+\d+ tp_0_1
+                                              Table "partitions_merge_schema.tp_0_1"
+ Column |  Type   | Collation | Nullable |                     Default                     | Storage  | Stats target | Description 
+--------+---------+-----------+----------+-------------------------------------------------+----------+--------------+-------------
+ i      | integer |           | not null |                                                 | plain    |              | 
+ t      | text    |           |          | 'default_t'::text                               | extended |              | 
+ b      | bigint  |           | not null |                                                 | plain    |              | 
+ d      | date    |           |          | generated always as ('01-01-2022'::date) stored | plain    |              | 
+Partition of: t FOR VALUES FROM (0) TO (2)
+Partition constraint: ((abs(i) IS NOT NULL) AND (abs(i) >= 0) AND (abs(i) < 2))
+Check constraints:
+    "t_b_check" CHECK (b > 0)
+    "t_b_check1" CHECK (b > 0) NOT ENFORCED
+    "t_b_check2" CHECK (b > 0) NOT VALID
+Not-null constraints:
+    "t_i_not_null" NOT NULL "i" (inherited)
+    "t_b_nn" NOT NULL "b" (inherited) NOT VALID
+Triggers:
+    t_before_insert_row_trigger BEFORE INSERT ON tp_0_1 FOR EACH ROW EXECUTE FUNCTION trigger_function('t'), ON TABLE t
+
+INSERT INTO t(i, t, b) VALUES(1, DEFAULT, 3);
+NOTICE:  trigger(t) called: action = INSERT, when = BEFORE, level = ROW
+SELECT tableoid::regclass, * FROM t ORDER BY b;
+ tableoid | i |       t        | b |     d      
+----------+---+----------------+---+------------
+ tp_0_1   | 0 | default_tp_0_1 | 1 | 01-01-2022
+ tp_0_1   | 1 | default_tp_1_2 | 2 | 01-01-2022
+ tp_0_1   | 1 | default_t      | 3 | 01-01-2022
+(3 rows)
+
+DROP TABLE t;
+DROP FUNCTION trigger_function();
+-- Test MERGE PARTITIONS with not valid foreign key constraint
+CREATE TABLE t (i INT PRIMARY KEY) PARTITION BY RANGE (i);
+CREATE TABLE tp_0_1 PARTITION OF t FOR VALUES FROM (0) TO (1);
+CREATE TABLE tp_1_2 PARTITION OF t FOR VALUES FROM (1) TO (2);
+INSERT INTO t VALUES (0), (1);
+CREATE TABLE t_fk (i INT);
+INSERT INTO t_fk VALUES (1), (2);
+ALTER TABLE t_fk ADD CONSTRAINT t_fk_i_fkey FOREIGN KEY (i) REFERENCES t NOT VALID;
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO tp_0_2;
+-- Should be NOT VALID FOREIGN KEY
+\d tp_0_2
+      Table "partitions_merge_schema.tp_0_2"
+ Column |  Type   | Collation | Nullable | Default 
+--------+---------+-----------+----------+---------
+ i      | integer |           | not null | 
+Partition of: t FOR VALUES FROM (0) TO (2)
+Indexes:
+    "tp_0_2_pkey" PRIMARY KEY, btree (i)
+Referenced by:
+    TABLE "t_fk" CONSTRAINT "t_fk_i_fkey" FOREIGN KEY (i) REFERENCES t(i) NOT VALID
+
+-- ERROR:  insert or update on table "t_fk" violates foreign key constraint "t_fk_i_fkey"
+ALTER TABLE t_fk VALIDATE CONSTRAINT t_fk_i_fkey;
+ERROR:  insert or update on table "t_fk" violates foreign key constraint "t_fk_i_fkey"
+DETAIL:  Key (i)=(2) is not present in table "t".
+DROP TABLE t_fk;
+DROP TABLE t;
+-- Test MERGE PARTITIONS with not enforced foreign key constraint
+CREATE TABLE t (i INT PRIMARY KEY) PARTITION BY RANGE (i);
+CREATE TABLE tp_0_1 PARTITION OF t FOR VALUES FROM (0) TO (1);
+CREATE TABLE tp_1_2 PARTITION OF t FOR VALUES FROM (1) TO (2);
+INSERT INTO t VALUES (0), (1);
+CREATE TABLE t_fk (i INT);
+INSERT INTO t_fk VALUES (1), (2);
+ALTER TABLE t_fk ADD CONSTRAINT t_fk_i_fkey FOREIGN KEY (i) REFERENCES t NOT ENFORCED;
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO tp_0_2;
+-- Should be NOT ENFORCED FOREIGN KEY
+\d tp_0_2
+      Table "partitions_merge_schema.tp_0_2"
+ Column |  Type   | Collation | Nullable | Default 
+--------+---------+-----------+----------+---------
+ i      | integer |           | not null | 
+Partition of: t FOR VALUES FROM (0) TO (2)
+Indexes:
+    "tp_0_2_pkey" PRIMARY KEY, btree (i)
+Referenced by:
+    TABLE "t_fk" CONSTRAINT "t_fk_i_fkey" FOREIGN KEY (i) REFERENCES t(i) NOT ENFORCED
+
+-- ERROR:  insert or update on table "t_fk" violates foreign key constraint "t_fk_i_fkey"
+ALTER TABLE t_fk ALTER CONSTRAINT t_fk_i_fkey ENFORCED;
+ERROR:  insert or update on table "t_fk" violates foreign key constraint "t_fk_i_fkey"
+DETAIL:  Key (i)=(2) is not present in table "t".
+DROP TABLE t_fk;
+DROP TABLE t;
+-- Test for recomputation of stored generated columns.
+CREATE TABLE t (i int, tab_id int generated always as (tableoid) stored) PARTITION BY RANGE (i);
+CREATE TABLE tp_0_1 PARTITION OF t FOR VALUES FROM (0) TO (1);
+CREATE TABLE tp_1_2 PARTITION OF t FOR VALUES FROM (1) TO (2);
+ALTER TABLE t ADD CONSTRAINT cc CHECK(tableoid <> 123456789);
+INSERT INTO t VALUES (0), (1);
+-- Should be 0 because partition identifier for row with i=0 is different from
+-- partition identifier for row with i=1.
+SELECT count(*) FROM t WHERE i = 0 AND tab_id IN (SELECT tab_id FROM t WHERE i = 1);
+ count 
+-------
+     0
+(1 row)
+
+-- "tab_id" column (stored generated column) with "tableoid" attribute requires
+-- recomputation here.
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO tp_0_2;
+-- Should be 1 because partition identifier for row with i=0 is the same as
+-- partition identifier for row with i=1.
+SELECT count(*) FROM t WHERE i = 0 AND tab_id IN (SELECT tab_id FROM t WHERE i = 1);
+ count 
+-------
+     1
+(1 row)
+
+DROP TABLE t;
+-- Test for generated columns (different order of columns in partitioned table
+-- and partitions).
+CREATE TABLE t (i int, g int GENERATED ALWAYS AS (i + tableoid::int)) PARTITION BY RANGE (i);
+CREATE TABLE tp_1 (g int GENERATED ALWAYS AS (i + tableoid::int), i int);
+CREATE TABLE tp_2 (g int GENERATED ALWAYS AS (i + tableoid::int), i int);
+ALTER TABLE t ATTACH PARTITION tp_1 FOR VALUES FROM (-1) TO (10);
+ALTER TABLE t ATTACH PARTITION tp_2 FOR VALUES FROM (10) TO (20);
+ALTER TABLE t ADD CHECK (g > 0);
+ALTER TABLE t ADD CHECK (i > 0);
+INSERT INTO t VALUES (5), (15);
+ALTER TABLE t MERGE PARTITIONS (tp_1, tp_2) INTO tp_12;
+INSERT INTO t VALUES (16);
+-- ERROR:  new row for relation "tp_12" violates check constraint "t_i_check"
+INSERT INTO t VALUES (0);
+ERROR:  new row for relation "tp_12" violates check constraint "t_i_check"
+DETAIL:  Failing row contains (0, virtual).
+-- Should be 3 rows: (5), (15), (16):
+SELECT i FROM t ORDER BY i;
+ i  
+----
+  5
+ 15
+ 16
+(3 rows)
+
+-- Should be 1 because for the same tableoid (15 + tableoid) = (5 + tableoid) + 10:
+SELECT count(*) FROM t WHERE i = 15 AND g IN (SELECT g + 10 FROM t WHERE i = 5);
+ count 
+-------
+     1
+(1 row)
+
+DROP TABLE t;
+RESET search_path;
+--
+DROP SCHEMA partitions_merge_schema;
+DROP SCHEMA partitions_merge_schema2;
diff --git a/src/test/regress/parallel_schedule b/src/test/regress/parallel_schedule
index a424be2a6b..6464a238ac 100644
--- a/src/test/regress/parallel_schedule
+++ b/src/test/regress/parallel_schedule
@@ -123,7 +123,7 @@ test: plancache limit plpgsql copy2 temp domain rangefuncs prepare conversion tr
 # The stats test resets stats, so nothing else needing stats access can be in
 # this group.
 # ----------
-test: partition_join partition_prune reloptions hash_part indexing partition_aggregate partition_info tuplesort explain compression memoize stats predicate numa
+test: partition_merge partition_join partition_prune reloptions hash_part indexing partition_aggregate partition_info tuplesort explain compression memoize stats predicate numa
 
 # event_trigger depends on create_am and cannot run concurrently with
 # any test that runs DDL
diff --git a/src/test/regress/sql/partition_merge.sql b/src/test/regress/sql/partition_merge.sql
new file mode 100644
index 0000000000..bf8acc5136
--- /dev/null
+++ b/src/test/regress/sql/partition_merge.sql
@@ -0,0 +1,796 @@
+--
+-- PARTITIONS_MERGE
+-- Tests for "ALTER TABLE ... MERGE PARTITIONS ..." command
+--
+
+CREATE SCHEMA partitions_merge_schema;
+CREATE SCHEMA partitions_merge_schema2;
+SET search_path = partitions_merge_schema, public;
+
+--
+-- BY RANGE partitioning
+--
+
+--
+-- Test for error codes
+--
+CREATE TABLE sales_range (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date DATE) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_dec2021 PARTITION OF sales_range FOR VALUES FROM ('2021-12-01') TO ('2021-12-31');
+CREATE TABLE sales_jan2022 PARTITION OF sales_range FOR VALUES FROM ('2022-01-01') TO ('2022-02-01');
+CREATE TABLE sales_feb2022 PARTITION OF sales_range FOR VALUES FROM ('2022-02-01') TO ('2022-03-01');
+CREATE TABLE sales_mar2022 PARTITION OF sales_range FOR VALUES FROM ('2022-03-01') TO ('2022-04-01');
+
+CREATE TABLE sales_apr2022 (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date DATE) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_apr_1 PARTITION OF sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-04-15');
+CREATE TABLE sales_apr_2 PARTITION OF sales_apr2022 FOR VALUES FROM ('2022-04-15') TO ('2022-05-01');
+ALTER TABLE sales_range ATTACH PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01');
+
+CREATE TABLE sales_others PARTITION OF sales_range DEFAULT;
+
+-- ERROR:  partition with name "sales_feb2022" is already used
+ALTER TABLE sales_range MERGE PARTITIONS (sales_feb2022, sales_mar2022, sales_feb2022) INTO sales_feb_mar_apr2022;
+-- ERROR:  "sales_apr2022" is not a table
+ALTER TABLE sales_range MERGE PARTITIONS (sales_feb2022, sales_mar2022, sales_apr2022) INTO sales_feb_mar_apr2022;
+-- ERROR:  lower bound of partition "sales_mar2022" is not equal to the upper bound of partition "sales_jan2022"
+-- (space between sections sales_jan2022 and sales_mar2022)
+ALTER TABLE sales_range MERGE PARTITIONS (sales_jan2022, sales_mar2022) INTO sales_jan_mar2022;
+-- ERROR:  lower bound of partition "sales_jan2022" is not equal to the upper bound of partition "sales_dec2021"
+-- (space between sections sales_dec2021 and sales_jan2022)
+ALTER TABLE sales_range MERGE PARTITIONS (sales_dec2021, sales_jan2022, sales_feb2022) INTO sales_dec_jan_feb2022;
+-- ERROR:  partition with name "sales_feb2022" is already used
+ALTER TABLE sales_range MERGE PARTITIONS (sales_feb2022, sales_mar2022, partitions_merge_schema.sales_feb2022) INTO sales_feb_mar_apr2022;
+--ERROR, sales_apr_2 already exists
+ALTER TABLE sales_range MERGE PARTITIONS (sales_feb2022, sales_mar2022, sales_jan2022) INTO sales_apr_2;
+
+CREATE VIEW jan2022v as SELECT * FROM sales_jan2022;
+ALTER TABLE sales_range MERGE PARTITIONS (sales_jan2022, sales_feb2022) INTO sales_dec_jan_feb2022;
+DROP VIEW jan2022v;
+
+-- NO ERROR: test for custom partitions order, source partitions not in the search_path
+SET search_path = partitions_merge_schema2, public;
+ALTER TABLE partitions_merge_schema.sales_range MERGE PARTITIONS (
+  partitions_merge_schema.sales_feb2022,
+  partitions_merge_schema.sales_mar2022,
+  partitions_merge_schema.sales_jan2022) INTO sales_jan_feb_mar2022;
+SET search_path = partitions_merge_schema, public;
+
+PREPARE get_partition_info(regclass[]) AS
+SELECT  c.oid::pg_catalog.regclass,
+        c.relpersistence,
+        c.relkind,
+        i.inhdetachpending,
+        pg_catalog.pg_get_expr(c.relpartbound, c.oid)
+FROM    pg_catalog.pg_class c, pg_catalog.pg_inherits i
+WHERE   c.oid = i.inhrelid AND i.inhparent = ANY($1)
+ORDER BY pg_catalog.pg_get_expr(c.relpartbound, c.oid) = 'DEFAULT',
+         c.oid::regclass::text COLLATE "C";
+
+EXECUTE get_partition_info('{sales_range}');
+
+DROP TABLE sales_range;
+
+--
+-- Add rows into partitioned table, then merge partitions
+--
+CREATE TABLE sales_range (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date DATE) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_jan2022 PARTITION OF sales_range FOR VALUES FROM ('2022-01-01') TO ('2022-02-01');
+CREATE TABLE sales_feb2022 PARTITION OF sales_range FOR VALUES FROM ('2022-02-01') TO ('2022-03-01');
+CREATE TABLE sales_mar2022 PARTITION OF sales_range FOR VALUES FROM ('2022-03-01') TO ('2022-04-01');
+CREATE TABLE sales_apr2022 PARTITION OF sales_range FOR VALUES FROM ('2022-04-01') TO ('2022-05-01');
+CREATE TABLE sales_others PARTITION OF sales_range DEFAULT;
+CREATE INDEX sales_range_sales_date_idx ON sales_range USING btree (sales_date);
+
+INSERT INTO sales_range VALUES
+  (1,  'May',      1000, '2022-01-31'),
+  (2,  'Smirnoff', 500,  '2022-02-10'),
+  (3,  'Ford',     2000, '2022-04-30'),
+  (4,  'Ivanov',   750,  '2022-04-13'),
+  (5,  'Deev',     250,  '2022-04-07'),
+  (6,  'Poirot',   150,  '2022-02-11'),
+  (7,  'Li',       175,  '2022-03-08'),
+  (8,  'Ericsson', 185,  '2022-02-23'),
+  (9,  'Muller',   250,  '2022-03-11'),
+  (10, 'Halder',   350,  '2022-01-28'),
+  (11, 'Trump',    380,  '2022-04-06'),
+  (12, 'Plato',    350,  '2022-03-19'),
+  (13, 'Gandi',    377,  '2022-01-09'),
+  (14, 'Smith',    510,  '2022-05-04');
+
+SELECT pg_catalog.pg_get_partkeydef('sales_range'::regclass);
+
+-- show partitions with conditions:
+EXECUTE get_partition_info('{sales_range}');
+
+-- check schema-qualified name of the new partition
+ALTER TABLE sales_range MERGE PARTITIONS (sales_feb2022, sales_mar2022, sales_apr2022) INTO partitions_merge_schema2.sales_feb_mar_apr2022;
+
+-- show partitions with conditions:
+EXECUTE get_partition_info('{sales_range}');
+
+SELECT * FROM pg_indexes WHERE tablename = 'sales_feb_mar_apr2022' and schemaname = 'partitions_merge_schema2';
+
+SELECT tableoid::regclass, * FROM sales_range ORDER BY tableoid, salesperson_id;
+
+-- Use indexscan for testing indexes
+SET enable_seqscan = OFF;
+
+SELECT * FROM partitions_merge_schema2.sales_feb_mar_apr2022 where sales_date > '2022-01-01';
+
+RESET enable_seqscan;
+
+DROP TABLE sales_range;
+
+--
+-- Merge some partitions into DEFAULT partition
+--
+CREATE TABLE sales_range (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date DATE) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_jan2022 PARTITION OF sales_range FOR VALUES FROM ('2022-01-01') TO ('2022-02-01');
+CREATE TABLE sales_feb2022 PARTITION OF sales_range FOR VALUES FROM ('2022-02-01') TO ('2022-03-01');
+CREATE TABLE sales_mar2022 PARTITION OF sales_range FOR VALUES FROM ('2022-03-01') TO ('2022-04-01');
+CREATE TABLE sales_apr2022 PARTITION OF sales_range FOR VALUES FROM ('2022-04-01') TO ('2022-05-01');
+CREATE TABLE sales_others PARTITION OF sales_range DEFAULT;
+CREATE INDEX sales_range_sales_date_idx ON sales_range USING btree (sales_date);
+
+INSERT INTO sales_range VALUES
+  (1,  'May',      1000, '2022-01-31'),
+  (2,  'Smirnoff', 500,  '2022-02-10'),
+  (3,  'Ford',     2000, '2022-04-30'),
+  (4,  'Ivanov',   750,  '2022-04-13'),
+  (5,  'Deev',     250,  '2022-04-07'),
+  (6,  'Poirot',   150,  '2022-02-11'),
+  (7,  'Li',       175,  '2022-03-08'),
+  (8,  'Ericsson', 185,  '2022-02-23'),
+  (9,  'Muller',   250,  '2022-03-11'),
+  (10, 'Halder',   350,  '2022-01-28'),
+  (11, 'Trump',    380,  '2022-04-06'),
+  (12, 'Plato',    350,  '2022-03-19'),
+  (13, 'Gandi',    377,  '2022-01-09'),
+  (14, 'Smith',    510,  '2022-05-04');
+
+-- Merge partitions (include DEFAULT partition) into partition with the same
+-- name
+ALTER TABLE sales_range MERGE PARTITIONS
+  (sales_jan2022, sales_mar2022, partitions_merge_schema.sales_others) INTO sales_others;
+
+SELECT * FROM sales_others ORDER BY salesperson_id;
+
+-- show partitions with conditions:
+EXECUTE get_partition_info('{sales_range}');
+
+DROP TABLE sales_range;
+
+--
+-- Test for:
+--   * composite partition key;
+--   * GENERATED column;
+--   * column with DEFAULT value.
+--
+CREATE TABLE sales_date (salesperson_name VARCHAR(30), sales_year INT, sales_month INT, sales_day INT,
+  sales_date VARCHAR(10) GENERATED ALWAYS AS
+    (LPAD(sales_year::text, 4, '0') || '.' || LPAD(sales_month::text, 2, '0') || '.' || LPAD(sales_day::text, 2, '0')) STORED,
+  sales_department VARCHAR(30) DEFAULT 'Sales department')
+  PARTITION BY RANGE (sales_year, sales_month, sales_day);
+
+CREATE TABLE sales_dec2022 PARTITION OF sales_date FOR VALUES FROM (2021, 12, 1) TO (2022, 1, 1);
+CREATE TABLE sales_jan2022 PARTITION OF sales_date FOR VALUES FROM (2022, 1, 1) TO (2022, 2, 1);
+CREATE TABLE sales_feb2022 PARTITION OF sales_date FOR VALUES FROM (2022, 2, 1) TO (2022, 3, 1);
+CREATE TABLE sales_other PARTITION OF sales_date FOR VALUES FROM (2022, 3, 1) TO (MAXVALUE, MAXVALUE, MAXVALUE);
+
+INSERT INTO sales_date(salesperson_name, sales_year, sales_month, sales_day) VALUES
+  ('Manager1', 2021, 12, 7),
+  ('Manager2', 2021, 12, 8),
+  ('Manager3', 2022, 1, 1),
+  ('Manager1', 2022, 2, 4),
+  ('Manager2', 2022, 1, 2),
+  ('Manager3', 2022, 2, 1),
+  ('Manager1', 2022, 3, 3),
+  ('Manager2', 2022, 3, 4),
+  ('Manager3', 2022, 5, 1);
+
+SELECT * FROM sales_date;
+SELECT * FROM sales_dec2022;
+SELECT * FROM sales_jan2022;
+SELECT * FROM sales_feb2022;
+SELECT * FROM sales_other;
+
+ALTER TABLE sales_date MERGE PARTITIONS (sales_jan2022, sales_feb2022) INTO sales_jan_feb2022;
+
+INSERT INTO sales_date(salesperson_name, sales_year, sales_month, sales_day) VALUES
+  ('Manager1', 2022, 1, 10),
+  ('Manager2', 2022, 2, 10);
+
+SELECT * FROM sales_date;
+SELECT * FROM sales_dec2022;
+SELECT * FROM sales_jan_feb2022;
+SELECT * FROM sales_other;
+
+DROP TABLE sales_date;
+
+--
+-- Test: merge partitions of partitioned table with triggers
+--
+CREATE TABLE salespeople(salesperson_id INT PRIMARY KEY, salesperson_name VARCHAR(30)) PARTITION BY RANGE (salesperson_id);
+
+CREATE TABLE salespeople01_10 PARTITION OF salespeople FOR VALUES FROM (1) TO (10);
+CREATE TABLE salespeople10_20 PARTITION OF salespeople FOR VALUES FROM (10) TO (20);
+CREATE TABLE salespeople20_30 PARTITION OF salespeople FOR VALUES FROM (20) TO (30);
+CREATE TABLE salespeople30_40 PARTITION OF salespeople FOR VALUES FROM (30) TO (40);
+
+INSERT INTO salespeople VALUES (1,  'Poirot');
+
+CREATE OR REPLACE FUNCTION after_insert_row_trigger() RETURNS trigger LANGUAGE 'plpgsql' AS $BODY$
+BEGIN
+    RAISE NOTICE 'trigger(%) called: action = %, when = %, level = %', TG_ARGV[0], TG_OP, TG_WHEN, TG_LEVEL;
+    RETURN NULL;
+END;
+$BODY$;
+
+CREATE TRIGGER salespeople_after_insert_statement_trigger
+    AFTER INSERT
+    ON salespeople
+    FOR EACH STATEMENT
+    EXECUTE PROCEDURE after_insert_row_trigger('salespeople');
+
+CREATE TRIGGER salespeople_after_insert_row_trigger
+    AFTER INSERT
+    ON salespeople
+    FOR EACH ROW
+    EXECUTE PROCEDURE after_insert_row_trigger('salespeople');
+
+-- 2 triggers should fire here (row + statement):
+INSERT INTO salespeople VALUES (10, 'May');
+-- 1 trigger should fire here (row):
+INSERT INTO salespeople10_20 VALUES (19, 'Ivanov');
+
+ALTER TABLE salespeople MERGE PARTITIONS (salespeople10_20, salespeople20_30, salespeople30_40) INTO salespeople10_40;
+
+-- 2 triggers should fire here (row + statement):
+INSERT INTO salespeople VALUES (20, 'Smirnoff');
+-- 1 trigger should fire here (row):
+INSERT INTO salespeople10_40 VALUES (30, 'Ford');
+
+SELECT * FROM salespeople01_10;
+SELECT * FROM salespeople10_40;
+
+DROP TABLE salespeople;
+DROP FUNCTION after_insert_row_trigger();
+
+--
+-- Test: merge partitions with deleted columns
+--
+CREATE TABLE salespeople(salesperson_id INT PRIMARY KEY, salesperson_name VARCHAR(30)) PARTITION BY RANGE (salesperson_id);
+
+CREATE TABLE salespeople01_10 PARTITION OF salespeople FOR VALUES FROM (1) TO (10);
+-- Create partitions with some deleted columns:
+CREATE TABLE salespeople10_20(d1 VARCHAR(30), salesperson_id INT PRIMARY KEY, salesperson_name VARCHAR(30));
+CREATE TABLE salespeople20_30(salesperson_id INT PRIMARY KEY, d2 INT,  salesperson_name VARCHAR(30));
+CREATE TABLE salespeople30_40(salesperson_id INT PRIMARY KEY, d3 DATE, salesperson_name VARCHAR(30));
+
+INSERT INTO salespeople10_20 VALUES ('dummy value 1', 19, 'Ivanov');
+INSERT INTO salespeople20_30 VALUES (20, 101, 'Smirnoff');
+INSERT INTO salespeople30_40 VALUES (31, now(), 'Popov');
+
+ALTER TABLE salespeople10_20 DROP COLUMN d1;
+ALTER TABLE salespeople20_30 DROP COLUMN d2;
+ALTER TABLE salespeople30_40 DROP COLUMN d3;
+
+ALTER TABLE salespeople ATTACH PARTITION salespeople10_20 FOR VALUES FROM (10) TO (20);
+ALTER TABLE salespeople ATTACH PARTITION salespeople20_30 FOR VALUES FROM (20) TO (30);
+ALTER TABLE salespeople ATTACH PARTITION salespeople30_40 FOR VALUES FROM (30) TO (40);
+
+INSERT INTO salespeople VALUES
+  (1, 'Poirot'),
+  (10, 'May'),
+  (30, 'Ford');
+
+ALTER TABLE salespeople MERGE PARTITIONS (salespeople10_20, salespeople20_30, salespeople30_40) INTO salespeople10_40;
+
+select * from salespeople;
+select * from salespeople01_10;
+select * from salespeople10_40;
+
+DROP TABLE salespeople;
+
+--
+-- Test: merge sub-partitions
+--
+CREATE TABLE sales_range (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date DATE) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_jan2022 PARTITION OF sales_range FOR VALUES FROM ('2022-01-01') TO ('2022-02-01');
+CREATE TABLE sales_feb2022 PARTITION OF sales_range FOR VALUES FROM ('2022-02-01') TO ('2022-03-01');
+CREATE TABLE sales_mar2022 PARTITION OF sales_range FOR VALUES FROM ('2022-03-01') TO ('2022-04-01');
+
+CREATE TABLE sales_apr2022 (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date DATE) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_apr2022_01_10 PARTITION OF sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-04-10');
+CREATE TABLE sales_apr2022_10_20 PARTITION OF sales_apr2022 FOR VALUES FROM ('2022-04-10') TO ('2022-04-20');
+CREATE TABLE sales_apr2022_20_30 PARTITION OF sales_apr2022 FOR VALUES FROM ('2022-04-20') TO ('2022-05-01');
+ALTER TABLE sales_range ATTACH PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01');
+
+CREATE TABLE sales_others PARTITION OF sales_range DEFAULT;
+
+CREATE INDEX sales_range_sales_date_idx ON sales_range USING btree (sales_date);
+
+INSERT INTO sales_range VALUES
+  (1,  'May',      1000, '2022-01-31'),
+  (2,  'Smirnoff', 500,  '2022-02-10'),
+  (3,  'Ford',     2000, '2022-04-30'),
+  (4,  'Ivanov',   750,  '2022-04-13'),
+  (5,  'Deev',     250,  '2022-04-07'),
+  (6,  'Poirot',   150,  '2022-02-11'),
+  (7,  'Li',       175,  '2022-03-08'),
+  (8,  'Ericsson', 185,  '2022-02-23'),
+  (9,  'Muller',   250,  '2022-03-11'),
+  (10, 'Halder',   350,  '2022-01-28'),
+  (11, 'Trump',    380,  '2022-04-06'),
+  (12, 'Plato',    350,  '2022-03-19'),
+  (13, 'Gandi',    377,  '2022-01-09'),
+  (14, 'Smith',    510,  '2022-05-04');
+
+SELECT tableoid::regclass, * FROM sales_apr2022 ORDER BY tableoid, salesperson_id;
+
+ALTER TABLE sales_apr2022 MERGE PARTITIONS (sales_apr2022_01_10, sales_apr2022_10_20, sales_apr2022_20_30) INTO sales_apr_all;
+
+SELECT tableoid::regclass, * FROM sales_apr2022 ORDER BY tableoid, salesperson_id;
+
+DROP TABLE sales_range;
+
+--
+-- BY LIST partitioning
+--
+
+--
+-- Test: specific errors for BY LIST partitioning
+--
+CREATE TABLE sales_list
+(salesperson_id INT GENERATED ALWAYS AS IDENTITY,
+ salesperson_name VARCHAR(30),
+ sales_state VARCHAR(20),
+ sales_amount INT,
+ sales_date DATE)
+PARTITION BY LIST (sales_state);
+CREATE TABLE sales_nord PARTITION OF sales_list FOR VALUES IN ('Oslo', 'St. Petersburg', 'Helsinki');
+CREATE TABLE sales_west PARTITION OF sales_list FOR VALUES IN ('Lisbon', 'New York', 'Madrid');
+CREATE TABLE sales_east PARTITION OF sales_list FOR VALUES IN ('Bejing', 'Delhi', 'Vladivostok');
+CREATE TABLE sales_central PARTITION OF sales_list FOR VALUES IN ('Warsaw', 'Berlin', 'Kyiv');
+CREATE TABLE sales_others PARTITION OF sales_list DEFAULT;
+
+
+CREATE TABLE sales_list2 (LIKE sales_list) PARTITION BY LIST (sales_state);
+CREATE TABLE sales_nord2 PARTITION OF sales_list2 FOR VALUES IN ('Oslo', 'St. Petersburg', 'Helsinki');
+CREATE TABLE sales_others2 PARTITION OF sales_list2 DEFAULT;
+
+
+CREATE TABLE sales_external (LIKE sales_list);
+CREATE TABLE sales_external2 (vch VARCHAR(5));
+
+-- ERROR:  "sales_external" is not a partition of partitioned table "sales_list"
+ALTER TABLE sales_list MERGE PARTITIONS (sales_west, sales_east, sales_external) INTO sales_all;
+-- ERROR:  "sales_external2" is not a partition of partitioned table "sales_list"
+ALTER TABLE sales_list MERGE PARTITIONS (sales_west, sales_east, sales_external2) INTO sales_all;
+-- ERROR:  relation "sales_nord2" is not a partition of relation "sales_list"
+ALTER TABLE sales_list MERGE PARTITIONS (sales_west, sales_nord2, sales_east) INTO sales_all;
+
+DROP TABLE sales_external2;
+DROP TABLE sales_external;
+DROP TABLE sales_list2;
+DROP TABLE sales_list;
+
+--
+-- Test: BY LIST partitioning, MERGE PARTITIONS with data
+--
+CREATE TABLE sales_list
+(salesperson_id INT GENERATED ALWAYS AS IDENTITY,
+ salesperson_name VARCHAR(30),
+ sales_state VARCHAR(20),
+ sales_amount INT,
+ sales_date DATE)
+PARTITION BY LIST (sales_state);
+
+CREATE INDEX sales_list_salesperson_name_idx ON sales_list USING btree (salesperson_name);
+CREATE INDEX sales_list_sales_state_idx ON sales_list USING btree (sales_state);
+
+CREATE TABLE sales_nord PARTITION OF sales_list FOR VALUES IN ('Oslo', 'St. Petersburg', 'Helsinki');
+CREATE TABLE sales_west PARTITION OF sales_list FOR VALUES IN ('Lisbon', 'New York', 'Madrid');
+CREATE TABLE sales_east PARTITION OF sales_list FOR VALUES IN ('Bejing', 'Delhi', 'Vladivostok');
+CREATE TABLE sales_central PARTITION OF sales_list FOR VALUES IN ('Warsaw', 'Berlin', 'Kyiv');
+CREATE TABLE sales_others PARTITION OF sales_list DEFAULT;
+
+INSERT INTO sales_list (salesperson_name, sales_state, sales_amount, sales_date) VALUES
+  ('Trump',    'Bejing',         1000, '2022-03-01'),
+  ('Smirnoff', 'New York',        500, '2022-03-03'),
+  ('Ford',     'St. Petersburg', 2000, '2022-03-05'),
+  ('Ivanov',   'Warsaw',          750, '2022-03-04'),
+  ('Deev',     'Lisbon',          250, '2022-03-07'),
+  ('Poirot',   'Berlin',         1000, '2022-03-01'),
+  ('May',      'Helsinki',       1200, '2022-03-06'),
+  ('Li',       'Vladivostok',    1150, '2022-03-09'),
+  ('May',      'Helsinki',       1200, '2022-03-11'),
+  ('Halder',   'Oslo',            800, '2022-03-02'),
+  ('Muller',   'Madrid',          650, '2022-03-05'),
+  ('Smith',    'Kyiv',            350, '2022-03-10'),
+  ('Gandi',    'Warsaw',          150, '2022-03-08'),
+  ('Plato',    'Lisbon',          950, '2022-03-05');
+
+-- show partitions with conditions:
+EXECUTE get_partition_info('{sales_list}');
+
+ALTER TABLE sales_list MERGE PARTITIONS (sales_west, sales_east, sales_central) INTO sales_all;
+
+-- show partitions with conditions:
+EXECUTE get_partition_info('{sales_list}');
+
+SELECT tableoid::regclass, * FROM sales_list ORDER BY tableoid, salesperson_id;
+
+-- Use indexscan for testing indexes after merging partitions
+SET enable_seqscan = OFF;
+
+SELECT * FROM sales_all WHERE sales_state = 'Warsaw';
+SELECT * FROM sales_list WHERE sales_state = 'Warsaw';
+SELECT * FROM sales_list WHERE salesperson_name = 'Ivanov';
+
+RESET enable_seqscan;
+
+DROP TABLE sales_list;
+
+--
+-- Try to MERGE partitions of another table.
+--
+CREATE TABLE t1 (i int, a int, b int, c int) PARTITION BY RANGE (a, b);
+CREATE TABLE t1p1 PARTITION OF t1 FOR VALUES FROM (1, 1) TO (1, 2);
+CREATE TABLE t2 (i int, t text) PARTITION BY RANGE (t);
+CREATE TABLE t2pa PARTITION OF t2 FOR VALUES FROM ('A') TO ('C');
+CREATE TABLE t3 (i int, t text);
+
+-- ERROR:  relation "t1p1" is not a partition of relation "t2"
+ALTER TABLE t2 MERGE PARTITIONS (t1p1, t2pa) INTO t2p;
+-- ERROR:  "t3" is not a partition of partitioned table "t2"
+ALTER TABLE t2 MERGE PARTITIONS (t2pa, t3) INTO t2p;
+
+DROP TABLE t3;
+DROP TABLE t2;
+DROP TABLE t1;
+
+--
+-- Try to MERGE partitions of temporary table.
+--
+CREATE TEMP TABLE t (i int) PARTITION BY RANGE (i);
+CREATE TEMP TABLE tp_0_1 PARTITION OF t FOR VALUES FROM (0) TO (1);
+CREATE TEMP TABLE tp_1_2 PARTITION OF t FOR VALUES FROM (1) TO (2);
+
+EXECUTE get_partition_info('{t}');
+
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO tp_0_2;
+
+-- Partition should be temporary.
+EXECUTE get_partition_info('{t}');
+
+DROP TABLE t;
+
+--
+-- Check the partition index name if the partition name is the same as one
+-- of the merged partitions.
+--
+CREATE TABLE t (i int, PRIMARY KEY(i)) PARTITION BY RANGE (i);
+
+CREATE TABLE tp_0_1 PARTITION OF t FOR VALUES FROM (0) TO (1);
+CREATE TABLE tp_1_2 PARTITION OF t FOR VALUES FROM (1) TO (2);
+
+CREATE INDEX tidx ON t(i);
+ALTER TABLE t MERGE PARTITIONS (tp_1_2, tp_0_1) INTO tp_1_2;
+
+-- Indexname values should be 'tp_1_2_pkey' and 'tp_1_2_i_idx'.
+-- Not-null constraint name should be 'tp_1_2_i_not_null'.
+\d+ tp_1_2
+
+DROP TABLE t;
+
+--
+-- Try mixing permanent and temporary partitions.
+--
+SET search_path = partitions_merge_schema, pg_temp, public;
+CREATE TABLE t (i int) PARTITION BY RANGE (i);
+CREATE TABLE tp_0_1 PARTITION OF t FOR VALUES FROM (0) TO (1);
+CREATE TABLE tp_1_2 PARTITION OF t FOR VALUES FROM (1) TO (2);
+
+SELECT c.oid::pg_catalog.regclass, c.relpersistence FROM pg_catalog.pg_class c WHERE c.oid = 't'::regclass;
+
+EXECUTE get_partition_info('{t}');
+
+SET search_path = pg_temp, partitions_merge_schema, public;
+
+-- Can't merge persistent partitions into a temporary partition
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO tp_0_2;
+
+SET search_path = partitions_merge_schema, public;
+
+-- Can't merge persistent partitions into a temporary partition
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO pg_temp.tp_0_2;
+DROP TABLE t;
+
+SET search_path = pg_temp, partitions_merge_schema, public;
+
+BEGIN;
+CREATE TABLE t (i int) PARTITION BY RANGE (i);
+CREATE TABLE tp_0_1 PARTITION OF t FOR VALUES FROM (0) TO (1);
+CREATE TABLE tp_1_2 PARTITION OF t FOR VALUES FROM (1) TO (2);
+
+SELECT c.oid::pg_catalog.regclass, c.relpersistence FROM pg_catalog.pg_class c WHERE c.oid = 't'::regclass;
+
+EXECUTE get_partition_info('{t}');
+
+DEALLOCATE get_partition_info;
+
+SET search_path = partitions_merge_schema, pg_temp, public;
+
+-- Can't merge temporary partitions into a persistent partition
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO tp_0_2;
+ROLLBACK;
+
+-- Check the new partition inherits parent's tablespace
+SET search_path = partitions_merge_schema, public;
+CREATE TABLE t (i int PRIMARY KEY USING INDEX TABLESPACE regress_tblspace)
+  PARTITION BY RANGE (i) TABLESPACE regress_tblspace;
+CREATE TABLE tp_0_1 PARTITION OF t FOR VALUES FROM (0) TO (1);
+CREATE TABLE tp_1_2 PARTITION OF t FOR VALUES FROM (1) TO (2);
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO tp_0_2;
+SELECT tablename, tablespace FROM pg_tables
+  WHERE tablename IN ('t', 'tp_0_2') AND schemaname = 'partitions_merge_schema'
+  ORDER BY tablename, tablespace;
+SELECT tablename, indexname, tablespace FROM pg_indexes
+  WHERE tablename IN ('t', 'tp_0_2') AND schemaname = 'partitions_merge_schema'
+  ORDER BY tablename, indexname, tablespace;
+DROP TABLE t;
+
+-- Check the new partition inherits parent's table access method
+SET search_path = partitions_merge_schema, public;
+CREATE ACCESS METHOD partitions_merge_heap TYPE TABLE HANDLER heap_tableam_handler;
+CREATE TABLE t (i int) PARTITION BY RANGE (i) USING partitions_merge_heap;
+CREATE TABLE tp_0_1 PARTITION OF t FOR VALUES FROM (0) TO (1);
+CREATE TABLE tp_1_2 PARTITION OF t FOR VALUES FROM (1) TO (2);
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO tp_0_2;
+SELECT c.relname, a.amname
+FROM pg_class c JOIN pg_am a ON c.relam = a.oid
+WHERE c.oid IN ('t'::regclass, 'tp_0_2'::regclass)
+ORDER BY c.relname;
+DROP TABLE t;
+DROP ACCESS METHOD partitions_merge_heap;
+
+-- Test permission checks.  The user needs to own the parent table and all
+-- the merging partitions to do the merge.
+CREATE ROLE regress_partition_merge_alice;
+CREATE ROLE regress_partition_merge_bob;
+GRANT ALL ON SCHEMA partitions_merge_schema TO regress_partition_merge_alice;
+GRANT ALL ON SCHEMA partitions_merge_schema TO regress_partition_merge_bob;
+
+SET SESSION AUTHORIZATION regress_partition_merge_alice;
+CREATE TABLE t (i int) PARTITION BY RANGE (i);
+CREATE TABLE tp_0_1 PARTITION OF t FOR VALUES FROM (0) TO (1);
+CREATE TABLE tp_1_2 PARTITION OF t FOR VALUES FROM (1) TO (2);
+
+SET SESSION AUTHORIZATION regress_partition_merge_bob;
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO tp_0_2;
+RESET SESSION AUTHORIZATION;
+
+ALTER TABLE t OWNER TO regress_partition_merge_bob;
+SET SESSION AUTHORIZATION regress_partition_merge_bob;
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO tp_0_2;
+RESET SESSION AUTHORIZATION;
+
+ALTER TABLE tp_0_1 OWNER TO regress_partition_merge_bob;
+SET SESSION AUTHORIZATION regress_partition_merge_bob;
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO tp_0_2;
+RESET SESSION AUTHORIZATION;
+
+ALTER TABLE tp_1_2 OWNER TO regress_partition_merge_bob;
+SET SESSION AUTHORIZATION regress_partition_merge_bob;
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO tp_0_2;
+RESET SESSION AUTHORIZATION;
+
+DROP TABLE t;
+REVOKE ALL ON SCHEMA partitions_merge_schema FROM regress_partition_merge_alice;
+REVOKE ALL ON SCHEMA partitions_merge_schema FROM regress_partition_merge_bob;
+DROP ROLE regress_partition_merge_alice;
+DROP ROLE regress_partition_merge_bob;
+
+
+-- Test: we can't merge partitions with different owners
+CREATE ROLE regress_partitions_merge_alice;
+CREATE ROLE regress_partitions_merge_bob;
+GRANT ALL ON SCHEMA partitions_merge_schema TO regress_partitions_merge_alice;
+GRANT ALL ON SCHEMA partitions_merge_schema TO regress_partitions_merge_bob;
+SET SESSION AUTHORIZATION regress_partitions_merge_alice;
+CREATE TABLE tp_0_1(i int);
+RESET SESSION AUTHORIZATION;
+SET SESSION AUTHORIZATION regress_partitions_merge_bob;
+CREATE TABLE tp_1_2(i int);
+RESET SESSION AUTHORIZATION;
+
+CREATE TABLE t (i int) PARTITION BY RANGE (i);
+
+ALTER TABLE t ATTACH PARTITION tp_0_1 FOR VALUES FROM (0) TO (1);
+ALTER TABLE t ATTACH PARTITION tp_1_2 FOR VALUES FROM (1) TO (2);
+
+-- Owner is 'regress_partitions_merge_alice':
+\dt tp_0_1
+-- Owner is 'regress_partitions_merge_bob':
+\dt tp_1_2
+
+-- ERROR:  partitions being merged have different owners
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO tp_0_2;
+
+DROP TABLE t;
+REVOKE ALL ON SCHEMA partitions_merge_schema FROM regress_partitions_merge_alice;
+REVOKE ALL ON SCHEMA partitions_merge_schema FROM regress_partitions_merge_bob;
+DROP ROLE regress_partitions_merge_alice;
+DROP ROLE regress_partitions_merge_bob;
+
+
+-- Test for hash partitioned table
+CREATE TABLE t (i int) PARTITION BY HASH(i);
+CREATE TABLE tp1 PARTITION OF t FOR VALUES WITH (MODULUS 2, REMAINDER 0);
+CREATE TABLE tp2 PARTITION OF t FOR VALUES WITH (MODULUS 2, REMAINDER 1);
+
+-- ERROR:  partition of hash-partitioned table cannot be merged
+ALTER TABLE t MERGE PARTITIONS (tp1, tp2) INTO tp3;
+
+-- ERROR:  list of new partitions should contain at least two items
+ALTER TABLE t MERGE PARTITIONS (tp1) INTO tp3;
+
+DROP TABLE t;
+
+
+-- Test for merged partition properties:
+-- * STATISTICS is empty
+-- * COMMENT is empty
+-- * DEFAULTS are the same as DEFAULTS for partitioned table
+-- * STORAGE is the same as STORAGE for partitioned table
+-- * GENERATED and CONSTRAINTS are the same as GENERATED and CONSTRAINTS for partitioned table
+-- * TRIGGERS are the same as TRIGGERS for partitioned table
+
+CREATE TABLE t
+(i int NOT NULL,
+ t text STORAGE EXTENDED COMPRESSION pglz DEFAULT 'default_t',
+ b bigint,
+ d date GENERATED ALWAYS as ('2022-01-01') STORED) PARTITION BY RANGE (abs(i));
+COMMENT ON COLUMN t.i IS 't1.i';
+
+CREATE TABLE tp_0_1
+(i int NOT NULL,
+ t text STORAGE MAIN DEFAULT 'default_tp_0_1',
+ b bigint,
+ d date GENERATED ALWAYS as ('2022-02-02') STORED);
+ALTER TABLE t ATTACH PARTITION tp_0_1 FOR VALUES FROM (0) TO (1);
+COMMENT ON COLUMN tp_0_1.i IS 'tp_0_1.i';
+
+CREATE TABLE tp_1_2
+(i int NOT NULL,
+ t text STORAGE MAIN DEFAULT 'default_tp_1_2',
+ b bigint,
+ d date GENERATED ALWAYS as ('2022-03-03') STORED);
+ALTER TABLE t ATTACH PARTITION tp_1_2 FOR VALUES FROM (1) TO (2);
+COMMENT ON COLUMN tp_1_2.i IS 'tp_1_2.i';
+
+CREATE STATISTICS t_stat (DEPENDENCIES) on i, b from t;
+CREATE STATISTICS tp_0_1_stat (DEPENDENCIES) on i, b from tp_0_1;
+CREATE STATISTICS tp_1_2_stat (DEPENDENCIES) on i, b from tp_1_2;
+
+ALTER TABLE t ADD CONSTRAINT t_b_check CHECK (b > 0);
+ALTER TABLE t ADD CONSTRAINT t_b_check1 CHECK (b > 0) NOT ENFORCED;
+ALTER TABLE t ADD CONSTRAINT t_b_check2 CHECK (b > 0) NOT VALID;
+ALTER TABLE t ADD CONSTRAINT t_b_nn NOT NULL b NOT VALID;
+
+INSERT INTO tp_0_1(i, t, b) VALUES(0, DEFAULT, 1);
+INSERT INTO tp_1_2(i, t, b) VALUES(1, DEFAULT, 2);
+CREATE OR REPLACE FUNCTION trigger_function() RETURNS trigger LANGUAGE 'plpgsql' AS
+$BODY$
+BEGIN
+  RAISE NOTICE 'trigger(%) called: action = %, when = %, level = %', TG_ARGV[0], TG_OP, TG_WHEN, TG_LEVEL;
+  RETURN new;
+END;
+$BODY$;
+
+CREATE TRIGGER t_before_insert_row_trigger BEFORE INSERT ON t FOR EACH ROW
+  EXECUTE PROCEDURE trigger_function('t');
+CREATE TRIGGER tp_0_1_before_insert_row_trigger BEFORE INSERT ON tp_0_1 FOR EACH ROW
+  EXECUTE PROCEDURE trigger_function('tp_0_1');
+CREATE TRIGGER tp_1_2_before_insert_row_trigger BEFORE INSERT ON tp_1_2 FOR EACH ROW
+  EXECUTE PROCEDURE trigger_function('tp_1_2');
+
+\d+ tp_0_1
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO tp_0_1;
+\d+ tp_0_1
+
+INSERT INTO t(i, t, b) VALUES(1, DEFAULT, 3);
+SELECT tableoid::regclass, * FROM t ORDER BY b;
+DROP TABLE t;
+DROP FUNCTION trigger_function();
+
+
+-- Test MERGE PARTITIONS with not valid foreign key constraint
+CREATE TABLE t (i INT PRIMARY KEY) PARTITION BY RANGE (i);
+CREATE TABLE tp_0_1 PARTITION OF t FOR VALUES FROM (0) TO (1);
+CREATE TABLE tp_1_2 PARTITION OF t FOR VALUES FROM (1) TO (2);
+INSERT INTO t VALUES (0), (1);
+CREATE TABLE t_fk (i INT);
+INSERT INTO t_fk VALUES (1), (2);
+ALTER TABLE t_fk ADD CONSTRAINT t_fk_i_fkey FOREIGN KEY (i) REFERENCES t NOT VALID;
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO tp_0_2;
+
+-- Should be NOT VALID FOREIGN KEY
+\d tp_0_2
+-- ERROR:  insert or update on table "t_fk" violates foreign key constraint "t_fk_i_fkey"
+ALTER TABLE t_fk VALIDATE CONSTRAINT t_fk_i_fkey;
+
+DROP TABLE t_fk;
+DROP TABLE t;
+
+-- Test MERGE PARTITIONS with not enforced foreign key constraint
+CREATE TABLE t (i INT PRIMARY KEY) PARTITION BY RANGE (i);
+CREATE TABLE tp_0_1 PARTITION OF t FOR VALUES FROM (0) TO (1);
+CREATE TABLE tp_1_2 PARTITION OF t FOR VALUES FROM (1) TO (2);
+INSERT INTO t VALUES (0), (1);
+CREATE TABLE t_fk (i INT);
+INSERT INTO t_fk VALUES (1), (2);
+
+ALTER TABLE t_fk ADD CONSTRAINT t_fk_i_fkey FOREIGN KEY (i) REFERENCES t NOT ENFORCED;
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO tp_0_2;
+
+-- Should be NOT ENFORCED FOREIGN KEY
+\d tp_0_2
+-- ERROR:  insert or update on table "t_fk" violates foreign key constraint "t_fk_i_fkey"
+ALTER TABLE t_fk ALTER CONSTRAINT t_fk_i_fkey ENFORCED;
+
+DROP TABLE t_fk;
+DROP TABLE t;
+
+
+-- Test for recomputation of stored generated columns.
+CREATE TABLE t (i int, tab_id int generated always as (tableoid) stored) PARTITION BY RANGE (i);
+CREATE TABLE tp_0_1 PARTITION OF t FOR VALUES FROM (0) TO (1);
+CREATE TABLE tp_1_2 PARTITION OF t FOR VALUES FROM (1) TO (2);
+ALTER TABLE t ADD CONSTRAINT cc CHECK(tableoid <> 123456789);
+INSERT INTO t VALUES (0), (1);
+
+-- Should be 0 because partition identifier for row with i=0 is different from
+-- partition identifier for row with i=1.
+SELECT count(*) FROM t WHERE i = 0 AND tab_id IN (SELECT tab_id FROM t WHERE i = 1);
+
+-- "tab_id" column (stored generated column) with "tableoid" attribute requires
+-- recomputation here.
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO tp_0_2;
+
+-- Should be 1 because partition identifier for row with i=0 is the same as
+-- partition identifier for row with i=1.
+SELECT count(*) FROM t WHERE i = 0 AND tab_id IN (SELECT tab_id FROM t WHERE i = 1);
+
+DROP TABLE t;
+
+
+-- Test for generated columns (different order of columns in partitioned table
+-- and partitions).
+CREATE TABLE t (i int, g int GENERATED ALWAYS AS (i + tableoid::int)) PARTITION BY RANGE (i);
+CREATE TABLE tp_1 (g int GENERATED ALWAYS AS (i + tableoid::int), i int);
+CREATE TABLE tp_2 (g int GENERATED ALWAYS AS (i + tableoid::int), i int);
+ALTER TABLE t ATTACH PARTITION tp_1 FOR VALUES FROM (-1) TO (10);
+ALTER TABLE t ATTACH PARTITION tp_2 FOR VALUES FROM (10) TO (20);
+ALTER TABLE t ADD CHECK (g > 0);
+ALTER TABLE t ADD CHECK (i > 0);
+INSERT INTO t VALUES (5), (15);
+
+ALTER TABLE t MERGE PARTITIONS (tp_1, tp_2) INTO tp_12;
+
+INSERT INTO t VALUES (16);
+-- ERROR:  new row for relation "tp_12" violates check constraint "t_i_check"
+INSERT INTO t VALUES (0);
+-- Should be 3 rows: (5), (15), (16):
+SELECT i FROM t ORDER BY i;
+-- Should be 1 because for the same tableoid (15 + tableoid) = (5 + tableoid) + 10:
+SELECT count(*) FROM t WHERE i = 15 AND g IN (SELECT g + 10 FROM t WHERE i = 5);
+
+DROP TABLE t;
+
+
+RESET search_path;
+
+--
+DROP SCHEMA partitions_merge_schema;
+DROP SCHEMA partitions_merge_schema2;
-- 
2.40.1.windows.1


From f8a40867cf3d03899722cab3716d7374e69c65e9 Mon Sep 17 00:00:00 2001
From: Alexander Korotkov <[email protected]>
Date: Sun, 7 Apr 2024 00:58:09 +0300
Subject: [PATCH v49 2/2] Implement ALTER TABLE ... SPLIT PARTITION ... command

This new DDL command splits a single partition into several parititions.
Just like ALTER TABLE ... MERGE PARTITIONS ... command, new patitions are
created using createPartitionTable() function with parent partition as the
template.

This commit comprises quite naive implementation which works in single process
and holds the ACCESS EXCLUSIVE LOCK on the parent table during all the
operations including the tuple routing.  This is why this new DDL command
can't be recommended for large partitioned tables under a high load.  However,
this implementation come in handy in certain cases even as is.
Also, it could be used as a foundation for future implementations with lesser
locking and possibly parallel.

Discussion: https://postgr.es/m/c73a1746-0cd0-6bdd-6b23-3ae0b7c0c582%40postgrespro.ru
Author: Dmitry Koval
Reviewed-by: Matthias van de Meent, Laurenz Albe, Zhihong Yu, Justin Pryzby
Reviewed-by: Alvaro Herrera, Robert Haas, Stephane Tachoires

Fixes (summary information).
Authors: Alexander Korotkov, Tender Wang, Richard Guo, Dagfinn Ilmari Mannsaker
Authors: Fujii Masao
Reviewed-by: Alexander Korotkov, Robert Haas, Justin Pryzby, Pavel Borisov
Reviewed-by: Masahiko Sawada
Reported-by: Alexander Lakhin, Justin Pryzby, Kyotaro Horiguchi
Reported-by: Daniel Gustafsson, Tom Lane, Noah Misch
---
 doc/src/sgml/ddl.sgml                         |   19 +
 doc/src/sgml/ref/alter_table.sgml             |   95 +-
 src/backend/commands/tablecmds.c              |  465 +++++
 src/backend/parser/gram.y                     |   38 +-
 src/backend/parser/parse_utilcmd.c            |   65 +-
 src/backend/partitioning/partbounds.c         |  684 ++++++-
 src/backend/utils/adt/ruleutils.c             |   18 +
 src/bin/psql/tab-complete.in.c                |   10 +-
 src/include/nodes/parsenodes.h                |   16 +-
 src/include/parser/kwlist.h                   |    1 +
 src/include/partitioning/partbounds.h         |    4 +
 src/include/utils/ruleutils.h                 |    2 +
 .../isolation/expected/partition-split.out    |  190 ++
 src/test/isolation/isolation_schedule         |    1 +
 src/test/isolation/specs/partition-split.spec |   54 +
 .../test_ddl_deparse/test_ddl_deparse.c       |    3 +
 src/test/regress/expected/partition_split.out | 1655 +++++++++++++++++
 src/test/regress/parallel_schedule            |    2 +-
 src/test/regress/sql/partition_split.sql      | 1148 ++++++++++++
 src/tools/pgindent/typedefs.list              |    2 +
 20 files changed, 4448 insertions(+), 24 deletions(-)
 create mode 100644 src/test/isolation/expected/partition-split.out
 create mode 100644 src/test/isolation/specs/partition-split.spec
 create mode 100644 src/test/regress/expected/partition_split.out
 create mode 100644 src/test/regress/sql/partition_split.sql

diff --git a/doc/src/sgml/ddl.sgml b/doc/src/sgml/ddl.sgml
index 62c2bb54ea..41e477eddf 100644
--- a/doc/src/sgml/ddl.sgml
+++ b/doc/src/sgml/ddl.sgml
@@ -4461,6 +4461,25 @@ ALTER TABLE measurement
                       measurement_y2006m03) INTO measurement_y2006q1;
 </programlisting>
     </para>
+
+    <para>
+     Similarly to merging multiple table partitions, there is an option for
+     splitting a single partition into multiple using the
+     <link linkend="sql-altertable-split-partition"><command>ALTER TABLE ... SPLIT PARTITION</command></link>.
+     This feature could come in handy when one partition grows too big
+     and needs to be split into multiple.  It's important to note that
+     this operation is not supported for hash-partitioned tables and acquires
+     an <literal>ACCESS EXCLUSIVE</literal> lock, which could impact high-load
+     systems due to the lock's restrictive nature.  For example, we can split
+     the quarter partition back to monthly partitions:
+<programlisting>
+ALTER TABLE measurement SPLIT PARTITION measurement_y2006q1 INTO
+   (PARTITION measurement_y2006m01 FOR VALUES FROM ('2006-01-01') TO ('2006-02-01'),
+    PARTITION measurement_y2006m02 FOR VALUES FROM ('2006-02-01') TO ('2006-03-01'),
+    PARTITION measurement_y2006m03 FOR VALUES FROM ('2006-03-01') TO ('2006-04-01'));
+</programlisting>
+    </para>
+
    </sect3>
 
    <sect3 id="ddl-partitioning-declarative-limitations">
diff --git a/doc/src/sgml/ref/alter_table.sgml b/doc/src/sgml/ref/alter_table.sgml
index dd429c12b1..7b143c6585 100644
--- a/doc/src/sgml/ref/alter_table.sgml
+++ b/doc/src/sgml/ref/alter_table.sgml
@@ -39,6 +39,10 @@ ALTER TABLE [ IF EXISTS ] <replaceable class="parameter">name</replaceable>
     DETACH PARTITION <replaceable class="parameter">partition_name</replaceable> [ CONCURRENTLY | FINALIZE ]
 ALTER TABLE [ IF EXISTS ] <replaceable class="parameter">name</replaceable>
     MERGE PARTITIONS (<replaceable class="parameter">partition_name1</replaceable>, <replaceable class="parameter">partition_name2</replaceable> [, ...]) INTO <replaceable class="parameter">partition_name</replaceable>
+ALTER TABLE [ IF EXISTS ] <replaceable class="parameter">name</replaceable>
+    SPLIT PARTITION <replaceable class="parameter">partition_name</replaceable> INTO
+        (PARTITION <replaceable class="parameter">partition_name1</replaceable> { FOR VALUES <replaceable class="parameter">partition_bound_spec</replaceable> | DEFAULT },
+         PARTITION <replaceable class="parameter">partition_name2</replaceable> { FOR VALUES <replaceable class="parameter">partition_bound_spec</replaceable> | DEFAULT } [, ...])
 
 <phrase>where <replaceable class="parameter">action</replaceable> is one of:</phrase>
 
@@ -1149,6 +1153,71 @@ WITH ( MODULUS <replaceable class="parameter">numeric_literal</replaceable>, REM
     </listitem>
    </varlistentry>
 
+   <varlistentry id="sql-altertable-split-partition">
+    <term><literal>SPLIT PARTITION <replaceable class="parameter">partition_name</replaceable> INTO (PARTITION <replaceable class="parameter">partition_name1</replaceable> { FOR VALUES <replaceable class="parameter">partition_bound_spec</replaceable> | DEFAULT }, PARTITION <replaceable class="parameter">partition_name2</replaceable> { FOR VALUES <replaceable class="parameter">partition_bound_spec</replaceable> | DEFAULT } [, ...])</literal></term>
+
+    <listitem>
+     <para>
+      This form splits a single partition of the target table into a new
+      partitions. Hash-partitioned target table is not supported. Bounds of new
+      partitions should not overlap with new and existing partitions
+      (except <replaceable class="parameter">partition_name</replaceable>).
+      If the split partition is a <literal>DEFAULT</literal> partition, one of
+      the new partitions must be <literal>DEFAULT</literal>.
+      In case one of the new partitions or one of existing partitions is
+      <literal>DEFAULT</literal>, new partitions <replaceable class="parameter">partition_name1</replaceable>,
+      <replaceable class="parameter">partition_name2</replaceable>, ... can
+      have spaces between partitions bounds.  If the partitioned table does not
+      have a <literal>DEFAULT</literal> partition, the <literal>DEFAULT</literal>
+      partition can be defined as one of the new partitions.
+     </para>
+     <para>
+      In case new partitions do not contain a <literal>DEFAULT</literal>
+      partition and the partitioned table does not have a <literal>DEFAULT</literal>
+      partition, the following must be true: sum bounds of new partitions
+      <replaceable class="parameter">partition_name1</replaceable>,
+      <replaceable class="parameter">partition_name2</replaceable>, ... should
+      be equal to bound of split partition <replaceable class="parameter">partition_name</replaceable>.
+      One of the new partitions <replaceable class="parameter">partition_name1</replaceable>,
+      <replaceable class="parameter">partition_name2</replaceable>, ... can have
+      the same name as split partition <replaceable class="parameter">partition_name</replaceable>
+      (this is suitable in case of splitting a <literal>DEFAULT</literal>
+      partition: we split it, but after splitting we have a partition with the
+      same name).  Only simple, non-partitioned partition can be split.
+     </para>
+     <para>
+      New partitions will have the same owner as the parent partition.
+      It is the user's responsibility to setup <acronym>ACL</acronym> on new
+      partitions.
+     </para>
+     <para>
+      The indexes and identity are created later, after moving the data
+      into the new partitions.
+      Extended statistics aren't copied from the parent table, for consistency with
+      <command>CREATE TABLE PARTITION OF</command>.
+      New partitions will inherit the same table access method, persistence
+      type, and tablespace as the parent table.
+     </para>
+     <para>
+      When partition is split, any individual objects belonging to this
+      partition, such as constraints or statistics will be dropped. This ccurs
+      because <command>ALTER TABLE SPLIT PARTITION</command> uses the partitioned table itself
+      as the template to define these objects.
+     </para>
+     <para>
+      If split partition has some objects dependent on it, the command can
+      not be done (<literal>CASCADE</literal> is not used, an error will be returned).
+     </para>
+     <note>
+      <para>
+       Split partition acquires a <literal>ACCESS EXCLUSIVE</literal> lock on
+       the parent table, in addition to the <literal>ACCESS EXCLUSIVE</literal>
+       lock on the table being split.
+      </para>
+     </note>
+    </listitem>
+   </varlistentry>
+
    <varlistentry id="sql-altertable-merge-partitions">
     <term><literal>MERGE PARTITIONS (<replaceable class="parameter">partition_name1</replaceable>, <replaceable class="parameter">partition_name2</replaceable> [, ...]) INTO <replaceable class="parameter">partition_name</replaceable></literal></term>
 
@@ -1243,7 +1312,8 @@ WITH ( MODULUS <replaceable class="parameter">numeric_literal</replaceable>, REM
    All the forms of <command>ALTER TABLE</command> that act on a single table,
    except <literal>RENAME</literal>, <literal>SET SCHEMA</literal>,
    <literal>ATTACH PARTITION</literal>, <literal>DETACH PARTITION</literal>,
-   and <literal>MERGE PARTITIONS</literal> can be combined into
+   <literal>SPLIT PARTITION</literal>, and <literal>MERGE PARTITIONS</literal>
+   can be combined into
    a list of multiple alterations to be applied together.  For example, it
    is possible to add several columns and/or alter the type of several
    columns in a single command.  This is particularly useful with large
@@ -1487,7 +1557,7 @@ WITH ( MODULUS <replaceable class="parameter">numeric_literal</replaceable>, REM
       <listitem>
        <para>
         The name of the table to attach as a new partition or to detach from this table,
-        or the name of the new merged partition.
+        or the name of split partition, or the name of the new merged partition.
        </para>
       </listitem>
      </varlistentry>
@@ -1497,7 +1567,8 @@ WITH ( MODULUS <replaceable class="parameter">numeric_literal</replaceable>, REM
       <term><replaceable class="parameter">partition_name2</replaceable></term>
       <listitem>
        <para>
-        The names of the tables being merged into the new partition.
+        The names of the tables being merged into the new partition or split into
+        new partitions.
        </para>
       </listitem>
      </varlistentry>
@@ -1930,6 +2001,24 @@ ALTER TABLE measurement
     DETACH PARTITION measurement_y2015m12;
 </programlisting></para>
 
+  <para>
+   To split a single partition of the range-partitioned table:
+<programlisting>
+ALTER TABLE sales_range SPLIT PARTITION sales_feb_mar_apr2023 INTO
+   (PARTITION sales_feb2023 FOR VALUES FROM ('2023-02-01') TO ('2023-03-01'),
+    PARTITION sales_mar2023 FOR VALUES FROM ('2023-03-01') TO ('2023-04-01'),
+    PARTITION sales_apr2023 FOR VALUES FROM ('2023-04-01') TO ('2023-05-01'));
+</programlisting></para>
+
+  <para>
+   To split a single partition of the list-partitioned table:
+<programlisting>
+ALTER TABLE sales_list SPLIT PARTITION sales_all INTO
+   (PARTITION sales_west FOR VALUES IN ('Lisbon', 'New York', 'Madrid'),
+    PARTITION sales_east FOR VALUES IN ('Bejing', 'Delhi', 'Vladivostok'),
+    PARTITION sales_central FOR VALUES IN ('Warsaw', 'Berlin', 'Kyiv'));
+</programlisting></para>
+
   <para>
    To merge several partitions into one partition of the target table:
 <programlisting>
diff --git a/src/backend/commands/tablecmds.c b/src/backend/commands/tablecmds.c
index 34858ab509..de73540334 100644
--- a/src/backend/commands/tablecmds.c
+++ b/src/backend/commands/tablecmds.c
@@ -742,6 +742,9 @@ static char GetAttributeStorage(Oid atttypid, const char *storagemode);
 
 static void ATExecMergePartitions(List **wqueue, AlteredTableInfo *tab, Relation rel,
 								  PartitionCmd *cmd, AlterTableUtilityContext *context);
+static void ATExecSplitPartition(List **wqueue, AlteredTableInfo *tab,
+								 Relation rel, PartitionCmd *cmd,
+								 AlterTableUtilityContext *context);
 
 /* ----------------------------------------------------------------
  *		DefineRelation
@@ -4840,6 +4843,10 @@ AlterTableGetLockLevel(List *cmds)
 				cmd_lockmode = AccessExclusiveLock;
 				break;
 
+			case AT_SplitPartition:
+				cmd_lockmode = AccessExclusiveLock;
+				break;
+
 			default:			/* oops */
 				elog(ERROR, "unrecognized alter table type: %d",
 					 (int) cmd->subtype);
@@ -5280,6 +5287,11 @@ ATPrepCmd(List **wqueue, Relation rel, AlterTableCmd *cmd,
 			/* No command-specific prep needed */
 			pass = AT_PASS_MISC;
 			break;
+		case AT_SplitPartition:
+			ATSimplePermissions(cmd->subtype, rel, ATT_PARTITIONED_TABLE);
+			/* No command-specific prep needed */
+			pass = AT_PASS_MISC;
+			break;
 		default:				/* oops */
 			elog(ERROR, "unrecognized alter table type: %d",
 				 (int) cmd->subtype);
@@ -5684,6 +5696,14 @@ ATExecCmd(List **wqueue, AlteredTableInfo *tab,
 			ATExecMergePartitions(wqueue, tab, rel, (PartitionCmd *) cmd->def,
 								  context);
 			break;
+		case AT_SplitPartition:
+			cmd = ATParseTransformCmd(wqueue, tab, rel, cmd, false, lockmode,
+									  cur_pass, context);
+			Assert(cmd != NULL);
+			Assert(rel->rd_rel->relkind == RELKIND_PARTITIONED_TABLE);
+			ATExecSplitPartition(wqueue, tab, rel, (PartitionCmd *) cmd->def,
+								 context);
+			break;
 		default:				/* oops */
 			elog(ERROR, "unrecognized alter table type: %d",
 				 (int) cmd->subtype);
@@ -6726,6 +6746,8 @@ alter_table_type_to_string(AlterTableType cmdtype)
 			return "DETACH PARTITION ... FINALIZE";
 		case AT_MergePartitions:
 			return "MERGE PARTITIONS";
+		case AT_SplitPartition:
+			return "SPLIT PARTITION";
 		case AT_AddIdentity:
 			return "ALTER COLUMN ... ADD IDENTITY";
 		case AT_SetIdentity:
@@ -22909,3 +22931,446 @@ ATExecMergePartitions(List **wqueue, AlteredTableInfo *tab, Relation rel,
 	/* Restore userid and security context. */
 	SetUserIdAndSecContext(save_userid, save_sec_context);
 }
+
+
+/*
+ * Struct with context of new partition for inserting rows from split partition
+ */
+typedef struct SplitPartitionContext
+{
+	ExprState  *partqualstate;	/* expression for checking slot for partition
+								 * (NULL for DEFAULT partition) */
+	BulkInsertState bistate;	/* state of bulk inserts for partition */
+	TupleTableSlot *dstslot;	/* slot for inserting row into partition */
+	AlteredTableInfo *tab;		/* structore with generated column expressions
+								 * and check constraint expresssions. */
+	Relation	partRel;		/* relation for partition */
+} SplitPartitionContext;
+
+/*
+ * createSplitPartitionContext: create context for partition and fill it
+ */
+static SplitPartitionContext *
+createSplitPartitionContext(Relation partRel)
+{
+	SplitPartitionContext *pc;
+
+	pc = (SplitPartitionContext *) palloc0(sizeof(SplitPartitionContext));
+	pc->partRel = partRel;
+
+	/*
+	 * Prepare a BulkInsertState for table_tuple_insert. The FSM is empty, so
+	 * don't bother using it.
+	 */
+	pc->bistate = GetBulkInsertState();
+
+	/* Create tuple slot for new partition. */
+	pc->dstslot = table_slot_create(pc->partRel, NULL);
+
+	return pc;
+}
+
+/*
+ * deleteSplitPartitionContext: delete context for partition
+ */
+static void
+deleteSplitPartitionContext(SplitPartitionContext *pc, List **wqueue, int ti_options)
+{
+	ListCell   *ltab;
+
+	ExecDropSingleTupleTableSlot(pc->dstslot);
+	FreeBulkInsertState(pc->bistate);
+
+	table_finish_bulk_insert(pc->partRel, ti_options);
+
+	/*
+	 * We don't need process this pc->partRel so delete the ALTER TABLE queue
+	 * of it.
+	 */
+	foreach(ltab, *wqueue)
+	{
+		AlteredTableInfo *tab = (AlteredTableInfo *) lfirst(ltab);
+		if (tab->relid == RelationGetRelid(pc->partRel))
+			*wqueue = list_delete_cell(*wqueue, ltab);
+	}
+
+	pfree(pc);
+}
+
+/*
+ * SplitPartitionMoveRows: scan split partition (splitRel) of partitioned table
+ * (rel) and move rows into new partitions.
+ *
+ * New partitions description:
+ * partlist: list of pointers to SinglePartitionSpec structures.
+ * newPartRels: list of Relations.
+ * defaultPartOid: oid of DEFAULT partition, for table rel.
+ */
+static void
+SplitPartitionMoveRows(List **wqueue, Relation rel, Relation splitRel,
+					   List *partlist, List *newPartRels, Oid defaultPartOid)
+{
+	/* The FSM is empty, so don't bother using it. */
+	int			ti_options = TABLE_INSERT_SKIP_FSM;
+	CommandId	mycid;
+	EState	   *estate;
+	ListCell   *listptr,
+			   *listptr2;
+	TupleTableSlot *srcslot;
+	ExprContext *econtext;
+	TableScanDesc scan;
+	Snapshot	snapshot;
+	MemoryContext oldCxt;
+	List	   *partContexts = NIL;
+	TupleConversionMap *tuple_map;
+	SplitPartitionContext *defaultPartCtx = NULL,
+			   *pc;
+	bool		isOldDefaultPart = false;
+
+	mycid = GetCurrentCommandId(true);
+
+	estate = CreateExecutorState();
+
+	forboth(listptr, partlist, listptr2, newPartRels)
+	{
+		SinglePartitionSpec *sps = (SinglePartitionSpec *) lfirst(listptr);
+
+		pc = createSplitPartitionContext((Relation) lfirst(listptr2));
+
+		/* Find the work queue entry for new partition table: newPartRel. */
+		pc->tab = ATGetQueueEntry(wqueue, pc->partRel);
+
+		buildExpressionExecutionStates(pc->tab, pc->partRel, estate);
+
+		if (sps->bound->is_default)
+		{
+			/* We should not create constraint for detached DEFAULT partition. */
+			defaultPartCtx = pc;
+		}
+		else
+		{
+			List	   *partConstraint;
+
+			/* Build expression execution states for partition check quals. */
+			partConstraint = get_qual_from_partbound(rel, sps->bound);
+			partConstraint =
+				(List *) eval_const_expressions(NULL,
+												(Node *) partConstraint);
+			/* Make boolean expression for ExecCheck(). */
+			partConstraint = list_make1(make_ands_explicit(partConstraint));
+
+			/*
+			 * Map the vars in the constraint expression from rel's attnos to
+			 * splitRel's.
+			 */
+			partConstraint = map_partition_varattnos(partConstraint,
+													 1, splitRel, rel);
+
+			pc->partqualstate =
+				ExecPrepareExpr((Expr *) linitial(partConstraint), estate);
+			Assert(pc->partqualstate != NULL);
+		}
+
+		/* Store partition context into list. */
+		partContexts = lappend(partContexts, pc);
+	}
+
+	/*
+	 * Create partition context for DEFAULT partition. We can insert values
+	 * into this partition in case spaces with values between new partitions.
+	 */
+	if (!defaultPartCtx && OidIsValid(defaultPartOid))
+	{
+		/* Indicate that we allocate context for old DEFAULT partition */
+		isOldDefaultPart = true;
+		defaultPartCtx = createSplitPartitionContext(table_open(defaultPartOid, AccessExclusiveLock));
+
+		/* Find the work queue entry for default partition table. */
+		defaultPartCtx->tab = ATGetQueueEntry(wqueue, defaultPartCtx->partRel);
+	}
+
+	econtext = GetPerTupleExprContext(estate);
+
+	/* Create necessary tuple slot. */
+	srcslot = table_slot_create(splitRel, NULL);
+
+	/*
+	 * Map computing for moving attributes of split partition to new partition
+	 * (for first new partition, but other new partitions can use the same
+	 * map).
+	 */
+	pc = (SplitPartitionContext *) lfirst(list_head(partContexts));
+	tuple_map = convert_tuples_by_name(RelationGetDescr(splitRel),
+									   RelationGetDescr(pc->partRel));
+
+	/* Scan through the rows. */
+	snapshot = RegisterSnapshot(GetLatestSnapshot());
+	scan = table_beginscan(splitRel, snapshot, 0, NULL);
+
+	/*
+	 * Switch to per-tuple memory context and reset it for each tuple
+	 * produced, so we don't leak memory.
+	 */
+	oldCxt = MemoryContextSwitchTo(GetPerTupleMemoryContext(estate));
+
+	while (table_scan_getnextslot(scan, ForwardScanDirection, srcslot))
+	{
+		bool		found = false;
+		TupleTableSlot *insertslot;
+
+		CHECK_FOR_INTERRUPTS();
+
+		econtext->ecxt_scantuple = srcslot;
+
+		/* Search partition for current slot srcslot. */
+		foreach(listptr, partContexts)
+		{
+			pc = (SplitPartitionContext *) lfirst(listptr);
+
+			if (pc->partqualstate /* skip DEFAULT partition */ &&
+				ExecCheck(pc->partqualstate, econtext))
+			{
+				found = true;
+				break;
+			}
+			ResetExprContext(econtext);
+		}
+		if (!found)
+		{
+			/* Use DEFAULT partition if it exists. */
+			if (defaultPartCtx)
+				pc = defaultPartCtx;
+			else
+				ereport(ERROR,
+						errcode(ERRCODE_CHECK_VIOLATION),
+						errmsg("can not find partition for split partition row"),
+						errtable(splitRel));
+		}
+
+		if (tuple_map)
+		{
+			/* Need to use map to copy attributes. */
+			insertslot = execute_attr_map_slot(tuple_map->attrMap, srcslot, pc->dstslot);
+		}
+		else
+		{
+			/* Extract data from old tuple. */
+			slot_getallattrs(srcslot);
+
+			/* Copy attributes directly. */
+			insertslot = pc->dstslot;
+
+			ExecClearTuple(insertslot);
+
+			memcpy(insertslot->tts_values, srcslot->tts_values,
+				   sizeof(Datum) * srcslot->tts_nvalid);
+			memcpy(insertslot->tts_isnull, srcslot->tts_isnull,
+				   sizeof(bool) * srcslot->tts_nvalid);
+
+			ExecStoreVirtualTuple(insertslot);
+		}
+
+		/*
+		 * Constraints and GENERATED expressions might reference the tableoid
+		 * column, so fill tts_tableOid with the desired value. (We must do
+		 * this each time, because it gets overwritten with newrel's OID during
+		 * storing.)
+		 */
+		insertslot->tts_tableOid = RelationGetRelid(pc->partRel);
+
+		/*
+		 * Now, evaluate any generated expressions whose inputs come from
+		 * the new tuple.  We assume these columns won't reference each
+		 * other, so that there's no ordering dependency.
+		 */
+		evaluateGeneratedExpressionsAndCheckConstraints(pc->tab, pc->partRel,
+														insertslot, econtext);
+
+		/* Write the tuple out to the new relation. */
+		table_tuple_insert(pc->partRel, insertslot, mycid,
+						   ti_options, pc->bistate);
+
+		ResetExprContext(econtext);
+	}
+
+	MemoryContextSwitchTo(oldCxt);
+
+	table_endscan(scan);
+	UnregisterSnapshot(snapshot);
+
+	if (tuple_map)
+		free_conversion_map(tuple_map);
+
+	ExecDropSingleTupleTableSlot(srcslot);
+
+	FreeExecutorState(estate);
+
+	foreach_ptr(SplitPartitionContext, spc, partContexts)
+		deleteSplitPartitionContext(spc, wqueue, ti_options);
+
+	/* Need to close table and free buffers for DEFAULT partition. */
+	if (isOldDefaultPart)
+	{
+		Relation	defaultPartRel = defaultPartCtx->partRel;
+
+		deleteSplitPartitionContext(defaultPartCtx, wqueue, ti_options);
+		/* Keep the lock until commit. */
+		table_close(defaultPartRel, NoLock);
+	}
+}
+
+/*
+ * ALTER TABLE <name> SPLIT PARTITION <partition-name> INTO <partition-list>
+ */
+static void
+ATExecSplitPartition(List **wqueue, AlteredTableInfo *tab, Relation rel,
+					 PartitionCmd *cmd, AlterTableUtilityContext *context)
+{
+	Relation	splitRel;
+	Oid			splitRelOid;
+	char		relname[NAMEDATALEN];
+	ListCell   *listptr,
+			   *listptr2;
+	bool		isSameName = false;
+	char		tmpRelName[NAMEDATALEN];
+	List	   *newPartRels = NIL;
+	ObjectAddress object;
+	Oid			defaultPartOid;
+	Oid			save_userid;
+	int			save_sec_context;
+	int			save_nestlevel;
+
+	defaultPartOid = get_default_oid_from_partdesc(RelationGetPartitionDesc(rel, true));
+
+	/*
+	 * Partition is already locked in the transformPartitionCmdForSplit
+	 * function.
+	 */
+	splitRel = table_openrv(cmd->name, NoLock);
+
+	splitRelOid = RelationGetRelid(splitRel);
+
+	/* Check descriptions of new partitions. */
+	foreach_node(SinglePartitionSpec, sps, cmd->partlist)
+	{
+		Oid			existingRelid;
+
+		strlcpy(relname, sps->name->relname, NAMEDATALEN);
+
+		/*
+		 * Look up existing relation by new partition name, check we have
+		 * permission to create there, lock it against concurrent drop, and mark
+		 * stmt->relation as RELPERSISTENCE_TEMP if a temporary namespace is
+		 * selected.
+		 */
+		sps->name->relpersistence = rel->rd_rel->relpersistence;
+		RangeVarGetAndCheckCreationNamespace(sps->name, NoLock, &existingRelid);
+
+		/*
+		 * This would fail later on anyway if the relation already exists. But
+		 * by catching it here we can emit a nicer error message.
+		 */
+		if (existingRelid == splitRelOid && !isSameName)
+			/* One new partition can have the same name as split partition. */
+			isSameName = true;
+		else if (OidIsValid(existingRelid))
+			ereport(ERROR,
+					errcode(ERRCODE_DUPLICATE_TABLE),
+					errmsg("relation \"%s\" already exists", relname));
+	}
+
+	/* Detach split partition. */
+	detachPartitionTable(rel, splitRel, defaultPartOid);
+
+	/*
+	 * Perform a preliminary check to determine whether it's safe to drop all
+	 * merging partitions before we actually do so later. After merging rows
+	 * into the new partitions via SplitPartitionMoveRows, all old partitions
+	 * need be dropped. However, since the drop behavior is DROP_RESTRICT and
+	 * the merge process (SplitPartitionMoveRows) can be time-consuming,
+	 * performing an early check on the drop eligibility of old partitions is
+	 * preferable.
+	 */
+	object.objectId = splitRelOid;
+	object.classId = RelationRelationId;
+	object.objectSubId = 0;
+	performDeletionCheck(&object, DROP_RESTRICT, PERFORM_DELETION_INTERNAL);
+
+	/*
+	 * If new partition has the same name as split partition then we should
+	 * rename split partition for reusing name.
+	 */
+	if (isSameName)
+	{
+		/*
+		 * We must bump the command counter to make the split partition tuple
+		 * visible for renaming.
+		 */
+		CommandCounterIncrement();
+		/* Rename partition. */
+		sprintf(tmpRelName, "split-%u-%X-tmp", RelationGetRelid(rel), MyProcPid);
+		RenameRelationInternal(splitRelOid, tmpRelName, true, false);
+
+		/*
+		 * We must bump the command counter to make the split partition tuple
+		 * visible after renaming.
+		 */
+		CommandCounterIncrement();
+	}
+
+	/* Create new partitions (like split partition), without indexes. */
+	foreach_node(SinglePartitionSpec, sps, cmd->partlist)
+	{
+		Relation	newPartRel;
+
+		newPartRel = createPartitionTable(wqueue, sps->name, rel,
+										  splitRel->rd_rel->relowner);
+		newPartRels = lappend(newPartRels, newPartRel);
+	}
+
+	/*
+	 * Switch to the table owner's userid, so that any index functions are run
+	 * as that user.  Also lock down security-restricted operations and
+	 * arrange to make GUC variable changes local to this command.
+	 *
+	 * Need to do it after determine namespace in createPartitionTable call.
+	 */
+	GetUserIdAndSecContext(&save_userid, &save_sec_context);
+	SetUserIdAndSecContext(splitRel->rd_rel->relowner,
+						   save_sec_context | SECURITY_RESTRICTED_OPERATION);
+	save_nestlevel = NewGUCNestLevel();
+	RestrictSearchPath();
+
+	/* Copy data from split partition to new partitions. */
+	SplitPartitionMoveRows(wqueue, rel, splitRel, cmd->partlist, newPartRels, defaultPartOid);
+	/* Keep the lock until commit. */
+	table_close(splitRel, NoLock);
+
+	/* Attach new partitions to partitioned table. */
+	forboth(listptr, cmd->partlist, listptr2, newPartRels)
+	{
+		SinglePartitionSpec *sps = (SinglePartitionSpec *) lfirst(listptr);
+		Relation	newPartRel = (Relation) lfirst(listptr2);
+
+		/*
+		 * wqueue = NULL: verification for each cloned constraint is not
+		 * needed.
+		 */
+		attachPartitionTable(NULL, rel, newPartRel, sps->bound);
+		/* Keep the lock until commit. */
+		table_close(newPartRel, NoLock);
+	}
+
+	/* Drop split partition. */
+	object.classId = RelationRelationId;
+	object.objectId = splitRelOid;
+	object.objectSubId = 0;
+	/* Probably DROP_CASCADE is not needed. */
+	performDeletion(&object, DROP_RESTRICT, 0);
+
+	/* Roll back any GUC changes executed by index functions. */
+	AtEOXact_GUC(false, save_nestlevel);
+
+	/* Restore userid and security context. */
+	SetUserIdAndSecContext(save_userid, save_sec_context);
+}
diff --git a/src/backend/parser/gram.y b/src/backend/parser/gram.y
index 46bbdcbc74..aed79b63da 100644
--- a/src/backend/parser/gram.y
+++ b/src/backend/parser/gram.y
@@ -257,6 +257,7 @@ static Node *makeRecursiveViewSelect(char *relname, List *aliases, Node *query);
 	PartitionElem *partelem;
 	PartitionSpec *partspec;
 	PartitionBoundSpec *partboundspec;
+	SinglePartitionSpec *singlepartspec;
 	RoleSpec   *rolespec;
 	PublicationObjSpec *publicationobjectspec;
 	struct SelectLimit *selectlimit;
@@ -640,6 +641,8 @@ static Node *makeRecursiveViewSelect(char *relname, List *aliases, Node *query);
 %type <partelem>	part_elem
 %type <list>		part_params
 %type <partboundspec> PartitionBoundSpec
+%type <singlepartspec>	SinglePartitionSpec
+%type <list>		partitions_list
 %type <list>		hash_partbound
 %type <defelt>		hash_partbound_elem
 
@@ -770,7 +773,7 @@ static Node *makeRecursiveViewSelect(char *relname, List *aliases, Node *query);
 	SAVEPOINT SCALAR SCHEMA SCHEMAS SCROLL SEARCH SECOND_P SECURITY SELECT
 	SEQUENCE SEQUENCES
 	SERIALIZABLE SERVER SESSION SESSION_USER SET SETS SETOF SHARE SHOW
-	SIMILAR SIMPLE SKIP SMALLINT SNAPSHOT SOME SOURCE SQL_P STABLE STANDALONE_P
+	SIMILAR SIMPLE SKIP SMALLINT SNAPSHOT SOME SPLIT SOURCE SQL_P STABLE STANDALONE_P
 	START STATEMENT STATISTICS STDIN STDOUT STORAGE STORED STRICT_P STRING_P STRIP_P
 	SUBSCRIPTION SUBSTRING SUPPORT SYMMETRIC SYSID SYSTEM_P SYSTEM_USER
 
@@ -2321,6 +2324,23 @@ alter_table_cmds:
 			| alter_table_cmds ',' alter_table_cmd	{ $$ = lappend($1, $3); }
 		;
 
+partitions_list:
+			SinglePartitionSpec							{ $$ = list_make1($1); }
+			| partitions_list ',' SinglePartitionSpec	{ $$ = lappend($1, $3); }
+		;
+
+SinglePartitionSpec:
+			PARTITION qualified_name PartitionBoundSpec
+				{
+					SinglePartitionSpec *n = makeNode(SinglePartitionSpec);
+
+					n->name = $2;
+					n->bound = $3;
+
+					$$ = n;
+				}
+		;
+
 partition_cmd:
 			/* ALTER TABLE <name> ATTACH PARTITION <table_name> FOR VALUES */
 			ATTACH PARTITION qualified_name PartitionBoundSpec
@@ -2365,6 +2385,20 @@ partition_cmd:
 					n->def = (Node *) cmd;
 					$$ = (Node *) n;
 				}
+			/* ALTER TABLE <name> SPLIT PARTITION <partition_name> INTO () */
+			| SPLIT PARTITION qualified_name INTO '(' partitions_list ')'
+				{
+					AlterTableCmd *n = makeNode(AlterTableCmd);
+					PartitionCmd *cmd = makeNode(PartitionCmd);
+
+					n->subtype = AT_SplitPartition;
+					cmd->name = $3;
+					cmd->bound = NULL;
+					cmd->partlist = $6;
+					cmd->concurrent = false;
+					n->def = (Node *) cmd;
+					$$ = (Node *) n;
+				}
 			/* ALTER TABLE <name> MERGE PARTITIONS () INTO <partition_name> */
 			| MERGE PARTITIONS '(' qualified_name_list ')' INTO qualified_name
 				{
@@ -17963,6 +17997,7 @@ unreserved_keyword:
 			| SKIP
 			| SNAPSHOT
 			| SOURCE
+			| SPLIT
 			| SQL_P
 			| STABLE
 			| STANDALONE_P
@@ -18603,6 +18638,7 @@ bare_label_keyword:
 			| SNAPSHOT
 			| SOME
 			| SOURCE
+			| SPLIT
 			| SQL_P
 			| STABLE
 			| STANDALONE_P
diff --git a/src/backend/parser/parse_utilcmd.c b/src/backend/parser/parse_utilcmd.c
index f55ad17528..73315efac8 100644
--- a/src/backend/parser/parse_utilcmd.c
+++ b/src/backend/parser/parse_utilcmd.c
@@ -137,7 +137,7 @@ static void transformConstraintAttrs(CreateStmtContext *cxt,
 									 List *constraintList);
 static void transformColumnType(CreateStmtContext *cxt, ColumnDef *column);
 static void setSchemaName(const char *context_schema, char **stmt_schema_name);
-static void transformPartitionCmd(CreateStmtContext *cxt, PartitionCmd *cmd);
+static void transformPartitionCmd(CreateStmtContext *cxt, PartitionBoundSpec *bound);
 static List *transformPartitionRangeBounds(ParseState *pstate, List *blist,
 										   Relation parent);
 static void validateInfiniteBounds(ParseState *pstate, List *blist);
@@ -3526,6 +3526,46 @@ checkPartition(Relation rel, Oid partRelOid)
 	table_close(partRel, NoLock);
 }
 
+/*
+ * transformPartitionCmdForSplit
+ *		Analyze the ALTER TABLE ... SPLIT PARTITION command
+ *
+ * For each new partition sps->bound is set to the transformed value of bound.
+ * Does checks for bounds of new partitions.
+ */
+static void
+transformPartitionCmdForSplit(CreateStmtContext *cxt, PartitionCmd *partcmd)
+{
+	Relation	parent = cxt->rel;
+	Oid			splitPartOid;
+
+	/* Transform partition bounds for all partitions in the list: */
+	foreach_node(SinglePartitionSpec, sps, partcmd->partlist)
+	{
+		cxt->partbound = NULL;
+		transformPartitionCmd(cxt, sps->bound);
+		/* Assign transformed value of the partition bound. */
+		sps->bound = cxt->partbound;
+	}
+
+	/*
+	 * Open and lock partition, check ownership along the way. We need to use
+	 * AccessExclusiveLock here, because this split partition will be detached
+	 * then dropped in ATExecSplitPartition.
+	 */
+	splitPartOid = RangeVarGetRelidExtended(partcmd->name,
+											AccessExclusiveLock,
+											false,
+											RangeVarCallbackOwnsRelation,
+											NULL);
+
+	checkPartition(parent, splitPartOid);
+
+	/* Then we should check partitions with transformed bounds. */
+	check_partitions_for_split(parent, splitPartOid, partcmd->partlist, cxt->pstate);
+}
+
+
 /*
  * transformPartitionCmdForMerge
  *		Analyze the ALTER TABLE ... MERGE PARTITIONS command
@@ -3892,7 +3932,7 @@ transformAlterTableStmt(Oid relid, AlterTableStmt *stmt,
 				{
 					PartitionCmd *partcmd = (PartitionCmd *) cmd->def;
 
-					transformPartitionCmd(&cxt, partcmd);
+					transformPartitionCmd(&cxt, partcmd->bound);
 					/* assign transformed value of the partition bound */
 					partcmd->bound = cxt.partbound;
 				}
@@ -3900,6 +3940,7 @@ transformAlterTableStmt(Oid relid, AlterTableStmt *stmt,
 				newcmds = lappend(newcmds, cmd);
 				break;
 
+			case AT_SplitPartition:
 			case AT_MergePartitions:
 				{
 					PartitionCmd *partcmd = (PartitionCmd *) cmd->def;
@@ -3908,7 +3949,11 @@ transformAlterTableStmt(Oid relid, AlterTableStmt *stmt,
 						ereport(ERROR,
 								errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
 								errmsg("list of new partitions should contain at least two items"));
-					transformPartitionCmdForMerge(&cxt, partcmd);
+
+					if (cmd->subtype == AT_SplitPartition)
+						transformPartitionCmdForSplit(&cxt, partcmd);
+					else
+						transformPartitionCmdForMerge(&cxt, partcmd);
 					newcmds = lappend(newcmds, cmd);
 					break;
 				}
@@ -4343,13 +4388,13 @@ setSchemaName(const char *context_schema, char **stmt_schema_name)
 
 /*
  * transformPartitionCmd
- *		Analyze the ATTACH/DETACH PARTITION command
+ *		Analyze the ATTACH/DETACH/SPLIT PARTITION command
  *
- * In case of the ATTACH PARTITION command, cxt->partbound is set to the
- * transformed value of cmd->bound.
+ * In case of the ATTACH/SPLIT PARTITION command, cxt->partbound is set to the
+ * transformed value of bound.
  */
 static void
-transformPartitionCmd(CreateStmtContext *cxt, PartitionCmd *cmd)
+transformPartitionCmd(CreateStmtContext *cxt, PartitionBoundSpec *bound)
 {
 	Relation	parentRel = cxt->rel;
 
@@ -4358,9 +4403,9 @@ transformPartitionCmd(CreateStmtContext *cxt, PartitionCmd *cmd)
 		case RELKIND_PARTITIONED_TABLE:
 			/* transform the partition bound, if any */
 			Assert(RelationGetPartitionKey(parentRel) != NULL);
-			if (cmd->bound != NULL)
+			if (bound != NULL)
 				cxt->partbound = transformPartitionBound(cxt->pstate, parentRel,
-														 cmd->bound);
+														 bound);
 			break;
 		case RELKIND_PARTITIONED_INDEX:
 
@@ -4368,7 +4413,7 @@ transformPartitionCmd(CreateStmtContext *cxt, PartitionCmd *cmd)
 			 * A partitioned index cannot have a partition bound set.  ALTER
 			 * INDEX prevents that with its grammar, but not ALTER TABLE.
 			 */
-			if (cmd->bound != NULL)
+			if (bound != NULL)
 				ereport(ERROR,
 						(errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
 						 errmsg("\"%s\" is not a partitioned table",
diff --git a/src/backend/partitioning/partbounds.c b/src/backend/partitioning/partbounds.c
index ea33c15194..e1c1416b1e 100644
--- a/src/backend/partitioning/partbounds.c
+++ b/src/backend/partitioning/partbounds.c
@@ -4983,15 +4983,21 @@ satisfies_hash_partition(PG_FUNCTION_ARGS)
  *
  * (function for BY RANGE partitioning)
  *
- * This is a helper function for calculate_partition_bound_for_merge().
+ * This is a helper function for check_partitions_for_split() and
+ * calculate_partition_bound_for_merge().
  * This function compares upper bound of first_bound and lower bound of
- * second_bound. These bounds should be equal.
+ * second_bound. These bounds should be equal except when
+ * "defaultPart == true" (this means that one of split partitions is DEFAULT).
+ * In this case upper bound of first_bound can be less than lower bound of
+ * second_bound because space between these bounds will be included in
+ * DEFAULT partition.
  *
  * parent:			partitioned table
  * first_name:		name of first partition
  * first_bound:		bound of first partition
  * second_name:		name of second partition
  * second_bound:	bound of second partition
+ * defaultPart:		true if one of split partitions is DEFAULT
  * pstate:			pointer to ParseState struct for determining error position
  */
 static void
@@ -5000,6 +5006,7 @@ check_two_partitions_bounds_range(Relation parent,
 								  PartitionBoundSpec *first_bound,
 								  RangeVar *second_name,
 								  PartitionBoundSpec *second_bound,
+								  bool defaultPart,
 								  ParseState *pstate)
 {
 	PartitionKey key = RelationGetPartitionKey(parent);
@@ -5021,7 +5028,7 @@ check_two_partitions_bounds_range(Relation parent,
 								  key->partcollation,
 								  second_lower->datums, second_lower->kind,
 								  false, first_upper);
-	if (cmpval)
+	if ((!defaultPart && cmpval) || (defaultPart && cmpval < 0))
 	{
 		PartitionRangeDatum *datum = linitial(second_bound->lowerdatums);
 
@@ -5133,7 +5140,7 @@ calculate_partition_bound_for_merge(Relation parent,
 													  (PartitionBoundSpec *) list_nth(bounds, prev_index),
 													  (RangeVar *) list_nth(partNames, index),
 													  (PartitionBoundSpec *) list_nth(bounds, index),
-													  pstate);
+													  false, pstate);
 				}
 
 				/*
@@ -5171,3 +5178,672 @@ calculate_partition_bound_for_merge(Relation parent,
 				 (int) key->strategy);
 	}
 }
+
+/*
+ * check_partitions_not_overlap_list
+ *
+ * (function for BY LIST partitioning)
+ *
+ * This is a helper function for check_partitions_for_split().
+ * Checks that the values of the new partitions do not overlap.
+ *
+ * parent:	partitioned table
+ * parts:	array of SinglePartitionSpec structs with info about split partitions
+ * nparts:	size of array "parts"
+ */
+static void
+check_partitions_not_overlap_list(Relation parent,
+								  SinglePartitionSpec **parts,
+								  int nparts,
+								  ParseState *pstate)
+{
+	PartitionKey key PG_USED_FOR_ASSERTS_ONLY = RelationGetPartitionKey(parent);
+	int			overlap_location = -1;
+	int			i,
+				j;
+	SinglePartitionSpec *sps1,
+			   *sps2;
+	List	   *overlap;
+
+	Assert(key->strategy == PARTITION_STRATEGY_LIST);
+
+	for (i = 0; i < nparts; i++)
+	{
+		sps1 = parts[i];
+
+		for (j = i + 1; j < nparts; j++)
+		{
+			sps2 = parts[j];
+
+			/*
+			 * Calculate intersection between values of two partitions.
+			 */
+			overlap = list_intersection(sps1->bound->listdatums,
+										sps2->bound->listdatums);
+			if (list_length(overlap) > 0)
+			{
+				Const	   *val = (Const *) lfirst(list_head(overlap));
+
+				overlap_location = val->location;
+				ereport(ERROR,
+						errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
+						errmsg("new partition \"%s\" would overlap with another new partition \"%s\"",
+							   sps1->name->relname, sps2->name->relname),
+						parser_errposition(pstate, overlap_location));
+			}
+		}
+	}
+}
+
+/*
+ * check_partition_bounds_for_split_range
+ *
+ * (function for BY RANGE partitioning)
+ *
+ * Checks that bounds of new partition "spec" are inside bounds of split
+ * partition (with Oid splitPartOid). If first=true (this means that "spec" is
+ * the first of new partitions) then lower bound of "spec" should be equal (or
+ * greater than or equal in case defaultPart=true) to lower bound of split
+ * partition. If last=true (this means that "spec" is the last of new
+ * partitions) then upper bound of "spec" should be equal (or less than or
+ * equal in case defaultPart=true) to upper bound of split partition.
+ *
+ * parent:			partitioned table
+ * relname:			name of the new partition
+ * spec:			bounds specification of the new partition
+ * splitPartOid:	split partition Oid
+ * first:			true in case new partition "spec" is first of new partitions
+ * last:			true in case new partition "spec" is last of new partitions
+ * defaultPart:		true in case partitioned table has DEFAULT partition
+ * pstate:			pointer to ParseState struct for determine error position
+ */
+static void
+check_partition_bounds_for_split_range(Relation parent,
+									   char *relname,
+									   PartitionBoundSpec *spec,
+									   Oid splitPartOid,
+									   bool first,
+									   bool last,
+									   bool defaultPart,
+									   ParseState *pstate)
+{
+	PartitionKey key = RelationGetPartitionKey(parent);
+	PartitionRangeBound *lower,
+			   *upper;
+	int			cmpval;
+
+	Assert(key->strategy == PARTITION_STRATEGY_RANGE);
+	Assert(spec->strategy == PARTITION_STRATEGY_RANGE);
+
+	lower = make_one_partition_rbound(key, -1, spec->lowerdatums, true);
+	upper = make_one_partition_rbound(key, -1, spec->upperdatums, false);
+
+	/*
+	 * First check if the resulting range would be empty with specified lower
+	 * and upper bounds.  partition_rbound_cmp cannot return zero here, since
+	 * the lower-bound flags are different.
+	 */
+	cmpval = partition_rbound_cmp(key->partnatts,
+								  key->partsupfunc,
+								  key->partcollation,
+								  lower->datums, lower->kind,
+								  true, upper);
+	Assert(cmpval != 0);
+	if (cmpval > 0)
+	{
+		/* Point to problematic key in the lower datums list. */
+		PartitionRangeDatum *datum = list_nth(spec->lowerdatums, cmpval - 1);
+
+		ereport(ERROR,
+				errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
+				errmsg("empty range bound specified for partition \"%s\"",
+					   relname),
+				errdetail("Specified lower bound %s is greater than or equal to upper bound %s.",
+						  get_range_partbound_string(spec->lowerdatums),
+						  get_range_partbound_string(spec->upperdatums)),
+				parser_errposition(pstate, datum->location));
+	}
+
+	/* Need to check first and last partitions (from set of new partitions) */
+	if (first || last)
+	{
+		PartitionBoundSpec *split_spec = get_partition_bound_spec(splitPartOid);
+		PartitionRangeDatum *datum;
+
+		if (first)
+		{
+			PartitionRangeBound *split_lower;
+
+			split_lower = make_one_partition_rbound(key, -1, split_spec->lowerdatums, true);
+
+			cmpval = partition_rbound_cmp(key->partnatts,
+										  key->partsupfunc,
+										  key->partcollation,
+										  lower->datums, lower->kind,
+										  true, split_lower);
+
+			/*
+			 * Lower bound of "spec" should be equal (or greater than or equal
+			 * in case defaultPart=true) to lower bound of split partition.
+			 */
+			if (!defaultPart)
+			{
+				if (cmpval != 0)
+				{
+					datum = list_nth(spec->lowerdatums, abs(cmpval) - 1);
+					ereport(ERROR,
+							errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
+							errmsg("lower bound of partition \"%s\" is not equal to lower bound of split partition",
+								   relname),
+							parser_errposition(pstate, datum->location));
+				}
+			}
+			else
+			{
+				if (cmpval < 0)
+				{
+					datum = list_nth(spec->lowerdatums, abs(cmpval) - 1);
+					ereport(ERROR,
+							errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
+							errmsg("lower bound of partition \"%s\" is less than lower bound of split partition",
+								   relname),
+							parser_errposition(pstate, datum->location));
+				}
+			}
+		}
+		else
+		{
+			PartitionRangeBound *split_upper;
+
+			split_upper = make_one_partition_rbound(key, -1, split_spec->upperdatums, false);
+
+			cmpval = partition_rbound_cmp(key->partnatts,
+										  key->partsupfunc,
+										  key->partcollation,
+										  upper->datums, upper->kind,
+										  false, split_upper);
+
+			/*
+			 * Upper bound of "spec" should be equal (or less than or equal in
+			 * case defaultPart=true) to upper bound of split partition.
+			 */
+			if (!defaultPart)
+			{
+				if (cmpval != 0)
+				{
+					datum = list_nth(spec->upperdatums, abs(cmpval) - 1);
+					ereport(ERROR,
+							errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
+							errmsg("upper bound of partition \"%s\" is not equal to upper bound of split partition",
+								   relname),
+							parser_errposition(pstate, datum->location));
+				}
+			}
+			else
+			{
+				if (cmpval > 0)
+				{
+					datum = list_nth(spec->upperdatums, abs(cmpval) - 1);
+					ereport(ERROR,
+							errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
+							errmsg("upper bound of partition \"%s\" is greater than upper bound of split partition",
+								   relname),
+							parser_errposition(pstate, datum->location));
+				}
+			}
+		}
+	}
+}
+
+/*
+ * check_partition_bounds_for_split_list
+ *
+ * (function for BY LIST partitioning)
+ *
+ * Checks that bounds of new partition are inside bounds of split partition
+ * (with Oid splitPartOid).
+ *
+ * parent:			partitioned table
+ * relname:			name of the new partition
+ * spec:			bounds specification of the new partition
+ * splitPartOid:	split partition Oid
+ * pstate:			pointer to ParseState struct for determine error position
+ */
+static void
+check_partition_bounds_for_split_list(Relation parent, char *relname,
+									  PartitionBoundSpec *spec,
+									  Oid splitPartOid,
+									  ParseState *pstate)
+{
+	PartitionKey key = RelationGetPartitionKey(parent);
+	PartitionDesc partdesc = RelationGetPartitionDesc(parent, false);
+	PartitionBoundInfo boundinfo = partdesc->boundinfo;
+	int			with = -1;
+	bool		overlap = false;
+	int			overlap_location = -1;
+
+	Assert(key->strategy == PARTITION_STRATEGY_LIST);
+	Assert(spec->strategy == PARTITION_STRATEGY_LIST);
+	Assert(boundinfo && boundinfo->strategy == PARTITION_STRATEGY_LIST);
+
+	/*
+	 * Search each value of new partition "spec" in existing partitions. All
+	 * of them should be in split partition (with Oid splitPartOid).
+	 */
+	foreach_node(Const, val, spec->listdatums)
+	{
+		overlap_location = val->location;
+		if (!val->constisnull)
+		{
+			int			offset;
+			bool		equal;
+
+			offset = partition_list_bsearch(&key->partsupfunc[0],
+											key->partcollation,
+											boundinfo,
+											val->constvalue,
+											&equal);
+			if (offset >= 0 && equal)
+			{
+				with = boundinfo->indexes[offset];
+				if (partdesc->oids[with] != splitPartOid)
+				{
+					overlap = true;
+					break;
+				}
+			}
+			else
+				ereport(ERROR,
+						errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
+						errmsg("new partition \"%s\" cannot have this value because split partition does not have",
+							   relname),
+						parser_errposition(pstate, overlap_location));
+		}
+		else if (partition_bound_accepts_nulls(boundinfo))
+		{
+			with = boundinfo->null_index;
+			if (partdesc->oids[with] != splitPartOid)
+			{
+				overlap = true;
+				break;
+			}
+		}
+		else
+			ereport(ERROR,
+					errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
+					errmsg("new partition \"%s\" cannot have NULL value because split partition does not have",
+						   relname),
+					parser_errposition(pstate, overlap_location));
+	}
+
+	if (overlap)
+	{
+		Assert(with >= 0);
+		ereport(ERROR,
+				errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
+				errmsg("new partition \"%s\" would overlap with another (not split) partition \"%s\"",
+					   relname, get_rel_name(partdesc->oids[with])),
+				parser_errposition(pstate, overlap_location));
+	}
+}
+
+/*
+ * find_value_in_new_partitions_list
+ *
+ * (function for BY LIST partitioning)
+ *
+ * Function returns true in case any of new partitions contains value "value".
+ *
+ * partsupfunc:		information about comparison function associated with the partition key
+ * partcollation:	partitioning collation
+ * parts:			pointer to array with new partitions descriptions
+ * nparts:			number of new partitions
+ * value:			the value that we are looking for
+ * isnull:			true if the value that we are looking for is NULL
+ */
+static bool
+find_value_in_new_partitions_list(FmgrInfo *partsupfunc,
+								  Oid *partcollation,
+								  SinglePartitionSpec **parts,
+								  int nparts,
+								  Datum value,
+								  bool isnull)
+{
+	for (int i = 0; i < nparts; i++)
+	{
+		SinglePartitionSpec *sps = parts[i];
+
+		foreach_node(Const, val, sps->bound->listdatums)
+		{
+			if (isnull && val->constisnull)
+				return true;
+
+			if (!isnull && !val->constisnull)
+			{
+				if (DatumGetInt32(FunctionCall2Coll(&partsupfunc[0],
+													partcollation[0],
+													val->constvalue,
+													value)) == 0)
+					return true;
+			}
+		}
+	}
+	return false;
+}
+
+/*
+ * check_parent_values_in_new_partitions
+ *
+ * (function for BY LIST partitioning)
+ *
+ * Checks that all values of split partition (with Oid partOid) contains in new
+ * partitions.
+ *
+ * parent:	partitioned table
+ * partOid:	split partition Oid
+ * parts:	pointer to array with new partitions descriptions
+ * nparts:	number of new partitions
+ * pstate:	pointer to ParseState struct for determine error position
+ */
+static void
+check_parent_values_in_new_partitions(Relation parent,
+									  Oid partOid,
+									  SinglePartitionSpec **parts,
+									  int nparts,
+									  ParseState *pstate)
+{
+	PartitionKey key = RelationGetPartitionKey(parent);
+	PartitionDesc partdesc = RelationGetPartitionDesc(parent, false);
+	PartitionBoundInfo boundinfo = partdesc->boundinfo;
+	int			i;
+	bool		found = true;
+	bool		searchNull = false;
+	Datum		datum = PointerGetDatum(NULL);
+
+	Assert(key->strategy == PARTITION_STRATEGY_LIST);
+
+	/*
+	 * Special processing for NULL value. Search NULL value if the split
+	 * partition (partOid) contains it.
+	 */
+	if (partition_bound_accepts_nulls(boundinfo) &&
+		partdesc->oids[boundinfo->null_index] == partOid)
+	{
+		if (!find_value_in_new_partitions_list(&key->partsupfunc[0],
+											   key->partcollation, parts, nparts, datum, true))
+		{
+			found = false;
+			searchNull = true;
+		}
+	}
+
+	/*
+	 * Search all values of split partition with partOid in PartitionDesc of
+	 * partitioned table.
+	 */
+	for (i = 0; i < boundinfo->ndatums; i++)
+	{
+		if (partdesc->oids[boundinfo->indexes[i]] == partOid)
+		{
+			/* We found value that split partition contains. */
+			datum = boundinfo->datums[i][0];
+			if (!find_value_in_new_partitions_list(&key->partsupfunc[0],
+												   key->partcollation, parts, nparts, datum, false))
+			{
+				found = false;
+				break;
+			}
+		}
+	}
+
+	if (!found)
+	{
+		Const	   *notFoundVal;
+
+		if (!searchNull)
+
+			/*
+			 * Make Const for getting string representation of not found
+			 * value.
+			 */
+			notFoundVal = makeConst(key->parttypid[0],
+									key->parttypmod[0],
+									key->parttypcoll[0],
+									key->parttyplen[0],
+									datum,
+									false,	/* isnull */
+									key->parttypbyval[0]);
+
+		ereport(ERROR,
+				errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
+				errmsg("new partitions do not have value %s but split partition does",
+					   searchNull ? "NULL" : get_list_partvalue_string(notFoundVal)));
+	}
+}
+
+/*
+ * check_partitions_for_split
+ *
+ * Checks new partitions for SPLIT PARTITIONS command:
+ * 1. DEFAULT partition should be one.
+ * 2. New partitions should have different names
+ *    (with existing partitions too).
+ * 3. Bounds of new partitions should not overlap with new and existing
+ *    partitions.
+ * 4. In case split partition is DEFAULT partition, one of new partitions
+ *    should be DEFAULT.
+ * 5. In case new partitions or existing partitions contains DEFAULT
+ *    partition, new partitions can have any bounds inside split
+ *    partition bound (can be spaces between partitions bounds).
+ * 6. In case partitioned table does not have DEFAULT partition, DEFAULT
+ *    partition can be defined as one of new partition.
+ * 7. In case new partitions not contains DEFAULT partition and
+ *    partitioned table does not have DEFAULT partition the following
+ *    should be true: sum bounds of new partitions should be equal
+ *    to bound of split partition.
+ *
+ * parent:			partitioned table
+ * splitPartOid:	split partition Oid
+ * list:			list of new partitions
+ * pstate:			pointer to ParseState struct for determine error position
+ */
+void
+check_partitions_for_split(Relation parent,
+						   Oid splitPartOid,
+						   List *partlist,
+						   ParseState *pstate)
+{
+	PartitionKey key;
+	char		strategy;
+	Oid			defaultPartOid;
+	bool		isSplitPartDefault;
+	bool		existsDefaultPart;
+	int			default_index = -1;
+	int			i,
+				j;
+	SinglePartitionSpec **new_parts;
+	SinglePartitionSpec *spsPrev = NULL;
+	int			nparts = 0;
+
+	key = RelationGetPartitionKey(parent);
+	strategy = get_partition_strategy(key);
+
+	switch (strategy)
+	{
+		case PARTITION_STRATEGY_LIST:
+		case PARTITION_STRATEGY_RANGE:
+			{
+				/*
+				 * Make array new_parts with new partitions except DEFAULT
+				 * partition.
+				 */
+				new_parts = (SinglePartitionSpec **)
+					palloc0(list_length(partlist) * sizeof(SinglePartitionSpec *));
+				i = 0;
+				foreach_node(SinglePartitionSpec, sps, partlist)
+				{
+					if (sps->bound->is_default)
+					{
+						if (default_index >= 0)
+							ereport(ERROR,
+									errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
+									errmsg("DEFAULT partition should be one"),
+									parser_errposition(pstate, sps->name->location));
+						default_index = i;
+					}
+					else
+					{
+						new_parts[nparts++] = sps;
+					}
+					i++;
+				}
+			}
+			break;
+
+		case PARTITION_STRATEGY_HASH:
+			ereport(ERROR,
+					errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
+					errmsg("partition of hash-partitioned table cannot be split"));
+			break;
+
+		default:
+			elog(ERROR, "unexpected partition strategy: %d",
+				 (int) key->strategy);
+			break;
+	}
+
+	if (strategy == PARTITION_STRATEGY_RANGE)
+	{
+		PartitionRangeBound **lower_bounds;
+		SinglePartitionSpec **tmp_new_parts;
+
+		/*
+		 * For simplify check for ranges of new partitions need to sort all
+		 * partitions in ascending order of them bounds (we compare upper
+		 * bound only).
+		 */
+		lower_bounds = (PartitionRangeBound **)
+			palloc0(nparts * sizeof(PartitionRangeBound *));
+
+		/* Create array of lower bounds. */
+		for (i = 0; i < nparts; i++)
+		{
+			lower_bounds[i] = make_one_partition_rbound(key, i,
+														new_parts[i]->bound->lowerdatums, true);
+		}
+
+		/* Sort array of lower bounds. */
+		qsort_arg(lower_bounds, nparts, sizeof(PartitionRangeBound *),
+				  qsort_partition_rbound_cmp, (void *) key);
+
+		/* Reorder array of partitions. */
+		tmp_new_parts = new_parts;
+		new_parts = (SinglePartitionSpec **)
+			palloc0(nparts * sizeof(SinglePartitionSpec *));
+		for (i = 0; i < nparts; i++)
+			new_parts[i] = tmp_new_parts[lower_bounds[i]->index];
+
+		pfree(tmp_new_parts);
+		pfree(lower_bounds);
+	}
+
+	defaultPartOid =
+		get_default_oid_from_partdesc(RelationGetPartitionDesc(parent, true));
+
+	/* isSplitPartDefault flag: is split partition a DEFAULT partition? */
+	isSplitPartDefault = (defaultPartOid == splitPartOid);
+
+	if (isSplitPartDefault && default_index < 0)
+	{
+		ereport(ERROR,
+				errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
+				errmsg("one partition in the list should be DEFAULT because split partition is DEFAULT"),
+				parser_errposition(pstate, ((SinglePartitionSpec *) linitial(partlist))->name->location));
+	}
+	else if (!isSplitPartDefault && (default_index >= 0) && OidIsValid(defaultPartOid))
+	{
+		SinglePartitionSpec *spsDef =
+			(SinglePartitionSpec *) list_nth(partlist, default_index);
+
+		ereport(ERROR,
+				errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
+				errmsg("new partition cannot be DEFAULT because DEFAULT partition already exists"),
+				parser_errposition(pstate, spsDef->name->location));
+	}
+
+	/* Indicator that partitioned table has (or will have) DEFAULT partition */
+	existsDefaultPart = OidIsValid(defaultPartOid) || (default_index >= 0);
+
+	for (i = 0; i < nparts; i++)
+	{
+		SinglePartitionSpec *sps = new_parts[i];
+
+		if (isSplitPartDefault)
+		{
+			/*
+			 * In case split partition is DEFAULT partition we can use any
+			 * free ranges - as when creating a new partition.
+			 */
+			check_new_partition_bound(sps->name->relname, parent, sps->bound,
+									  pstate);
+		}
+		else
+		{
+			/*
+			 * Checks that bound of current partition is inside bound of split
+			 * partition. For range partitioning: checks that upper bound of
+			 * previous partition is equal to lower bound of current
+			 * partition. For list partitioning: checks that split partition
+			 * contains all values of current partition.
+			 */
+			if (strategy == PARTITION_STRATEGY_RANGE)
+			{
+				bool		first = (i == 0);
+				bool		last = (i == (nparts - 1));
+
+				check_partition_bounds_for_split_range(parent, sps->name->relname, sps->bound,
+													   splitPartOid, first, last,
+													   existsDefaultPart, pstate);
+			}
+			else
+				check_partition_bounds_for_split_list(parent, sps->name->relname,
+													  sps->bound, splitPartOid, pstate);
+		}
+
+		/* Ranges of new partitions should not overlap. */
+		if (strategy == PARTITION_STRATEGY_RANGE && spsPrev)
+			check_two_partitions_bounds_range(parent, spsPrev->name, spsPrev->bound,
+											  sps->name, sps->bound, existsDefaultPart, pstate);
+
+		spsPrev = sps;
+
+		/* Check: new partitions should have different names. */
+		for (j = i + 1; j < nparts; j++)
+		{
+			SinglePartitionSpec *sps2 = new_parts[j];
+
+			if (equal(sps->name, sps2->name))
+				ereport(ERROR,
+						errcode(ERRCODE_DUPLICATE_TABLE),
+						errmsg("name \"%s\" is already used", sps2->name->relname),
+						parser_errposition(pstate, sps2->name->location));
+		}
+	}
+
+	if (strategy == PARTITION_STRATEGY_LIST)
+	{
+		/* Values of new partitions should not overlap. */
+		check_partitions_not_overlap_list(parent, new_parts, nparts,
+										  pstate);
+
+		/*
+		 * Need to check that all values of split partition contains in new
+		 * partitions. Skip this check if DEFAULT partition exists.
+		 */
+		if (!existsDefaultPart)
+			check_parent_values_in_new_partitions(parent, splitPartOid,
+												  new_parts, nparts, pstate);
+	}
+
+	pfree(new_parts);
+}
diff --git a/src/backend/utils/adt/ruleutils.c b/src/backend/utils/adt/ruleutils.c
index 3d6e6bdbfd..3e1689b118 100644
--- a/src/backend/utils/adt/ruleutils.c
+++ b/src/backend/utils/adt/ruleutils.c
@@ -13707,3 +13707,21 @@ get_range_partbound_string(List *bound_datums)
 
 	return buf->data;
 }
+
+/*
+ * get_list_partvalue_string
+ *		A C string representation of one list partition value
+ */
+char *
+get_list_partvalue_string(Const *val)
+{
+	deparse_context context;
+	StringInfo	buf = makeStringInfo();
+
+	memset(&context, 0, sizeof(deparse_context));
+	context.buf = buf;
+
+	get_const_expr(val, &context, -1);
+
+	return buf->data;
+}
diff --git a/src/bin/psql/tab-complete.in.c b/src/bin/psql/tab-complete.in.c
index 1145b9d7ce..e4d3c5c940 100644
--- a/src/bin/psql/tab-complete.in.c
+++ b/src/bin/psql/tab-complete.in.c
@@ -2721,7 +2721,7 @@ match_previous_words(int pattern_id,
 					  "OWNER TO", "SET", "VALIDATE CONSTRAINT",
 					  "REPLICA IDENTITY", "ATTACH PARTITION",
 					  "DETACH PARTITION", "FORCE ROW LEVEL SECURITY",
-					  "MERGE PARTITIONS (",
+					  "SPLIT PARTITION", "MERGE PARTITIONS (",
 					  "OF", "NOT OF");
 	/* ALTER TABLE xxx ADD */
 	else if (Matches("ALTER", "TABLE", MatchAny, "ADD"))
@@ -2977,10 +2977,10 @@ match_previous_words(int pattern_id,
 		COMPLETE_WITH("FROM (", "IN (", "WITH (");
 
 	/*
-	 * If we have ALTER TABLE <foo> DETACH PARTITION, provide a list of
+	 * If we have ALTER TABLE <foo> DETACH|SPLIT PARTITION, provide a list of
 	 * partitions of <foo>.
 	 */
-	else if (Matches("ALTER", "TABLE", MatchAny, "DETACH", "PARTITION"))
+	else if (Matches("ALTER", "TABLE", MatchAny, "DETACH|SPLIT", "PARTITION"))
 	{
 		set_completion_reference(prev3_wd);
 		COMPLETE_WITH_SCHEMA_QUERY(Query_for_partition_of_table);
@@ -2988,6 +2988,10 @@ match_previous_words(int pattern_id,
 	else if (Matches("ALTER", "TABLE", MatchAny, "DETACH", "PARTITION", MatchAny))
 		COMPLETE_WITH("CONCURRENTLY", "FINALIZE");
 
+	/* ALTER TABLE <name> SPLIT PARTITION <name> */
+	else if (Matches("ALTER", "TABLE", MatchAny, "SPLIT", "PARTITION", MatchAny))
+		COMPLETE_WITH("INTO ( PARTITION");
+
 	/* ALTER TABLE <name> MERGE PARTITIONS ( */
 	else if (Matches("ALTER", "TABLE", MatchAny, "MERGE", "PARTITIONS", "("))
 	{
diff --git a/src/include/nodes/parsenodes.h b/src/include/nodes/parsenodes.h
index b8e2a679cd..01aa4b2e64 100644
--- a/src/include/nodes/parsenodes.h
+++ b/src/include/nodes/parsenodes.h
@@ -963,15 +963,26 @@ typedef struct PartitionRangeDatum
 	ParseLoc	location;		/* token location, or -1 if unknown */
 } PartitionRangeDatum;
 
+/*
+ * PartitionDesc - info about single partition for ALTER TABLE SPLIT PARTITION command
+ */
+typedef struct SinglePartitionSpec
+{
+	NodeTag		type;
+
+	RangeVar   *name;			/* name of partition */
+	PartitionBoundSpec *bound;	/* FOR VALUES, if attaching */
+} SinglePartitionSpec;
+
 /*
  * PartitionCmd - info for ALTER TABLE/INDEX ATTACH/DETACH PARTITION commands
  */
 typedef struct PartitionCmd
 {
 	NodeTag		type;
-	RangeVar   *name;			/* name of partition to attach/detach/merge */
+	RangeVar   *name;			/* name of partition to attach/detach/merge/split */
 	PartitionBoundSpec *bound;	/* FOR VALUES, if attaching */
-	List	   *partlist;		/* list of partitions, for MERGE
+	List	   *partlist;		/* list of partitions, for MERGE/SPLIT
 								 * PARTITION command */
 	bool		concurrent;
 } PartitionCmd;
@@ -2475,6 +2486,7 @@ typedef enum AlterTableType
 	AT_AttachPartition,			/* ATTACH PARTITION */
 	AT_DetachPartition,			/* DETACH PARTITION */
 	AT_DetachPartitionFinalize, /* DETACH PARTITION FINALIZE */
+	AT_SplitPartition,			/* SPLIT PARTITION */
 	AT_MergePartitions,			/* MERGE PARTITIONS */
 	AT_AddIdentity,				/* ADD IDENTITY */
 	AT_SetIdentity,				/* SET identity column options */
diff --git a/src/include/parser/kwlist.h b/src/include/parser/kwlist.h
index 90e8cddf8b..66c8876657 100644
--- a/src/include/parser/kwlist.h
+++ b/src/include/parser/kwlist.h
@@ -421,6 +421,7 @@ PG_KEYWORD("smallint", SMALLINT, COL_NAME_KEYWORD, BARE_LABEL)
 PG_KEYWORD("snapshot", SNAPSHOT, UNRESERVED_KEYWORD, BARE_LABEL)
 PG_KEYWORD("some", SOME, RESERVED_KEYWORD, BARE_LABEL)
 PG_KEYWORD("source", SOURCE, UNRESERVED_KEYWORD, BARE_LABEL)
+PG_KEYWORD("split", SPLIT, UNRESERVED_KEYWORD, BARE_LABEL)
 PG_KEYWORD("sql", SQL_P, UNRESERVED_KEYWORD, BARE_LABEL)
 PG_KEYWORD("stable", STABLE, UNRESERVED_KEYWORD, BARE_LABEL)
 PG_KEYWORD("standalone", STANDALONE_P, UNRESERVED_KEYWORD, BARE_LABEL)
diff --git a/src/include/partitioning/partbounds.h b/src/include/partitioning/partbounds.h
index 690d259619..45b1fa1de8 100644
--- a/src/include/partitioning/partbounds.h
+++ b/src/include/partitioning/partbounds.h
@@ -143,6 +143,10 @@ extern int	partition_range_datum_bsearch(FmgrInfo *partsupfunc,
 extern int	partition_hash_bsearch(PartitionBoundInfo boundinfo,
 								   int modulus, int remainder);
 
+extern void check_partitions_for_split(Relation parent,
+									   Oid splitPartOid,
+									   List *partlist,
+									   ParseState *pstate);
 extern void calculate_partition_bound_for_merge(Relation parent,
 												List *partNames,
 												List *partOids,
diff --git a/src/include/utils/ruleutils.h b/src/include/utils/ruleutils.h
index 5f2ea2e4d0..62043d3bf5 100644
--- a/src/include/utils/ruleutils.h
+++ b/src/include/utils/ruleutils.h
@@ -54,4 +54,6 @@ extern char *get_range_partbound_string(List *bound_datums);
 
 extern char *pg_get_statisticsobjdef_string(Oid statextid);
 
+extern char *get_list_partvalue_string(Const *val);
+
 #endif							/* RULEUTILS_H */
diff --git a/src/test/isolation/expected/partition-split.out b/src/test/isolation/expected/partition-split.out
new file mode 100644
index 0000000000..5d9e8b0925
--- /dev/null
+++ b/src/test/isolation/expected/partition-split.out
@@ -0,0 +1,190 @@
+Parsed test spec with 2 sessions
+
+starting permutation: s1b s1splt s2b s2i s1c s2c s2s
+step s1b: BEGIN;
+step s1splt: ALTER TABLE tpart SPLIT PARTITION tpart_10_20 INTO
+			   (PARTITION tpart_10_15 FOR VALUES FROM (10) TO (15),
+			    PARTITION tpart_15_20 FOR VALUES FROM (15) TO (20));
+step s2b: BEGIN;
+step s2i: INSERT INTO tpart VALUES (1, 'text01'); <waiting ...>
+step s1c: COMMIT;
+step s2i: <... completed>
+step s2c: COMMIT;
+step s2s: SELECT * FROM tpart;
+ i|t     
+--+------
+ 5|text05
+ 1|text01
+15|text15
+25|text25
+35|text35
+(5 rows)
+
+
+starting permutation: s1b s1splt s2brr s2i s1c s2c s2s
+step s1b: BEGIN;
+step s1splt: ALTER TABLE tpart SPLIT PARTITION tpart_10_20 INTO
+			   (PARTITION tpart_10_15 FOR VALUES FROM (10) TO (15),
+			    PARTITION tpart_15_20 FOR VALUES FROM (15) TO (20));
+step s2brr: BEGIN ISOLATION LEVEL REPEATABLE READ;
+step s2i: INSERT INTO tpart VALUES (1, 'text01'); <waiting ...>
+step s1c: COMMIT;
+step s2i: <... completed>
+step s2c: COMMIT;
+step s2s: SELECT * FROM tpart;
+ i|t     
+--+------
+ 5|text05
+ 1|text01
+15|text15
+25|text25
+35|text35
+(5 rows)
+
+
+starting permutation: s1b s1splt s2bs s2i s1c s2c s2s
+step s1b: BEGIN;
+step s1splt: ALTER TABLE tpart SPLIT PARTITION tpart_10_20 INTO
+			   (PARTITION tpart_10_15 FOR VALUES FROM (10) TO (15),
+			    PARTITION tpart_15_20 FOR VALUES FROM (15) TO (20));
+step s2bs: BEGIN ISOLATION LEVEL SERIALIZABLE;
+step s2i: INSERT INTO tpart VALUES (1, 'text01'); <waiting ...>
+step s1c: COMMIT;
+step s2i: <... completed>
+step s2c: COMMIT;
+step s2s: SELECT * FROM tpart;
+ i|t     
+--+------
+ 5|text05
+ 1|text01
+15|text15
+25|text25
+35|text35
+(5 rows)
+
+
+starting permutation: s1brr s1splt s2b s2i s1c s2c s2s
+step s1brr: BEGIN ISOLATION LEVEL REPEATABLE READ;
+step s1splt: ALTER TABLE tpart SPLIT PARTITION tpart_10_20 INTO
+			   (PARTITION tpart_10_15 FOR VALUES FROM (10) TO (15),
+			    PARTITION tpart_15_20 FOR VALUES FROM (15) TO (20));
+step s2b: BEGIN;
+step s2i: INSERT INTO tpart VALUES (1, 'text01'); <waiting ...>
+step s1c: COMMIT;
+step s2i: <... completed>
+step s2c: COMMIT;
+step s2s: SELECT * FROM tpart;
+ i|t     
+--+------
+ 5|text05
+ 1|text01
+15|text15
+25|text25
+35|text35
+(5 rows)
+
+
+starting permutation: s1brr s1splt s2brr s2i s1c s2c s2s
+step s1brr: BEGIN ISOLATION LEVEL REPEATABLE READ;
+step s1splt: ALTER TABLE tpart SPLIT PARTITION tpart_10_20 INTO
+			   (PARTITION tpart_10_15 FOR VALUES FROM (10) TO (15),
+			    PARTITION tpart_15_20 FOR VALUES FROM (15) TO (20));
+step s2brr: BEGIN ISOLATION LEVEL REPEATABLE READ;
+step s2i: INSERT INTO tpart VALUES (1, 'text01'); <waiting ...>
+step s1c: COMMIT;
+step s2i: <... completed>
+step s2c: COMMIT;
+step s2s: SELECT * FROM tpart;
+ i|t     
+--+------
+ 5|text05
+ 1|text01
+15|text15
+25|text25
+35|text35
+(5 rows)
+
+
+starting permutation: s1brr s1splt s2bs s2i s1c s2c s2s
+step s1brr: BEGIN ISOLATION LEVEL REPEATABLE READ;
+step s1splt: ALTER TABLE tpart SPLIT PARTITION tpart_10_20 INTO
+			   (PARTITION tpart_10_15 FOR VALUES FROM (10) TO (15),
+			    PARTITION tpart_15_20 FOR VALUES FROM (15) TO (20));
+step s2bs: BEGIN ISOLATION LEVEL SERIALIZABLE;
+step s2i: INSERT INTO tpart VALUES (1, 'text01'); <waiting ...>
+step s1c: COMMIT;
+step s2i: <... completed>
+step s2c: COMMIT;
+step s2s: SELECT * FROM tpart;
+ i|t     
+--+------
+ 5|text05
+ 1|text01
+15|text15
+25|text25
+35|text35
+(5 rows)
+
+
+starting permutation: s1bs s1splt s2b s2i s1c s2c s2s
+step s1bs: BEGIN ISOLATION LEVEL SERIALIZABLE;
+step s1splt: ALTER TABLE tpart SPLIT PARTITION tpart_10_20 INTO
+			   (PARTITION tpart_10_15 FOR VALUES FROM (10) TO (15),
+			    PARTITION tpart_15_20 FOR VALUES FROM (15) TO (20));
+step s2b: BEGIN;
+step s2i: INSERT INTO tpart VALUES (1, 'text01'); <waiting ...>
+step s1c: COMMIT;
+step s2i: <... completed>
+step s2c: COMMIT;
+step s2s: SELECT * FROM tpart;
+ i|t     
+--+------
+ 5|text05
+ 1|text01
+15|text15
+25|text25
+35|text35
+(5 rows)
+
+
+starting permutation: s1bs s1splt s2brr s2i s1c s2c s2s
+step s1bs: BEGIN ISOLATION LEVEL SERIALIZABLE;
+step s1splt: ALTER TABLE tpart SPLIT PARTITION tpart_10_20 INTO
+			   (PARTITION tpart_10_15 FOR VALUES FROM (10) TO (15),
+			    PARTITION tpart_15_20 FOR VALUES FROM (15) TO (20));
+step s2brr: BEGIN ISOLATION LEVEL REPEATABLE READ;
+step s2i: INSERT INTO tpart VALUES (1, 'text01'); <waiting ...>
+step s1c: COMMIT;
+step s2i: <... completed>
+step s2c: COMMIT;
+step s2s: SELECT * FROM tpart;
+ i|t     
+--+------
+ 5|text05
+ 1|text01
+15|text15
+25|text25
+35|text35
+(5 rows)
+
+
+starting permutation: s1bs s1splt s2bs s2i s1c s2c s2s
+step s1bs: BEGIN ISOLATION LEVEL SERIALIZABLE;
+step s1splt: ALTER TABLE tpart SPLIT PARTITION tpart_10_20 INTO
+			   (PARTITION tpart_10_15 FOR VALUES FROM (10) TO (15),
+			    PARTITION tpart_15_20 FOR VALUES FROM (15) TO (20));
+step s2bs: BEGIN ISOLATION LEVEL SERIALIZABLE;
+step s2i: INSERT INTO tpart VALUES (1, 'text01'); <waiting ...>
+step s1c: COMMIT;
+step s2i: <... completed>
+step s2c: COMMIT;
+step s2s: SELECT * FROM tpart;
+ i|t     
+--+------
+ 5|text05
+ 1|text01
+15|text15
+25|text25
+35|text35
+(5 rows)
+
diff --git a/src/test/isolation/isolation_schedule b/src/test/isolation/isolation_schedule
index 0dca684955..404a7fd832 100644
--- a/src/test/isolation/isolation_schedule
+++ b/src/test/isolation/isolation_schedule
@@ -108,6 +108,7 @@ test: partition-key-update-2
 test: partition-key-update-3
 test: partition-key-update-4
 test: partition-merge
+test: partition-split
 test: plpgsql-toast
 test: cluster-conflict
 test: cluster-conflict-partition
diff --git a/src/test/isolation/specs/partition-split.spec b/src/test/isolation/specs/partition-split.spec
new file mode 100644
index 0000000000..087239a4a1
--- /dev/null
+++ b/src/test/isolation/specs/partition-split.spec
@@ -0,0 +1,54 @@
+# Verify that SPLIT operation locks DML operations with partitioned table
+
+setup
+{
+  DROP TABLE IF EXISTS tpart;
+  CREATE TABLE tpart(i int, t text) partition by range(i);
+  CREATE TABLE tpart_00_10 PARTITION OF tpart FOR VALUES FROM (0) TO (10);
+  CREATE TABLE tpart_10_20 PARTITION OF tpart FOR VALUES FROM (10) TO (20);
+  CREATE TABLE tpart_20_30 PARTITION OF tpart FOR VALUES FROM (20) TO (30);
+  CREATE TABLE tpart_default PARTITION OF tpart DEFAULT;
+  INSERT INTO tpart VALUES (5, 'text05');
+  INSERT INTO tpart VALUES (15, 'text15');
+  INSERT INTO tpart VALUES (25, 'text25');
+  INSERT INTO tpart VALUES (35, 'text35');
+}
+
+teardown
+{
+  DROP TABLE tpart;
+}
+
+session s1
+step s1b	{ BEGIN; }
+step s1brr	{ BEGIN ISOLATION LEVEL REPEATABLE READ; }
+step s1bs	{ BEGIN ISOLATION LEVEL SERIALIZABLE; }
+step s1splt	{ ALTER TABLE tpart SPLIT PARTITION tpart_10_20 INTO
+			   (PARTITION tpart_10_15 FOR VALUES FROM (10) TO (15),
+			    PARTITION tpart_15_20 FOR VALUES FROM (15) TO (20)); }
+step s1c	{ COMMIT; }
+
+
+session s2
+step s2b	{ BEGIN; }
+step s2brr	{ BEGIN ISOLATION LEVEL REPEATABLE READ; }
+step s2bs	{ BEGIN ISOLATION LEVEL SERIALIZABLE; }
+step s2i	{ INSERT INTO tpart VALUES (1, 'text01'); }
+step s2c	{ COMMIT; }
+step s2s	{ SELECT * FROM tpart; }
+
+
+# s1 starts SPLIT PARTITION then s2 trying to insert row and
+# waits until s1 finished SPLIT operation.
+
+permutation s1b s1splt s2b s2i s1c s2c s2s
+permutation s1b s1splt s2brr s2i s1c s2c s2s
+permutation s1b s1splt s2bs s2i s1c s2c s2s
+
+permutation s1brr s1splt s2b s2i s1c s2c s2s
+permutation s1brr s1splt s2brr s2i s1c s2c s2s
+permutation s1brr s1splt s2bs s2i s1c s2c s2s
+
+permutation s1bs s1splt s2b s2i s1c s2c s2s
+permutation s1bs s1splt s2brr s2i s1c s2c s2s
+permutation s1bs s1splt s2bs s2i s1c s2c s2s
diff --git a/src/test/modules/test_ddl_deparse/test_ddl_deparse.c b/src/test/modules/test_ddl_deparse/test_ddl_deparse.c
index 7de5ddb878..17d72e412f 100644
--- a/src/test/modules/test_ddl_deparse/test_ddl_deparse.c
+++ b/src/test/modules/test_ddl_deparse/test_ddl_deparse.c
@@ -296,6 +296,9 @@ get_altertable_subcmdinfo(PG_FUNCTION_ARGS)
 			case AT_DetachPartitionFinalize:
 				strtype = "DETACH PARTITION ... FINALIZE";
 				break;
+			case AT_SplitPartition:
+				strtype = "SPLIT PARTITION";
+				break;
 			case AT_MergePartitions:
 				strtype = "MERGE PARTITIONS";
 				break;
diff --git a/src/test/regress/expected/partition_split.out b/src/test/regress/expected/partition_split.out
new file mode 100644
index 0000000000..7d543ab813
--- /dev/null
+++ b/src/test/regress/expected/partition_split.out
@@ -0,0 +1,1655 @@
+--
+-- PARTITION_SPLIT
+-- Tests for "ALTER TABLE ... SPLIT PARTITION ..." command
+--
+CREATE SCHEMA partition_split_schema;
+CREATE SCHEMA partition_split_schema2;
+SET search_path = partition_split_schema, public;
+--
+-- BY RANGE partitioning
+--
+--
+-- Test for error codes
+--
+CREATE TABLE sales_range (salesperson_id int, salesperson_name varchar(30), sales_amount int, sales_date date) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_jan2022 PARTITION OF sales_range FOR VALUES FROM ('2022-01-01') TO ('2022-02-01');
+CREATE TABLE sales_feb_mar_apr2022 PARTITION OF sales_range FOR VALUES FROM ('2022-02-01') TO ('2022-05-01');
+CREATE TABLE sales_others PARTITION OF sales_range DEFAULT;
+-- ERROR:  relation "sales_xxx" does not exist
+ALTER TABLE sales_range SPLIT PARTITION sales_xxx INTO
+  (PARTITION sales_feb2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION sales_mar2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'));
+ERROR:  relation "sales_xxx" does not exist
+-- ERROR:  relation "sales_jan2022" already exists
+ALTER TABLE sales_range SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION sales_jan2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION sales_mar2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'));
+ERROR:  relation "sales_jan2022" already exists
+-- ERROR:  invalid bound specification for a range partition
+ALTER TABLE sales_range SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION sales_jan2022 FOR VALUES IN ('2022-05-01', '2022-06-01'),
+   PARTITION sales_mar2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'));
+ERROR:  invalid bound specification for a range partition
+LINE 2:   (PARTITION sales_jan2022 FOR VALUES IN ('2022-05-01', '202...
+                                              ^
+-- ERROR:  empty range bound specified for partition "sales_mar2022"
+ALTER TABLE sales_range SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION sales_feb2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION sales_mar2022 FOR VALUES FROM ('2022-03-01') TO ('2022-02-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'));
+ERROR:  empty range bound specified for partition "sales_mar2022"
+LINE 3:    PARTITION sales_mar2022 FOR VALUES FROM ('2022-03-01') TO...
+                                                    ^
+DETAIL:  Specified lower bound ('03-01-2022') is greater than or equal to upper bound ('02-01-2022').
+--ERROR:  list of split partitions should contain at least two items
+ALTER TABLE sales_range SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION sales_feb2022 FOR VALUES FROM ('2022-02-01') TO ('2022-10-01'));
+ERROR:  list of new partitions should contain at least two items
+-- ERROR:  lower bound of partition "sales_feb2022" is less than lower bound of split partition
+ALTER TABLE sales_range SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION sales_feb2022 FOR VALUES FROM ('2022-01-01') TO ('2022-03-01'),
+   PARTITION sales_mar2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'));
+ERROR:  lower bound of partition "sales_feb2022" is less than lower bound of split partition
+LINE 2:   (PARTITION sales_feb2022 FOR VALUES FROM ('2022-01-01') TO...
+                                                    ^
+-- ERROR:  name "sales_feb_mar_apr2022" is already used
+-- (We can create partition with the same name as split partition, but can't create two partitions with the same name)
+ALTER TABLE sales_range SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION sales_feb_mar_apr2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION sales_feb_mar_apr2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'));
+ERROR:  name "sales_feb_mar_apr2022" is already used
+LINE 3:    PARTITION sales_feb_mar_apr2022 FOR VALUES FROM ('2022-03...
+                     ^
+-- ERROR:  name "sales_feb2022" is already used
+ALTER TABLE sales_range SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION sales_feb2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION sales_feb2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'));
+ERROR:  name "sales_feb2022" is already used
+LINE 3:    PARTITION sales_feb2022 FOR VALUES FROM ('2022-03-01') TO...
+                     ^
+-- ERROR:  "sales_feb_mar_apr2022" is not a partitioned table
+ALTER TABLE sales_feb_mar_apr2022 SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION sales_jan2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION sales_feb2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'));
+ERROR:  ALTER action SPLIT PARTITION cannot be performed on relation "sales_feb_mar_apr2022"
+DETAIL:  This operation is not supported for tables.
+-- ERROR:  upper bound of partition "sales_apr2022" is greater than upper bound of split partition
+ALTER TABLE sales_range SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION sales_feb2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION sales_mar2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-06-01'));
+ERROR:  upper bound of partition "sales_apr2022" is greater than upper bound of split partition
+LINE 4: ... sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-06-0...
+                                                             ^
+-- ERROR:  lower bound of partition "sales_mar2022" is not equal to the upper bound of partition "sales_feb2022"
+ALTER TABLE sales_range SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION sales_feb2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION sales_mar2022 FOR VALUES FROM ('2022-02-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'));
+ERROR:  lower bound of partition "sales_mar2022" is not equal to the upper bound of partition "sales_feb2022"
+LINE 3:    PARTITION sales_mar2022 FOR VALUES FROM ('2022-02-01') TO...
+                                                    ^
+HINT:  ALTER TABLE ... MERGE PARTITIONS requires the partition bounds to be adjacent.
+-- Tests for spaces between partitions, them should be executed without DEFAULT partition
+ALTER TABLE sales_range DETACH PARTITION sales_others;
+-- ERROR:  lower bound of partition "sales_feb2022" is not equal to lower bound of split partition
+ALTER TABLE sales_range SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION sales_feb2022 FOR VALUES FROM ('2022-02-02') TO ('2022-03-01'),
+   PARTITION sales_mar2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'));
+ERROR:  lower bound of partition "sales_feb2022" is not equal to lower bound of split partition
+LINE 2:   (PARTITION sales_feb2022 FOR VALUES FROM ('2022-02-02') TO...
+                                                    ^
+-- Check the source partition not in the search path
+SET search_path = partition_split_schema2, public;
+ALTER TABLE partition_split_schema.sales_range
+SPLIT PARTITION partition_split_schema.sales_feb_mar_apr2022 INTO
+  (PARTITION sales_feb2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION sales_mar2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'));
+SET search_path = partition_split_schema, public;
+\d+ sales_range
+                              Partitioned table "partition_split_schema.sales_range"
+      Column      |         Type          | Collation | Nullable | Default | Storage  | Stats target | Description 
+------------------+-----------------------+-----------+----------+---------+----------+--------------+-------------
+ salesperson_id   | integer               |           |          |         | plain    |              | 
+ salesperson_name | character varying(30) |           |          |         | extended |              | 
+ sales_amount     | integer               |           |          |         | plain    |              | 
+ sales_date       | date                  |           |          |         | plain    |              | 
+Partition key: RANGE (sales_date)
+Partitions: partition_split_schema2.sales_apr2022 FOR VALUES FROM ('04-01-2022') TO ('05-01-2022'),
+            partition_split_schema2.sales_feb2022 FOR VALUES FROM ('02-01-2022') TO ('03-01-2022'),
+            partition_split_schema2.sales_mar2022 FOR VALUES FROM ('03-01-2022') TO ('04-01-2022'),
+            sales_jan2022 FOR VALUES FROM ('01-01-2022') TO ('02-01-2022')
+
+DROP TABLE sales_range;
+DROP TABLE sales_others;
+--
+-- Add rows into partitioned table then split partition
+--
+CREATE TABLE sales_range (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date DATE) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_jan2022 PARTITION OF sales_range FOR VALUES FROM ('2022-01-01') TO ('2022-02-01');
+CREATE TABLE sales_feb_mar_apr2022 PARTITION OF sales_range FOR VALUES FROM ('2022-02-01') TO ('2022-05-01');
+CREATE TABLE sales_others PARTITION OF sales_range DEFAULT;
+INSERT INTO sales_range VALUES
+  (1,  'May',      1000, '2022-01-31'),
+  (2,  'Smirnoff', 500,  '2022-02-10'),
+  (3,  'Ford',     2000, '2022-04-30'),
+  (4,  'Ivanov',   750,  '2022-04-13'),
+  (5,  'Deev',     250,  '2022-04-07'),
+  (6,  'Poirot',   150,  '2022-02-11'),
+  (7,  'Li',       175,  '2022-03-08'),
+  (8,  'Ericsson', 185,  '2022-02-23'),
+  (9,  'Muller',   250,  '2022-03-11'),
+  (10, 'Halder',   350,  '2022-01-28'),
+  (11, 'Trump',    380,  '2022-04-06'),
+  (12, 'Plato',    350,  '2022-03-19'),
+  (13, 'Gandi',    377,  '2022-01-09'),
+  (14, 'Smith',    510,  '2022-05-04');
+ALTER TABLE sales_range SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION sales_feb2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION sales_mar2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'));
+SELECT * FROM sales_range;
+ salesperson_id | salesperson_name | sales_amount | sales_date 
+----------------+------------------+--------------+------------
+              1 | May              |         1000 | 01-31-2022
+             10 | Halder           |          350 | 01-28-2022
+             13 | Gandi            |          377 | 01-09-2022
+              2 | Smirnoff         |          500 | 02-10-2022
+              6 | Poirot           |          150 | 02-11-2022
+              8 | Ericsson         |          185 | 02-23-2022
+              7 | Li               |          175 | 03-08-2022
+              9 | Muller           |          250 | 03-11-2022
+             12 | Plato            |          350 | 03-19-2022
+              3 | Ford             |         2000 | 04-30-2022
+              4 | Ivanov           |          750 | 04-13-2022
+              5 | Deev             |          250 | 04-07-2022
+             11 | Trump            |          380 | 04-06-2022
+             14 | Smith            |          510 | 05-04-2022
+(14 rows)
+
+SELECT * FROM sales_jan2022;
+ salesperson_id | salesperson_name | sales_amount | sales_date 
+----------------+------------------+--------------+------------
+              1 | May              |         1000 | 01-31-2022
+             10 | Halder           |          350 | 01-28-2022
+             13 | Gandi            |          377 | 01-09-2022
+(3 rows)
+
+SELECT * FROM sales_feb2022;
+ salesperson_id | salesperson_name | sales_amount | sales_date 
+----------------+------------------+--------------+------------
+              2 | Smirnoff         |          500 | 02-10-2022
+              6 | Poirot           |          150 | 02-11-2022
+              8 | Ericsson         |          185 | 02-23-2022
+(3 rows)
+
+SELECT * FROM sales_mar2022;
+ salesperson_id | salesperson_name | sales_amount | sales_date 
+----------------+------------------+--------------+------------
+              7 | Li               |          175 | 03-08-2022
+              9 | Muller           |          250 | 03-11-2022
+             12 | Plato            |          350 | 03-19-2022
+(3 rows)
+
+SELECT * FROM sales_apr2022;
+ salesperson_id | salesperson_name | sales_amount | sales_date 
+----------------+------------------+--------------+------------
+              3 | Ford             |         2000 | 04-30-2022
+              4 | Ivanov           |          750 | 04-13-2022
+              5 | Deev             |          250 | 04-07-2022
+             11 | Trump            |          380 | 04-06-2022
+(4 rows)
+
+SELECT * FROM sales_others;
+ salesperson_id | salesperson_name | sales_amount | sales_date 
+----------------+------------------+--------------+------------
+             14 | Smith            |          510 | 05-04-2022
+(1 row)
+
+DROP TABLE sales_range CASCADE;
+--
+-- Add split partition, then add rows into partitioned table
+--
+CREATE TABLE sales_range (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date DATE) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_jan2022 PARTITION OF sales_range FOR VALUES FROM ('2022-01-01') TO ('2022-02-01');
+CREATE TABLE sales_feb_mar_apr2022 PARTITION OF sales_range FOR VALUES FROM ('2022-02-01') TO ('2022-05-01');
+CREATE TABLE sales_others PARTITION OF sales_range DEFAULT;
+-- Split partition, also check schema qualification of new partitions
+ALTER TABLE sales_range SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION partition_split_schema.sales_feb2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION partition_split_schema2.sales_mar2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'));
+\d+ sales_range
+                              Partitioned table "partition_split_schema.sales_range"
+      Column      |         Type          | Collation | Nullable | Default | Storage  | Stats target | Description 
+------------------+-----------------------+-----------+----------+---------+----------+--------------+-------------
+ salesperson_id   | integer               |           |          |         | plain    |              | 
+ salesperson_name | character varying(30) |           |          |         | extended |              | 
+ sales_amount     | integer               |           |          |         | plain    |              | 
+ sales_date       | date                  |           |          |         | plain    |              | 
+Partition key: RANGE (sales_date)
+Partitions: partition_split_schema2.sales_mar2022 FOR VALUES FROM ('03-01-2022') TO ('04-01-2022'),
+            sales_apr2022 FOR VALUES FROM ('04-01-2022') TO ('05-01-2022'),
+            sales_feb2022 FOR VALUES FROM ('02-01-2022') TO ('03-01-2022'),
+            sales_jan2022 FOR VALUES FROM ('01-01-2022') TO ('02-01-2022'),
+            sales_others DEFAULT
+
+INSERT INTO sales_range VALUES
+  (1,  'May',      1000, '2022-01-31'),
+  (2,  'Smirnoff', 500,  '2022-02-10'),
+  (3,  'Ford',     2000, '2022-04-30'),
+  (4,  'Ivanov',   750,  '2022-04-13'),
+  (5,  'Deev',     250,  '2022-04-07'),
+  (6,  'Poirot',   150,  '2022-02-11'),
+  (7,  'Li',       175,  '2022-03-08'),
+  (8,  'Ericsson', 185,  '2022-02-23'),
+  (9,  'Muller',   250,  '2022-03-11'),
+  (10, 'Halder',   350,  '2022-01-28'),
+  (11, 'Trump',    380,  '2022-04-06'),
+  (12, 'Plato',    350,  '2022-03-19'),
+  (13, 'Gandi',    377,  '2022-01-09'),
+  (14, 'Smith',    510,  '2022-05-04');
+SELECT * FROM sales_range;
+ salesperson_id | salesperson_name | sales_amount | sales_date 
+----------------+------------------+--------------+------------
+              1 | May              |         1000 | 01-31-2022
+             10 | Halder           |          350 | 01-28-2022
+             13 | Gandi            |          377 | 01-09-2022
+              2 | Smirnoff         |          500 | 02-10-2022
+              6 | Poirot           |          150 | 02-11-2022
+              8 | Ericsson         |          185 | 02-23-2022
+              7 | Li               |          175 | 03-08-2022
+              9 | Muller           |          250 | 03-11-2022
+             12 | Plato            |          350 | 03-19-2022
+              3 | Ford             |         2000 | 04-30-2022
+              4 | Ivanov           |          750 | 04-13-2022
+              5 | Deev             |          250 | 04-07-2022
+             11 | Trump            |          380 | 04-06-2022
+             14 | Smith            |          510 | 05-04-2022
+(14 rows)
+
+SELECT * FROM sales_jan2022;
+ salesperson_id | salesperson_name | sales_amount | sales_date 
+----------------+------------------+--------------+------------
+              1 | May              |         1000 | 01-31-2022
+             10 | Halder           |          350 | 01-28-2022
+             13 | Gandi            |          377 | 01-09-2022
+(3 rows)
+
+SELECT * FROM sales_feb2022;
+ salesperson_id | salesperson_name | sales_amount | sales_date 
+----------------+------------------+--------------+------------
+              2 | Smirnoff         |          500 | 02-10-2022
+              6 | Poirot           |          150 | 02-11-2022
+              8 | Ericsson         |          185 | 02-23-2022
+(3 rows)
+
+SELECT * FROM partition_split_schema2.sales_mar2022;
+ salesperson_id | salesperson_name | sales_amount | sales_date 
+----------------+------------------+--------------+------------
+              7 | Li               |          175 | 03-08-2022
+              9 | Muller           |          250 | 03-11-2022
+             12 | Plato            |          350 | 03-19-2022
+(3 rows)
+
+SELECT * FROM sales_apr2022;
+ salesperson_id | salesperson_name | sales_amount | sales_date 
+----------------+------------------+--------------+------------
+              3 | Ford             |         2000 | 04-30-2022
+              4 | Ivanov           |          750 | 04-13-2022
+              5 | Deev             |          250 | 04-07-2022
+             11 | Trump            |          380 | 04-06-2022
+(4 rows)
+
+SELECT * FROM sales_others;
+ salesperson_id | salesperson_name | sales_amount | sales_date 
+----------------+------------------+--------------+------------
+             14 | Smith            |          510 | 05-04-2022
+(1 row)
+
+DROP TABLE sales_range CASCADE;
+--
+-- Test for:
+--   * composite partition key;
+--   * GENERATED column;
+--   * column with DEFAULT value.
+--
+CREATE TABLE sales_date (salesperson_name VARCHAR(30), sales_year INT, sales_month INT, sales_day INT,
+  sales_date VARCHAR(10) GENERATED ALWAYS AS
+    (LPAD(sales_year::text, 4, '0') || '.' || LPAD(sales_month::text, 2, '0') || '.' || LPAD(sales_day::text, 2, '0')) STORED,
+  sales_department VARCHAR(30) DEFAULT 'Sales department')
+  PARTITION BY RANGE (sales_year, sales_month, sales_day);
+CREATE TABLE sales_dec2021 PARTITION OF sales_date FOR VALUES FROM (2021, 12, 1) TO (2022, 1, 1);
+CREATE TABLE sales_jan_feb2022 PARTITION OF sales_date FOR VALUES FROM (2022, 1, 1) TO (2022, 3, 1);
+CREATE TABLE sales_other PARTITION OF sales_date FOR VALUES FROM (2022, 3, 1) TO (MAXVALUE, MAXVALUE, MAXVALUE);
+INSERT INTO sales_date(salesperson_name, sales_year, sales_month, sales_day) VALUES
+  ('Manager1', 2021, 12, 7),
+  ('Manager2', 2021, 12, 8),
+  ('Manager3', 2022, 1, 1),
+  ('Manager1', 2022, 2, 4),
+  ('Manager2', 2022, 1, 2),
+  ('Manager3', 2022, 2, 1),
+  ('Manager1', 2022, 3, 3),
+  ('Manager2', 2022, 3, 4),
+  ('Manager3', 2022, 5, 1);
+SELECT tableoid::regclass, * FROM sales_date ORDER BY tableoid, sales_year, sales_month, sales_day;
+     tableoid      | salesperson_name | sales_year | sales_month | sales_day | sales_date | sales_department 
+-------------------+------------------+------------+-------------+-----------+------------+------------------
+ sales_dec2021     | Manager1         |       2021 |          12 |         7 | 2021.12.07 | Sales department
+ sales_dec2021     | Manager2         |       2021 |          12 |         8 | 2021.12.08 | Sales department
+ sales_jan_feb2022 | Manager3         |       2022 |           1 |         1 | 2022.01.01 | Sales department
+ sales_jan_feb2022 | Manager2         |       2022 |           1 |         2 | 2022.01.02 | Sales department
+ sales_jan_feb2022 | Manager3         |       2022 |           2 |         1 | 2022.02.01 | Sales department
+ sales_jan_feb2022 | Manager1         |       2022 |           2 |         4 | 2022.02.04 | Sales department
+ sales_other       | Manager1         |       2022 |           3 |         3 | 2022.03.03 | Sales department
+ sales_other       | Manager2         |       2022 |           3 |         4 | 2022.03.04 | Sales department
+ sales_other       | Manager3         |       2022 |           5 |         1 | 2022.05.01 | Sales department
+(9 rows)
+
+ALTER TABLE sales_date SPLIT PARTITION sales_jan_feb2022 INTO
+  (PARTITION sales_jan2022 FOR VALUES FROM (2022, 1, 1) TO (2022, 2, 1),
+   PARTITION sales_feb2022 FOR VALUES FROM (2022, 2, 1) TO (2022, 3, 1));
+INSERT INTO sales_date(salesperson_name, sales_year, sales_month, sales_day) VALUES
+  ('Manager1', 2022, 1, 10),
+  ('Manager2', 2022, 2, 10);
+SELECT tableoid::regclass, * FROM sales_date ORDER BY tableoid, sales_year, sales_month, sales_day;
+   tableoid    | salesperson_name | sales_year | sales_month | sales_day | sales_date | sales_department 
+---------------+------------------+------------+-------------+-----------+------------+------------------
+ sales_dec2021 | Manager1         |       2021 |          12 |         7 | 2021.12.07 | Sales department
+ sales_dec2021 | Manager2         |       2021 |          12 |         8 | 2021.12.08 | Sales department
+ sales_other   | Manager1         |       2022 |           3 |         3 | 2022.03.03 | Sales department
+ sales_other   | Manager2         |       2022 |           3 |         4 | 2022.03.04 | Sales department
+ sales_other   | Manager3         |       2022 |           5 |         1 | 2022.05.01 | Sales department
+ sales_jan2022 | Manager3         |       2022 |           1 |         1 | 2022.01.01 | Sales department
+ sales_jan2022 | Manager2         |       2022 |           1 |         2 | 2022.01.02 | Sales department
+ sales_jan2022 | Manager1         |       2022 |           1 |        10 | 2022.01.10 | Sales department
+ sales_feb2022 | Manager3         |       2022 |           2 |         1 | 2022.02.01 | Sales department
+ sales_feb2022 | Manager1         |       2022 |           2 |         4 | 2022.02.04 | Sales department
+ sales_feb2022 | Manager2         |       2022 |           2 |        10 | 2022.02.10 | Sales department
+(11 rows)
+
+--ERROR:  relation "sales_jan_feb2022" does not exist
+SELECT * FROM sales_jan_feb2022;
+ERROR:  relation "sales_jan_feb2022" does not exist
+LINE 1: SELECT * FROM sales_jan_feb2022;
+                      ^
+DROP TABLE sales_date CASCADE;
+--
+-- Test: split DEFAULT partition; use an index on partition key; check index after split
+--
+CREATE TABLE sales_range (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date DATE) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_jan2022 PARTITION OF sales_range FOR VALUES FROM ('2022-01-01') TO ('2022-02-01');
+CREATE TABLE sales_others PARTITION OF sales_range DEFAULT;
+CREATE INDEX sales_range_sales_date_idx ON sales_range USING btree (sales_date);
+INSERT INTO sales_range VALUES
+  (1,  'May',      1000, '2022-01-31'),
+  (2,  'Smirnoff', 500,  '2022-02-10'),
+  (3,  'Ford',     2000, '2022-04-30'),
+  (4,  'Ivanov',   750,  '2022-04-13'),
+  (5,  'Deev',     250,  '2022-04-07'),
+  (6,  'Poirot',   150,  '2022-02-11'),
+  (7,  'Li',       175,  '2022-03-08'),
+  (8,  'Ericsson', 185,  '2022-02-23'),
+  (9,  'Muller',   250,  '2022-03-11'),
+  (10, 'Halder',   350,  '2022-01-28'),
+  (11, 'Trump',    380,  '2022-04-06'),
+  (12, 'Plato',    350,  '2022-03-19'),
+  (13, 'Gandi',    377,  '2022-01-09'),
+  (14, 'Smith',    510,  '2022-05-04');
+SELECT * FROM sales_others;
+ salesperson_id | salesperson_name | sales_amount | sales_date 
+----------------+------------------+--------------+------------
+              2 | Smirnoff         |          500 | 02-10-2022
+              3 | Ford             |         2000 | 04-30-2022
+              4 | Ivanov           |          750 | 04-13-2022
+              5 | Deev             |          250 | 04-07-2022
+              6 | Poirot           |          150 | 02-11-2022
+              7 | Li               |          175 | 03-08-2022
+              8 | Ericsson         |          185 | 02-23-2022
+              9 | Muller           |          250 | 03-11-2022
+             11 | Trump            |          380 | 04-06-2022
+             12 | Plato            |          350 | 03-19-2022
+             14 | Smith            |          510 | 05-04-2022
+(11 rows)
+
+SELECT * FROM pg_indexes WHERE tablename = 'sales_others' and schemaname = 'partition_split_schema' ORDER BY indexname;
+       schemaname       |  tablename   |          indexname          | tablespace |                                                 indexdef                                                 
+------------------------+--------------+-----------------------------+------------+----------------------------------------------------------------------------------------------------------
+ partition_split_schema | sales_others | sales_others_sales_date_idx |            | CREATE INDEX sales_others_sales_date_idx ON partition_split_schema.sales_others USING btree (sales_date)
+(1 row)
+
+ALTER TABLE sales_range SPLIT PARTITION sales_others INTO
+  (PARTITION sales_feb2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION sales_mar2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'),
+   PARTITION sales_others DEFAULT);
+-- Use indexscan for testing indexes
+SET enable_indexscan = ON;
+SET enable_seqscan = OFF;
+SELECT * FROM sales_feb2022 where sales_date > '2022-01-01';
+ salesperson_id | salesperson_name | sales_amount | sales_date 
+----------------+------------------+--------------+------------
+              2 | Smirnoff         |          500 | 02-10-2022
+              6 | Poirot           |          150 | 02-11-2022
+              8 | Ericsson         |          185 | 02-23-2022
+(3 rows)
+
+SELECT * FROM sales_mar2022 where sales_date > '2022-01-01';
+ salesperson_id | salesperson_name | sales_amount | sales_date 
+----------------+------------------+--------------+------------
+              7 | Li               |          175 | 03-08-2022
+              9 | Muller           |          250 | 03-11-2022
+             12 | Plato            |          350 | 03-19-2022
+(3 rows)
+
+SELECT * FROM sales_apr2022 where sales_date > '2022-01-01';
+ salesperson_id | salesperson_name | sales_amount | sales_date 
+----------------+------------------+--------------+------------
+             11 | Trump            |          380 | 04-06-2022
+              5 | Deev             |          250 | 04-07-2022
+              4 | Ivanov           |          750 | 04-13-2022
+              3 | Ford             |         2000 | 04-30-2022
+(4 rows)
+
+SELECT * FROM sales_others where sales_date > '2022-01-01';
+ salesperson_id | salesperson_name | sales_amount | sales_date 
+----------------+------------------+--------------+------------
+             14 | Smith            |          510 | 05-04-2022
+(1 row)
+
+SET enable_indexscan = ON;
+SET enable_seqscan = ON;
+SELECT * FROM pg_indexes WHERE tablename = 'sales_feb2022' and schemaname = 'partition_split_schema' ORDER BY indexname;
+       schemaname       |   tablename   |          indexname           | tablespace |                                                  indexdef                                                  
+------------------------+---------------+------------------------------+------------+------------------------------------------------------------------------------------------------------------
+ partition_split_schema | sales_feb2022 | sales_feb2022_sales_date_idx |            | CREATE INDEX sales_feb2022_sales_date_idx ON partition_split_schema.sales_feb2022 USING btree (sales_date)
+(1 row)
+
+SELECT * FROM pg_indexes WHERE tablename = 'sales_mar2022' and schemaname = 'partition_split_schema' ORDER BY indexname;
+       schemaname       |   tablename   |          indexname           | tablespace |                                                  indexdef                                                  
+------------------------+---------------+------------------------------+------------+------------------------------------------------------------------------------------------------------------
+ partition_split_schema | sales_mar2022 | sales_mar2022_sales_date_idx |            | CREATE INDEX sales_mar2022_sales_date_idx ON partition_split_schema.sales_mar2022 USING btree (sales_date)
+(1 row)
+
+SELECT * FROM pg_indexes WHERE tablename = 'sales_apr2022' and schemaname = 'partition_split_schema' ORDER BY indexname;
+       schemaname       |   tablename   |          indexname           | tablespace |                                                  indexdef                                                  
+------------------------+---------------+------------------------------+------------+------------------------------------------------------------------------------------------------------------
+ partition_split_schema | sales_apr2022 | sales_apr2022_sales_date_idx |            | CREATE INDEX sales_apr2022_sales_date_idx ON partition_split_schema.sales_apr2022 USING btree (sales_date)
+(1 row)
+
+SELECT * FROM pg_indexes WHERE tablename = 'sales_others' and schemaname = 'partition_split_schema' ORDER BY indexname;
+       schemaname       |  tablename   |          indexname           | tablespace |                                                 indexdef                                                  
+------------------------+--------------+------------------------------+------------+-----------------------------------------------------------------------------------------------------------
+ partition_split_schema | sales_others | sales_others_sales_date_idx1 |            | CREATE INDEX sales_others_sales_date_idx1 ON partition_split_schema.sales_others USING btree (sales_date)
+(1 row)
+
+DROP TABLE sales_range CASCADE;
+--
+-- Test: some cases for splitting DEFAULT partition (different bounds)
+--
+CREATE TABLE sales_range (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date INT) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_others PARTITION OF sales_range DEFAULT;
+-- sales_error intersects with sales_dec2021 (lower bound)
+-- ERROR:  lower bound of partition "sales_error" is not equal to the upper bound of partition "sales_dec2021"
+ALTER TABLE sales_range SPLIT PARTITION sales_others INTO
+  (PARTITION sales_dec2021 FOR VALUES FROM (20211201) TO (20220101),
+   PARTITION sales_error FOR VALUES FROM (20211230) TO (20220201),
+   PARTITION sales_feb2022 FOR VALUES FROM (20220201) TO (20220301),
+   PARTITION sales_others DEFAULT);
+ERROR:  lower bound of partition "sales_error" is not equal to the upper bound of partition "sales_dec2021"
+LINE 3:    PARTITION sales_error FOR VALUES FROM (20211230) TO (2022...
+                                                  ^
+HINT:  ALTER TABLE ... MERGE PARTITIONS requires the partition bounds to be adjacent.
+-- sales_error intersects with sales_feb2022 (upper bound)
+-- ERROR:  lower bound of partition "sales_feb2022" is not equal to the upper bound of partition "sales_error"
+ALTER TABLE sales_range SPLIT PARTITION sales_others INTO
+  (PARTITION sales_dec2021 FOR VALUES FROM (20211201) TO (20220101),
+   PARTITION sales_error FOR VALUES FROM (20220101) TO (20220202),
+   PARTITION sales_feb2022 FOR VALUES FROM (20220201) TO (20220301),
+   PARTITION sales_others DEFAULT);
+ERROR:  lower bound of partition "sales_feb2022" is not equal to the upper bound of partition "sales_error"
+LINE 4:    PARTITION sales_feb2022 FOR VALUES FROM (20220201) TO (20...
+                                                    ^
+HINT:  ALTER TABLE ... MERGE PARTITIONS requires the partition bounds to be adjacent.
+-- sales_error intersects with sales_dec2021 (inside bound)
+-- ERROR:  lower bound of partition "sales_feb2022" is not equal to the upper bound of partition "sales_error"
+ALTER TABLE sales_range SPLIT PARTITION sales_others INTO
+  (PARTITION sales_dec2021 FOR VALUES FROM (20211201) TO (20220101),
+   PARTITION sales_error FOR VALUES FROM (20211210) TO (20211220),
+   PARTITION sales_feb2022 FOR VALUES FROM (20220201) TO (20220301),
+   PARTITION sales_others DEFAULT);
+ERROR:  lower bound of partition "sales_error" is not equal to the upper bound of partition "sales_dec2021"
+LINE 3:    PARTITION sales_error FOR VALUES FROM (20211210) TO (2021...
+                                                  ^
+HINT:  ALTER TABLE ... MERGE PARTITIONS requires the partition bounds to be adjacent.
+-- sales_error intersects with sales_dec2021 (exactly the same bounds)
+-- ERROR:  lower bound of partition "sales_feb2022" is not equal to the upper bound of partition "sales_error"
+ALTER TABLE sales_range SPLIT PARTITION sales_others INTO
+  (PARTITION sales_dec2021 FOR VALUES FROM (20211201) TO (20220101),
+   PARTITION sales_error FOR VALUES FROM (20211201) TO (20220101),
+   PARTITION sales_feb2022 FOR VALUES FROM (20220201) TO (20220301),
+   PARTITION sales_others DEFAULT);
+ERROR:  lower bound of partition "sales_error" is not equal to the upper bound of partition "sales_dec2021"
+LINE 3:    PARTITION sales_error FOR VALUES FROM (20211201) TO (2022...
+                                                  ^
+HINT:  ALTER TABLE ... MERGE PARTITIONS requires the partition bounds to be adjacent.
+-- ERROR:  one partition in the list should be DEFAULT because split partition is DEFAULT
+ALTER TABLE sales_range SPLIT PARTITION sales_others INTO
+  (PARTITION sales_dec2021 FOR VALUES FROM (20211201) TO (20220101),
+   PARTITION sales_jan2022 FOR VALUES FROM (20220101) TO (20220201),
+   PARTITION sales_feb2022 FOR VALUES FROM (20220201) TO (20220301));
+ERROR:  one partition in the list should be DEFAULT because split partition is DEFAULT
+LINE 2:   (PARTITION sales_dec2021 FOR VALUES FROM (20211201) TO (20...
+                     ^
+-- no error: bounds of sales_noerror are between sales_dec2021 and sales_feb2022
+ALTER TABLE sales_range SPLIT PARTITION sales_others INTO
+  (PARTITION sales_dec2021 FOR VALUES FROM (20211201) TO (20220101),
+   PARTITION sales_noerror FOR VALUES FROM (20220110) TO (20220120),
+   PARTITION sales_feb2022 FOR VALUES FROM (20220201) TO (20220301),
+   PARTITION sales_others DEFAULT);
+DROP TABLE sales_range;
+CREATE TABLE sales_range (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date INT) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_others PARTITION OF sales_range DEFAULT;
+-- no error: bounds of sales_noerror are equal to lower and upper bounds of sales_dec2021 and sales_feb2022
+ALTER TABLE sales_range SPLIT PARTITION sales_others INTO
+  (PARTITION sales_dec2021 FOR VALUES FROM (20211201) TO (20220101),
+   PARTITION sales_noerror FOR VALUES FROM (20210101) TO (20210201),
+   PARTITION sales_feb2022 FOR VALUES FROM (20220201) TO (20220301),
+   PARTITION sales_others DEFAULT);
+DROP TABLE sales_range;
+--
+-- Test: split partition with CHECK and FOREIGN KEY CONSTRAINTs on partitioned table
+--
+CREATE TABLE salespeople(salesperson_id INT PRIMARY KEY, salesperson_name VARCHAR(30));
+INSERT INTO salespeople VALUES (1,  'Poirot');
+CREATE TABLE sales_range (
+salesperson_id INT REFERENCES salespeople(salesperson_id),
+sales_amount INT CHECK (sales_amount > 1),
+sales_date DATE) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_jan2022 PARTITION OF sales_range FOR VALUES FROM ('2022-01-01') TO ('2022-02-01');
+CREATE TABLE sales_feb_mar_apr2022 PARTITION OF sales_range FOR VALUES FROM ('2022-02-01') TO ('2022-05-01');
+CREATE TABLE sales_others PARTITION OF sales_range DEFAULT;
+SELECT pg_get_constraintdef(oid), conname, conkey FROM pg_constraint WHERE conrelid = 'sales_feb_mar_apr2022'::regclass::oid ORDER BY conname;
+                        pg_get_constraintdef                         |             conname             | conkey 
+---------------------------------------------------------------------+---------------------------------+--------
+ CHECK ((sales_amount > 1))                                          | sales_range_sales_amount_check  | {2}
+ FOREIGN KEY (salesperson_id) REFERENCES salespeople(salesperson_id) | sales_range_salesperson_id_fkey | {1}
+(2 rows)
+
+ALTER TABLE sales_range SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION sales_feb2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION sales_mar2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'));
+-- We should see the same CONSTRAINTs as on sales_feb_mar_apr2022 partition
+SELECT pg_get_constraintdef(oid), conname, conkey FROM pg_constraint WHERE conrelid = 'sales_feb2022'::regclass::oid ORDER BY conname;;
+                        pg_get_constraintdef                         |             conname             | conkey 
+---------------------------------------------------------------------+---------------------------------+--------
+ CHECK ((sales_amount > 1))                                          | sales_range_sales_amount_check  | {2}
+ FOREIGN KEY (salesperson_id) REFERENCES salespeople(salesperson_id) | sales_range_salesperson_id_fkey | {1}
+(2 rows)
+
+SELECT pg_get_constraintdef(oid), conname, conkey FROM pg_constraint WHERE conrelid = 'sales_mar2022'::regclass::oid ORDER BY conname;;
+                        pg_get_constraintdef                         |             conname             | conkey 
+---------------------------------------------------------------------+---------------------------------+--------
+ CHECK ((sales_amount > 1))                                          | sales_range_sales_amount_check  | {2}
+ FOREIGN KEY (salesperson_id) REFERENCES salespeople(salesperson_id) | sales_range_salesperson_id_fkey | {1}
+(2 rows)
+
+SELECT pg_get_constraintdef(oid), conname, conkey FROM pg_constraint WHERE conrelid = 'sales_apr2022'::regclass::oid ORDER BY conname;;
+                        pg_get_constraintdef                         |             conname             | conkey 
+---------------------------------------------------------------------+---------------------------------+--------
+ CHECK ((sales_amount > 1))                                          | sales_range_sales_amount_check  | {2}
+ FOREIGN KEY (salesperson_id) REFERENCES salespeople(salesperson_id) | sales_range_salesperson_id_fkey | {1}
+(2 rows)
+
+-- ERROR:  new row for relation "sales_mar2022" violates check constraint "sales_range_sales_amount_check"
+INSERT INTO sales_range VALUES (1, 0, '2022-03-11');
+ERROR:  new row for relation "sales_mar2022" violates check constraint "sales_range_sales_amount_check"
+DETAIL:  Failing row contains (1, 0, 03-11-2022).
+-- ERROR:  insert or update on table "sales_mar2022" violates foreign key constraint "sales_range_salesperson_id_fkey"
+INSERT INTO sales_range VALUES (-1, 10, '2022-03-11');
+ERROR:  insert or update on table "sales_mar2022" violates foreign key constraint "sales_range_salesperson_id_fkey"
+DETAIL:  Key (salesperson_id)=(-1) is not present in table "salespeople".
+-- ok
+INSERT INTO sales_range VALUES (1, 10, '2022-03-11');
+DROP TABLE sales_range CASCADE;
+DROP TABLE salespeople CASCADE;
+--
+-- Test: split partition on partitioned table in case of existing FOREIGN KEY reference from another table
+--
+CREATE TABLE salespeople(salesperson_id INT PRIMARY KEY, salesperson_name VARCHAR(30)) PARTITION BY RANGE (salesperson_id);
+CREATE TABLE sales (salesperson_id INT REFERENCES salespeople(salesperson_id), sales_amount INT, sales_date DATE);
+CREATE TABLE salespeople01_10 PARTITION OF salespeople FOR VALUES FROM (1) TO (10);
+CREATE TABLE salespeople10_40 PARTITION OF salespeople FOR VALUES FROM (10) TO (40);
+INSERT INTO salespeople VALUES
+  (1,  'Poirot'),
+  (10, 'May'),
+  (19, 'Ivanov'),
+  (20, 'Smirnoff'),
+  (30, 'Ford');
+INSERT INTO sales VALUES
+  (1,  100, '2022-03-01'),
+  (1,  110, '2022-03-02'),
+  (10, 150, '2022-03-01'),
+  (10, 90,  '2022-03-03'),
+  (19, 200, '2022-03-04'),
+  (20, 50,  '2022-03-12'),
+  (20, 170, '2022-03-02'),
+  (30, 30,  '2022-03-04');
+SELECT tableoid::regclass, * FROM salespeople ORDER BY tableoid, salesperson_id;
+     tableoid     | salesperson_id | salesperson_name 
+------------------+----------------+------------------
+ salespeople01_10 |              1 | Poirot
+ salespeople10_40 |             10 | May
+ salespeople10_40 |             19 | Ivanov
+ salespeople10_40 |             20 | Smirnoff
+ salespeople10_40 |             30 | Ford
+(5 rows)
+
+ALTER TABLE salespeople SPLIT PARTITION salespeople10_40 INTO
+  (PARTITION salespeople10_20 FOR VALUES FROM (10) TO (20),
+   PARTITION salespeople20_30 FOR VALUES FROM (20) TO (30),
+   PARTITION salespeople30_40 FOR VALUES FROM (30) TO (40));
+SELECT tableoid::regclass, * FROM salespeople ORDER BY tableoid, salesperson_id;
+     tableoid     | salesperson_id | salesperson_name 
+------------------+----------------+------------------
+ salespeople01_10 |              1 | Poirot
+ salespeople10_20 |             10 | May
+ salespeople10_20 |             19 | Ivanov
+ salespeople20_30 |             20 | Smirnoff
+ salespeople30_40 |             30 | Ford
+(5 rows)
+
+-- ERROR:  insert or update on table "sales" violates foreign key constraint "sales_salesperson_id_fkey"
+INSERT INTO sales VALUES (40, 50,  '2022-03-04');
+ERROR:  insert or update on table "sales" violates foreign key constraint "sales_salesperson_id_fkey"
+DETAIL:  Key (salesperson_id)=(40) is not present in table "salespeople".
+-- ok
+INSERT INTO sales VALUES (30, 50,  '2022-03-04');
+DROP TABLE sales CASCADE;
+DROP TABLE salespeople CASCADE;
+--
+-- Test: split partition of partitioned table with triggers
+--
+CREATE TABLE salespeople(salesperson_id INT PRIMARY KEY, salesperson_name VARCHAR(30)) PARTITION BY RANGE (salesperson_id);
+CREATE TABLE salespeople01_10 PARTITION OF salespeople FOR VALUES FROM (1) TO (10);
+CREATE TABLE salespeople10_40 PARTITION OF salespeople FOR VALUES FROM (10) TO (40);
+INSERT INTO salespeople VALUES (1,  'Poirot');
+CREATE OR REPLACE FUNCTION after_insert_row_trigger() RETURNS trigger LANGUAGE 'plpgsql' AS $BODY$
+BEGIN
+    RAISE NOTICE 'trigger(%) called: action = %, when = %, level = %', TG_ARGV[0], TG_OP, TG_WHEN, TG_LEVEL;
+    RETURN NULL;
+END;
+$BODY$;
+CREATE TRIGGER salespeople_after_insert_statement_trigger
+    AFTER INSERT
+    ON salespeople
+    FOR EACH STATEMENT
+    EXECUTE PROCEDURE after_insert_row_trigger('salespeople');
+CREATE TRIGGER salespeople_after_insert_row_trigger
+    AFTER INSERT
+    ON salespeople
+    FOR EACH ROW
+    EXECUTE PROCEDURE after_insert_row_trigger('salespeople');
+-- 2 triggers should fire here (row + statement):
+INSERT INTO salespeople VALUES (10, 'May');
+NOTICE:  trigger(salespeople) called: action = INSERT, when = AFTER, level = ROW
+NOTICE:  trigger(salespeople) called: action = INSERT, when = AFTER, level = STATEMENT
+-- 1 trigger should fire here (row):
+INSERT INTO salespeople10_40 VALUES (19, 'Ivanov');
+NOTICE:  trigger(salespeople) called: action = INSERT, when = AFTER, level = ROW
+ALTER TABLE salespeople SPLIT PARTITION salespeople10_40 INTO
+  (PARTITION salespeople10_20 FOR VALUES FROM (10) TO (20),
+   PARTITION salespeople20_30 FOR VALUES FROM (20) TO (30),
+   PARTITION salespeople30_40 FOR VALUES FROM (30) TO (40));
+-- 2 triggers should fire here (row + statement):
+INSERT INTO salespeople VALUES (20, 'Smirnoff');
+NOTICE:  trigger(salespeople) called: action = INSERT, when = AFTER, level = ROW
+NOTICE:  trigger(salespeople) called: action = INSERT, when = AFTER, level = STATEMENT
+-- 1 trigger should fire here (row):
+INSERT INTO salespeople30_40 VALUES (30, 'Ford');
+NOTICE:  trigger(salespeople) called: action = INSERT, when = AFTER, level = ROW
+SELECT tableoid::regclass, * FROM salespeople ORDER BY tableoid, salesperson_id;
+     tableoid     | salesperson_id | salesperson_name 
+------------------+----------------+------------------
+ salespeople01_10 |              1 | Poirot
+ salespeople10_20 |             10 | May
+ salespeople10_20 |             19 | Ivanov
+ salespeople20_30 |             20 | Smirnoff
+ salespeople30_40 |             30 | Ford
+(5 rows)
+
+DROP TABLE salespeople CASCADE;
+DROP FUNCTION after_insert_row_trigger();
+--
+-- Test: split partition witch identity column
+-- If split partition column is identity column, columns of new partitions are identity columns too.
+--
+CREATE TABLE salespeople(salesperson_id INT GENERATED ALWAYS AS IDENTITY PRIMARY KEY, salesperson_name VARCHAR(30)) PARTITION BY RANGE (salesperson_id);
+CREATE TABLE salespeople1_2 PARTITION OF salespeople FOR VALUES FROM (1) TO (2);
+-- Create new partition with identity column:
+CREATE TABLE salespeople2_5(salesperson_id INT NOT NULL, salesperson_name VARCHAR(30));
+ALTER TABLE salespeople ATTACH PARTITION salespeople2_5 FOR VALUES FROM (2) TO (5);
+INSERT INTO salespeople (salesperson_name) VALUES ('Poirot'), ('Ivanov');
+SELECT attname, attidentity, attgenerated FROM pg_attribute WHERE attnum > 0 AND attrelid = 'salespeople'::regclass::oid ORDER BY attnum;
+     attname      | attidentity | attgenerated 
+------------------+-------------+--------------
+ salesperson_id   | a           | 
+ salesperson_name |             | 
+(2 rows)
+
+SELECT attname, attidentity, attgenerated FROM pg_attribute WHERE attnum > 0 AND attrelid = 'salespeople1_2'::regclass::oid ORDER BY attnum;
+     attname      | attidentity | attgenerated 
+------------------+-------------+--------------
+ salesperson_id   | a           | 
+ salesperson_name |             | 
+(2 rows)
+
+-- Split partition has identity column:
+SELECT attname, attidentity, attgenerated FROM pg_attribute WHERE attnum > 0 AND attrelid = 'salespeople2_5'::regclass::oid ORDER BY attnum;
+     attname      | attidentity | attgenerated 
+------------------+-------------+--------------
+ salesperson_id   | a           | 
+ salesperson_name |             | 
+(2 rows)
+
+ALTER TABLE salespeople SPLIT PARTITION salespeople2_5 INTO
+  (PARTITION salespeople2_3 FOR VALUES FROM (2) TO (3),
+   PARTITION salespeople3_4 FOR VALUES FROM (3) TO (4),
+   PARTITION salespeople4_5 FOR VALUES FROM (4) TO (5));
+INSERT INTO salespeople (salesperson_name) VALUES ('May'), ('Ford');
+SELECT tableoid::regclass, * FROM salespeople ORDER BY tableoid, salesperson_id;
+    tableoid    | salesperson_id | salesperson_name 
+----------------+----------------+------------------
+ salespeople1_2 |              1 | Poirot
+ salespeople2_3 |              2 | Ivanov
+ salespeople3_4 |              3 | May
+ salespeople4_5 |              4 | Ford
+(4 rows)
+
+SELECT attname, attidentity, attgenerated FROM pg_attribute WHERE attnum > 0 AND attrelid = 'salespeople'::regclass::oid ORDER BY attnum;
+     attname      | attidentity | attgenerated 
+------------------+-------------+--------------
+ salesperson_id   | a           | 
+ salesperson_name |             | 
+(2 rows)
+
+SELECT attname, attidentity, attgenerated FROM pg_attribute WHERE attnum > 0 AND attrelid = 'salespeople1_2'::regclass::oid ORDER BY attnum;
+     attname      | attidentity | attgenerated 
+------------------+-------------+--------------
+ salesperson_id   | a           | 
+ salesperson_name |             | 
+(2 rows)
+
+-- New partitions have identity-columns:
+SELECT attname, attidentity, attgenerated FROM pg_attribute WHERE attnum > 0 AND attrelid = 'salespeople2_3'::regclass::oid ORDER BY attnum;
+     attname      | attidentity | attgenerated 
+------------------+-------------+--------------
+ salesperson_id   | a           | 
+ salesperson_name |             | 
+(2 rows)
+
+SELECT attname, attidentity, attgenerated FROM pg_attribute WHERE attnum > 0 AND attrelid = 'salespeople3_4'::regclass::oid ORDER BY attnum;
+     attname      | attidentity | attgenerated 
+------------------+-------------+--------------
+ salesperson_id   | a           | 
+ salesperson_name |             | 
+(2 rows)
+
+SELECT attname, attidentity, attgenerated FROM pg_attribute WHERE attnum > 0 AND attrelid = 'salespeople4_5'::regclass::oid ORDER BY attnum;
+     attname      | attidentity | attgenerated 
+------------------+-------------+--------------
+ salesperson_id   | a           | 
+ salesperson_name |             | 
+(2 rows)
+
+DROP TABLE salespeople CASCADE;
+--
+-- Test: split partition with deleted columns
+--
+CREATE TABLE salespeople(salesperson_id INT PRIMARY KEY, salesperson_name VARCHAR(30)) PARTITION BY RANGE (salesperson_id);
+CREATE TABLE salespeople01_10 PARTITION OF salespeople FOR VALUES FROM (1) TO (10);
+-- Create new partition with some deleted columns:
+CREATE TABLE salespeople10_40(d1 VARCHAR(30), salesperson_id INT PRIMARY KEY, d2 INT, d3 DATE, salesperson_name VARCHAR(30));
+INSERT INTO salespeople10_40 VALUES
+  ('dummy value 1', 19, 100, now(), 'Ivanov'),
+  ('dummy value 2', 20, 101, now(), 'Smirnoff');
+ALTER TABLE salespeople10_40 DROP COLUMN d1;
+ALTER TABLE salespeople10_40 DROP COLUMN d2;
+ALTER TABLE salespeople10_40 DROP COLUMN d3;
+ALTER TABLE salespeople ATTACH PARTITION salespeople10_40 FOR VALUES FROM (10) TO (40);
+INSERT INTO salespeople VALUES
+  (1, 'Poirot'),
+  (10, 'May'),
+  (30, 'Ford');
+ALTER TABLE salespeople SPLIT PARTITION salespeople10_40 INTO
+  (PARTITION salespeople10_20 FOR VALUES FROM (10) TO (20),
+   PARTITION salespeople20_30 FOR VALUES FROM (20) TO (30),
+   PARTITION salespeople30_40 FOR VALUES FROM (30) TO (40));
+SELECT tableoid::regclass, * FROM salespeople ORDER BY tableoid, salesperson_id;
+     tableoid     | salesperson_id | salesperson_name 
+------------------+----------------+------------------
+ salespeople01_10 |              1 | Poirot
+ salespeople10_20 |             10 | May
+ salespeople10_20 |             19 | Ivanov
+ salespeople20_30 |             20 | Smirnoff
+ salespeople30_40 |             30 | Ford
+(5 rows)
+
+DROP TABLE salespeople CASCADE;
+--
+-- Test: split sub-partition
+--
+CREATE TABLE sales_range (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date DATE) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_jan2022 PARTITION OF sales_range FOR VALUES FROM ('2022-01-01') TO ('2022-02-01');
+CREATE TABLE sales_feb2022 PARTITION OF sales_range FOR VALUES FROM ('2022-02-01') TO ('2022-03-01');
+CREATE TABLE sales_mar2022 PARTITION OF sales_range FOR VALUES FROM ('2022-03-01') TO ('2022-04-01');
+CREATE TABLE sales_apr2022 (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date DATE) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_apr_all PARTITION OF sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01');
+ALTER TABLE sales_range ATTACH PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01');
+CREATE TABLE sales_others PARTITION OF sales_range DEFAULT;
+CREATE INDEX sales_range_sales_date_idx ON sales_range USING btree (sales_date);
+INSERT INTO sales_range VALUES
+  (1,  'May',      1000, '2022-01-31'),
+  (2,  'Smirnoff', 500,  '2022-02-10'),
+  (3,  'Ford',     2000, '2022-04-30'),
+  (4,  'Ivanov',   750,  '2022-04-13'),
+  (5,  'Deev',     250,  '2022-04-07'),
+  (6,  'Poirot',   150,  '2022-02-11'),
+  (7,  'Li',       175,  '2022-03-08'),
+  (8,  'Ericsson', 185,  '2022-02-23'),
+  (9,  'Muller',   250,  '2022-03-11'),
+  (10, 'Halder',   350,  '2022-01-28'),
+  (11, 'Trump',    380,  '2022-04-06'),
+  (12, 'Plato',    350,  '2022-03-19'),
+  (13, 'Gandi',    377,  '2022-01-09'),
+  (14, 'Smith',    510,  '2022-05-04');
+SELECT * FROM sales_range;
+ salesperson_id | salesperson_name | sales_amount | sales_date 
+----------------+------------------+--------------+------------
+              1 | May              |         1000 | 01-31-2022
+             10 | Halder           |          350 | 01-28-2022
+             13 | Gandi            |          377 | 01-09-2022
+              2 | Smirnoff         |          500 | 02-10-2022
+              6 | Poirot           |          150 | 02-11-2022
+              8 | Ericsson         |          185 | 02-23-2022
+              7 | Li               |          175 | 03-08-2022
+              9 | Muller           |          250 | 03-11-2022
+             12 | Plato            |          350 | 03-19-2022
+              3 | Ford             |         2000 | 04-30-2022
+              4 | Ivanov           |          750 | 04-13-2022
+              5 | Deev             |          250 | 04-07-2022
+             11 | Trump            |          380 | 04-06-2022
+             14 | Smith            |          510 | 05-04-2022
+(14 rows)
+
+SELECT * FROM sales_apr2022;
+ salesperson_id | salesperson_name | sales_amount | sales_date 
+----------------+------------------+--------------+------------
+              3 | Ford             |         2000 | 04-30-2022
+              4 | Ivanov           |          750 | 04-13-2022
+              5 | Deev             |          250 | 04-07-2022
+             11 | Trump            |          380 | 04-06-2022
+(4 rows)
+
+ALTER TABLE sales_apr2022 SPLIT PARTITION sales_apr_all INTO
+  (PARTITION sales_apr2022_01_10 FOR VALUES FROM ('2022-04-01') TO ('2022-04-10'),
+   PARTITION sales_apr2022_10_20 FOR VALUES FROM ('2022-04-10') TO ('2022-04-20'),
+   PARTITION sales_apr2022_20_30 FOR VALUES FROM ('2022-04-20') TO ('2022-05-01'));
+SELECT tableoid::regclass, * FROM sales_range ORDER BY tableoid, salesperson_id;
+      tableoid       | salesperson_id | salesperson_name | sales_amount | sales_date 
+---------------------+----------------+------------------+--------------+------------
+ sales_jan2022       |              1 | May              |         1000 | 01-31-2022
+ sales_jan2022       |             10 | Halder           |          350 | 01-28-2022
+ sales_jan2022       |             13 | Gandi            |          377 | 01-09-2022
+ sales_feb2022       |              2 | Smirnoff         |          500 | 02-10-2022
+ sales_feb2022       |              6 | Poirot           |          150 | 02-11-2022
+ sales_feb2022       |              8 | Ericsson         |          185 | 02-23-2022
+ sales_mar2022       |              7 | Li               |          175 | 03-08-2022
+ sales_mar2022       |              9 | Muller           |          250 | 03-11-2022
+ sales_mar2022       |             12 | Plato            |          350 | 03-19-2022
+ sales_others        |             14 | Smith            |          510 | 05-04-2022
+ sales_apr2022_01_10 |              5 | Deev             |          250 | 04-07-2022
+ sales_apr2022_01_10 |             11 | Trump            |          380 | 04-06-2022
+ sales_apr2022_10_20 |              4 | Ivanov           |          750 | 04-13-2022
+ sales_apr2022_20_30 |              3 | Ford             |         2000 | 04-30-2022
+(14 rows)
+
+DROP TABLE sales_range;
+--
+-- BY LIST partitioning
+--
+--
+-- Test: specific errors for BY LIST partitioning
+--
+CREATE TABLE sales_list
+(salesperson_id INT,
+ salesperson_name VARCHAR(30),
+ sales_state VARCHAR(20),
+ sales_amount INT,
+ sales_date DATE)
+PARTITION BY LIST (sales_state);
+CREATE TABLE sales_nord PARTITION OF sales_list FOR VALUES IN ('Oslo', 'St. Petersburg', 'Helsinki');
+CREATE TABLE sales_all PARTITION OF sales_list FOR VALUES IN ('Warsaw', 'Lisbon', 'New York', 'Madrid', 'Bejing', 'Berlin', 'Delhi', 'Kyiv', 'Vladivostok');
+CREATE TABLE sales_others PARTITION OF sales_list DEFAULT;
+-- ERROR:  new partition "sales_east" would overlap with another (not split) partition "sales_nord"
+ALTER TABLE sales_list SPLIT PARTITION sales_all INTO
+  (PARTITION sales_west FOR VALUES IN ('Lisbon', 'New York', 'Madrid'),
+   PARTITION sales_east FOR VALUES IN ('Bejing', 'Delhi', 'Vladivostok', 'Helsinki'),
+   PARTITION sales_central FOR VALUES IN ('Warsaw', 'Berlin', 'Kyiv'));
+ERROR:  new partition "sales_east" would overlap with another (not split) partition "sales_nord"
+LINE 3: ... FOR VALUES IN ('Bejing', 'Delhi', 'Vladivostok', 'Helsinki'...
+                                                             ^
+-- ERROR:  new partition "sales_west" would overlap with another new partition "sales_central"
+ALTER TABLE sales_list SPLIT PARTITION sales_all INTO
+  (PARTITION sales_west FOR VALUES IN ('Lisbon', 'New York', 'Madrid'),
+   PARTITION sales_east FOR VALUES IN ('Bejing', 'Delhi', 'Vladivostok'),
+   PARTITION sales_central FOR VALUES IN ('Warsaw', 'Berlin', 'Lisbon', 'Kyiv'));
+ERROR:  new partition "sales_west" would overlap with another new partition "sales_central"
+LINE 2:   (PARTITION sales_west FOR VALUES IN ('Lisbon', 'New York',...
+                                               ^
+-- ERROR:  new partition "sales_west" cannot have NULL value because split partition does not have
+ALTER TABLE sales_list SPLIT PARTITION sales_all INTO
+  (PARTITION sales_west FOR VALUES IN ('Lisbon', 'New York', 'Madrid', NULL),
+   PARTITION sales_east FOR VALUES IN ('Bejing', 'Delhi', 'Vladivostok'),
+   PARTITION sales_central FOR VALUES IN ('Warsaw', 'Berlin', 'Kyiv'));
+ERROR:  new partition "sales_west" cannot have NULL value because split partition does not have
+LINE 2: ...s_west FOR VALUES IN ('Lisbon', 'New York', 'Madrid', NULL),
+                                                                 ^
+-- ERROR:  new partition "sales_west" cannot have this value because split partition does not have
+ALTER TABLE sales_list SPLIT PARTITION sales_all INTO
+  (PARTITION sales_west FOR VALUES IN ('Lisbon', 'New York', 'Madrid', 'Melbourne'),
+   PARTITION sales_east FOR VALUES IN ('Bejing', 'Delhi', 'Vladivostok'),
+   PARTITION sales_central FOR VALUES IN ('Warsaw', 'Berlin', 'Kyiv'));
+ERROR:  new partition "sales_west" cannot have this value because split partition does not have
+LINE 2: ...st FOR VALUES IN ('Lisbon', 'New York', 'Madrid', 'Melbourne...
+                                                             ^
+-- ERROR:  new partition cannot be DEFAULT because DEFAULT partition already exists
+ALTER TABLE sales_list SPLIT PARTITION sales_all INTO
+  (PARTITION sales_west FOR VALUES IN ('Lisbon', 'New York', 'Madrid', 'Melbourne'),
+   PARTITION sales_east FOR VALUES IN ('Bejing', 'Delhi', 'Vladivostok'),
+   PARTITION sales_central FOR VALUES IN ('Warsaw', 'Berlin', 'Kyiv'),
+   PARTITION sales_others2 DEFAULT);
+ERROR:  new partition cannot be DEFAULT because DEFAULT partition already exists
+LINE 5:    PARTITION sales_others2 DEFAULT);
+                     ^
+DROP TABLE sales_list;
+--
+-- Test: two specific errors for BY LIST partitioning:
+--   * new partitions do not have NULL value, which split partition has.
+--   * new partitions do not have a value that split partition has.
+--
+CREATE TABLE sales_list
+(salesperson_id INT,
+ salesperson_name VARCHAR(30),
+ sales_state VARCHAR(20),
+ sales_amount INT,
+ sales_date DATE)
+PARTITION BY LIST (sales_state);
+CREATE TABLE sales_nord PARTITION OF sales_list FOR VALUES IN ('Helsinki', 'St. Petersburg', 'Oslo');
+CREATE TABLE sales_all PARTITION OF sales_list FOR VALUES IN ('Warsaw', 'Lisbon', 'New York', 'Madrid', 'Bejing', 'Berlin', 'Delhi', 'Kyiv', 'Vladivostok', NULL);
+-- ERROR:  new partitions do not have value NULL but split partition does
+ALTER TABLE sales_list SPLIT PARTITION sales_all INTO
+  (PARTITION sales_west FOR VALUES IN ('Lisbon', 'New York', 'Madrid'),
+   PARTITION sales_east FOR VALUES IN ('Bejing', 'Delhi', 'Vladivostok'),
+   PARTITION sales_central FOR VALUES IN ('Warsaw', 'Berlin', 'Kyiv'));
+ERROR:  new partitions do not have value NULL but split partition does
+-- ERROR:  new partitions do not have value 'Kyiv' but split partition does
+ALTER TABLE sales_list SPLIT PARTITION sales_all INTO
+  (PARTITION sales_west FOR VALUES IN ('Lisbon', 'New York', 'Madrid'),
+   PARTITION sales_east FOR VALUES IN ('Bejing', 'Delhi', 'Vladivostok'),
+   PARTITION sales_central FOR VALUES IN ('Warsaw', 'Berlin', NULL));
+ERROR:  new partitions do not have value 'Kyiv' but split partition does
+-- ERROR  DEFAULT partition should be one
+ALTER TABLE sales_list SPLIT PARTITION sales_all INTO
+  (PARTITION sales_west FOR VALUES IN ('Lisbon', 'New York', 'Madrid'),
+   PARTITION sales_east FOR VALUES IN ('Bejing', 'Delhi', 'Vladivostok'),
+   PARTITION sales_central FOR VALUES IN ('Warsaw', 'Berlin', 'Kyiv'),
+   PARTITION sales_others DEFAULT,
+   PARTITION sales_others2 DEFAULT);
+ERROR:  DEFAULT partition should be one
+LINE 6:    PARTITION sales_others2 DEFAULT);
+                     ^
+DROP TABLE sales_list;
+--
+-- Test: BY LIST partitioning, SPLIT PARTITION with data
+--
+CREATE TABLE sales_list
+(salesperson_id SERIAL,
+ salesperson_name VARCHAR(30),
+ sales_state VARCHAR(20),
+ sales_amount INT,
+ sales_date DATE)
+PARTITION BY LIST (sales_state);
+CREATE INDEX sales_list_salesperson_name_idx ON sales_list USING btree (salesperson_name);
+CREATE INDEX sales_list_sales_state_idx ON sales_list USING btree (sales_state);
+CREATE TABLE sales_nord PARTITION OF sales_list FOR VALUES IN ('Helsinki', 'St. Petersburg', 'Oslo');
+CREATE TABLE sales_all PARTITION OF sales_list FOR VALUES IN ('Warsaw', 'Lisbon', 'New York', 'Madrid', 'Bejing', 'Berlin', 'Delhi', 'Kyiv', 'Vladivostok');
+CREATE TABLE sales_others PARTITION OF sales_list DEFAULT;
+INSERT INTO sales_list (salesperson_name, sales_state, sales_amount, sales_date) VALUES
+  ('Trump',    'Bejing',         1000, '2022-03-01'),
+  ('Smirnoff', 'New York',        500, '2022-03-03'),
+  ('Ford',     'St. Petersburg', 2000, '2022-03-05'),
+  ('Ivanov',   'Warsaw',          750, '2022-03-04'),
+  ('Deev',     'Lisbon',          250, '2022-03-07'),
+  ('Poirot',   'Berlin',         1000, '2022-03-01'),
+  ('May',      'Oslo',           1200, '2022-03-06'),
+  ('Li',       'Vladivostok',    1150, '2022-03-09'),
+  ('May',      'Oslo',           1200, '2022-03-11'),
+  ('Halder',   'Helsinki',        800, '2022-03-02'),
+  ('Muller',   'Madrid',          650, '2022-03-05'),
+  ('Smith',    'Kyiv',            350, '2022-03-10'),
+  ('Gandi',    'Warsaw',          150, '2022-03-08'),
+  ('Plato',    'Lisbon',          950, '2022-03-05');
+ALTER TABLE sales_list SPLIT PARTITION sales_all INTO
+  (PARTITION sales_west FOR VALUES IN ('Lisbon', 'New York', 'Madrid'),
+   PARTITION sales_east FOR VALUES IN ('Bejing', 'Delhi', 'Vladivostok'),
+   PARTITION sales_central FOR VALUES IN ('Warsaw', 'Berlin', 'Kyiv'));
+SELECT tableoid::regclass, * FROM sales_list ORDER BY tableoid, salesperson_id;
+   tableoid    | salesperson_id | salesperson_name |  sales_state   | sales_amount | sales_date 
+---------------+----------------+------------------+----------------+--------------+------------
+ sales_nord    |              3 | Ford             | St. Petersburg |         2000 | 03-05-2022
+ sales_nord    |              7 | May              | Oslo           |         1200 | 03-06-2022
+ sales_nord    |              9 | May              | Oslo           |         1200 | 03-11-2022
+ sales_nord    |             10 | Halder           | Helsinki       |          800 | 03-02-2022
+ sales_west    |              2 | Smirnoff         | New York       |          500 | 03-03-2022
+ sales_west    |              5 | Deev             | Lisbon         |          250 | 03-07-2022
+ sales_west    |             11 | Muller           | Madrid         |          650 | 03-05-2022
+ sales_west    |             14 | Plato            | Lisbon         |          950 | 03-05-2022
+ sales_east    |              1 | Trump            | Bejing         |         1000 | 03-01-2022
+ sales_east    |              8 | Li               | Vladivostok    |         1150 | 03-09-2022
+ sales_central |              4 | Ivanov           | Warsaw         |          750 | 03-04-2022
+ sales_central |              6 | Poirot           | Berlin         |         1000 | 03-01-2022
+ sales_central |             12 | Smith            | Kyiv           |          350 | 03-10-2022
+ sales_central |             13 | Gandi            | Warsaw         |          150 | 03-08-2022
+(14 rows)
+
+-- Use indexscan for testing indexes after splitting partition
+SET enable_indexscan = ON;
+SET enable_seqscan = OFF;
+SELECT * FROM sales_central WHERE sales_state = 'Warsaw';
+ salesperson_id | salesperson_name | sales_state | sales_amount | sales_date 
+----------------+------------------+-------------+--------------+------------
+              4 | Ivanov           | Warsaw      |          750 | 03-04-2022
+             13 | Gandi            | Warsaw      |          150 | 03-08-2022
+(2 rows)
+
+SELECT * FROM sales_list WHERE sales_state = 'Warsaw';
+ salesperson_id | salesperson_name | sales_state | sales_amount | sales_date 
+----------------+------------------+-------------+--------------+------------
+              4 | Ivanov           | Warsaw      |          750 | 03-04-2022
+             13 | Gandi            | Warsaw      |          150 | 03-08-2022
+(2 rows)
+
+SELECT * FROM sales_list WHERE salesperson_name = 'Ivanov';
+ salesperson_id | salesperson_name | sales_state | sales_amount | sales_date 
+----------------+------------------+-------------+--------------+------------
+              4 | Ivanov           | Warsaw      |          750 | 03-04-2022
+(1 row)
+
+SET enable_indexscan = ON;
+SET enable_seqscan = ON;
+DROP TABLE sales_list;
+--
+-- Test for:
+--   * split DEFAULT partition to partitions with spaces between bounds;
+--   * random order of partitions in SPLIT PARTITION command.
+--
+CREATE TABLE sales_range (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date DATE) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_others PARTITION OF sales_range DEFAULT;
+INSERT INTO sales_range VALUES
+  (1,  'May',      1000, '2022-01-31'),
+  (2,  'Smirnoff', 500,  '2022-02-09'),
+  (3,  'Ford',     2000, '2022-04-30'),
+  (4,  'Ivanov',   750,  '2022-04-13'),
+  (5,  'Deev',     250,  '2022-04-07'),
+  (6,  'Poirot',   150,  '2022-02-07'),
+  (7,  'Li',       175,  '2022-03-08'),
+  (8,  'Ericsson', 185,  '2022-02-23'),
+  (9,  'Muller',   250,  '2022-03-11'),
+  (10, 'Halder',   350,  '2022-01-28'),
+  (11, 'Trump',    380,  '2022-04-06'),
+  (12, 'Plato',    350,  '2022-03-19'),
+  (13, 'Gandi',    377,  '2022-01-09'),
+  (14, 'Smith',    510,  '2022-05-04');
+ALTER TABLE sales_range SPLIT PARTITION sales_others INTO
+  (PARTITION sales_others DEFAULT,
+   PARTITION sales_mar2022_1decade FOR VALUES FROM ('2022-03-01') TO ('2022-03-10'),
+   PARTITION sales_jan2022_1decade FOR VALUES FROM ('2022-01-01') TO ('2022-01-10'),
+   PARTITION sales_feb2022_1decade FOR VALUES FROM ('2022-02-01') TO ('2022-02-10'),
+   PARTITION sales_apr2022_1decade FOR VALUES FROM ('2022-04-01') TO ('2022-04-10'));
+SELECT tableoid::regclass, * FROM sales_range ORDER BY tableoid, salesperson_id;
+       tableoid        | salesperson_id | salesperson_name | sales_amount | sales_date 
+-----------------------+----------------+------------------+--------------+------------
+ sales_others          |              1 | May              |         1000 | 01-31-2022
+ sales_others          |              3 | Ford             |         2000 | 04-30-2022
+ sales_others          |              4 | Ivanov           |          750 | 04-13-2022
+ sales_others          |              8 | Ericsson         |          185 | 02-23-2022
+ sales_others          |              9 | Muller           |          250 | 03-11-2022
+ sales_others          |             10 | Halder           |          350 | 01-28-2022
+ sales_others          |             12 | Plato            |          350 | 03-19-2022
+ sales_others          |             14 | Smith            |          510 | 05-04-2022
+ sales_mar2022_1decade |              7 | Li               |          175 | 03-08-2022
+ sales_jan2022_1decade |             13 | Gandi            |          377 | 01-09-2022
+ sales_feb2022_1decade |              2 | Smirnoff         |          500 | 02-09-2022
+ sales_feb2022_1decade |              6 | Poirot           |          150 | 02-07-2022
+ sales_apr2022_1decade |              5 | Deev             |          250 | 04-07-2022
+ sales_apr2022_1decade |             11 | Trump            |          380 | 04-06-2022
+(14 rows)
+
+DROP TABLE sales_range;
+--
+-- Test for:
+--   * split non-DEFAULT partition to partitions with spaces between bounds;
+--   * random order of partitions in SPLIT PARTITION command.
+--
+CREATE TABLE sales_range (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date DATE) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_all PARTITION OF sales_range FOR VALUES FROM ('2022-01-01') TO ('2022-05-01');
+CREATE TABLE sales_others PARTITION OF sales_range DEFAULT;
+INSERT INTO sales_range VALUES
+  (1,  'May',      1000, '2022-01-31'),
+  (2,  'Smirnoff', 500,  '2022-02-09'),
+  (3,  'Ford',     2000, '2022-04-30'),
+  (4,  'Ivanov',   750,  '2022-04-13'),
+  (5,  'Deev',     250,  '2022-04-07'),
+  (6,  'Poirot',   150,  '2022-02-07'),
+  (7,  'Li',       175,  '2022-03-08'),
+  (8,  'Ericsson', 185,  '2022-02-23'),
+  (9,  'Muller',   250,  '2022-03-11'),
+  (10, 'Halder',   350,  '2022-01-28'),
+  (11, 'Trump',    380,  '2022-04-06'),
+  (12, 'Plato',    350,  '2022-03-19'),
+  (13, 'Gandi',    377,  '2022-01-09'),
+  (14, 'Smith',    510,  '2022-05-04');
+ALTER TABLE sales_range SPLIT PARTITION sales_all INTO
+  (PARTITION sales_mar2022_1decade FOR VALUES FROM ('2022-03-01') TO ('2022-03-10'),
+   PARTITION sales_jan2022_1decade FOR VALUES FROM ('2022-01-01') TO ('2022-01-10'),
+   PARTITION sales_feb2022_1decade FOR VALUES FROM ('2022-02-01') TO ('2022-02-10'),
+   PARTITION sales_apr2022_1decade FOR VALUES FROM ('2022-04-01') TO ('2022-04-10'));
+SELECT tableoid::regclass, * FROM sales_range ORDER BY tableoid, salesperson_id;
+       tableoid        | salesperson_id | salesperson_name | sales_amount | sales_date 
+-----------------------+----------------+------------------+--------------+------------
+ sales_others          |              1 | May              |         1000 | 01-31-2022
+ sales_others          |              3 | Ford             |         2000 | 04-30-2022
+ sales_others          |              4 | Ivanov           |          750 | 04-13-2022
+ sales_others          |              8 | Ericsson         |          185 | 02-23-2022
+ sales_others          |              9 | Muller           |          250 | 03-11-2022
+ sales_others          |             10 | Halder           |          350 | 01-28-2022
+ sales_others          |             12 | Plato            |          350 | 03-19-2022
+ sales_others          |             14 | Smith            |          510 | 05-04-2022
+ sales_mar2022_1decade |              7 | Li               |          175 | 03-08-2022
+ sales_jan2022_1decade |             13 | Gandi            |          377 | 01-09-2022
+ sales_feb2022_1decade |              2 | Smirnoff         |          500 | 02-09-2022
+ sales_feb2022_1decade |              6 | Poirot           |          150 | 02-07-2022
+ sales_apr2022_1decade |              5 | Deev             |          250 | 04-07-2022
+ sales_apr2022_1decade |             11 | Trump            |          380 | 04-06-2022
+(14 rows)
+
+DROP TABLE sales_range;
+--
+-- Test for split non-DEFAULT partition to DEFAULT partition + partitions
+-- with spaces between bounds.
+--
+CREATE TABLE sales_range (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date DATE) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_jan2022 PARTITION OF sales_range FOR VALUES FROM ('2022-01-01') TO ('2022-02-01');
+CREATE TABLE sales_all PARTITION OF sales_range FOR VALUES FROM ('2022-02-01') TO ('2022-05-01');
+INSERT INTO sales_range VALUES
+  (1,  'May',      1000, '2022-01-31'),
+  (2,  'Smirnoff', 500,  '2022-02-10'),
+  (3,  'Ford',     2000, '2022-04-30'),
+  (4,  'Ivanov',   750,  '2022-04-13'),
+  (5,  'Deev',     250,  '2022-04-07'),
+  (6,  'Poirot',   150,  '2022-02-11'),
+  (7,  'Li',       175,  '2022-03-08'),
+  (8,  'Ericsson', 185,  '2022-02-23'),
+  (9,  'Muller',   250,  '2022-03-11'),
+  (10, 'Halder',   350,  '2022-01-28'),
+  (11, 'Trump',    380,  '2022-04-06'),
+  (12, 'Plato',    350,  '2022-03-19'),
+  (13, 'Gandi',    377,  '2022-01-09');
+ALTER TABLE sales_range SPLIT PARTITION sales_all INTO
+  (PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'),
+   PARTITION sales_feb2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION sales_others DEFAULT);
+INSERT INTO sales_range VALUES (14, 'Smith',    510,  '2022-05-04');
+SELECT tableoid::regclass, * FROM sales_range ORDER BY tableoid, salesperson_id;
+   tableoid    | salesperson_id | salesperson_name | sales_amount | sales_date 
+---------------+----------------+------------------+--------------+------------
+ sales_jan2022 |              1 | May              |         1000 | 01-31-2022
+ sales_jan2022 |             10 | Halder           |          350 | 01-28-2022
+ sales_jan2022 |             13 | Gandi            |          377 | 01-09-2022
+ sales_apr2022 |              3 | Ford             |         2000 | 04-30-2022
+ sales_apr2022 |              4 | Ivanov           |          750 | 04-13-2022
+ sales_apr2022 |              5 | Deev             |          250 | 04-07-2022
+ sales_apr2022 |             11 | Trump            |          380 | 04-06-2022
+ sales_feb2022 |              2 | Smirnoff         |          500 | 02-10-2022
+ sales_feb2022 |              6 | Poirot           |          150 | 02-11-2022
+ sales_feb2022 |              8 | Ericsson         |          185 | 02-23-2022
+ sales_others  |              7 | Li               |          175 | 03-08-2022
+ sales_others  |              9 | Muller           |          250 | 03-11-2022
+ sales_others  |             12 | Plato            |          350 | 03-19-2022
+ sales_others  |             14 | Smith            |          510 | 05-04-2022
+(14 rows)
+
+DROP TABLE sales_range;
+--
+-- Try to SPLIT partition of another table.
+--
+CREATE TABLE t1(i int, t text) PARTITION BY LIST (t);
+CREATE TABLE t1pa PARTITION OF t1 FOR VALUES IN ('A');
+CREATE TABLE t2 (i int, t text) PARTITION BY RANGE (t);
+-- ERROR:  relation "t1pa" is not a partition of relation "t2"
+ALTER TABLE t2 SPLIT PARTITION t1pa INTO
+   (PARTITION t2a FOR VALUES FROM ('A') TO ('B'),
+    PARTITION t2b FOR VALUES FROM ('B') TO ('C'));
+ERROR:  relation "t1pa" is not a partition of relation "t2"
+HINT:  ALTER TABLE ... MERGE PARTITIONS can only merge partitions don't have sub-partitions
+DROP TABLE t2;
+DROP TABLE t1;
+--
+-- Try to SPLIT partition of temporary table.
+--
+CREATE TEMP TABLE t (i int) PARTITION BY RANGE (i);
+CREATE TEMP TABLE tp_0_2 PARTITION OF t FOR VALUES FROM (0) TO (2);
+SELECT c.oid::pg_catalog.regclass, pg_catalog.pg_get_expr(c.relpartbound, c.oid), c.relpersistence
+  FROM pg_catalog.pg_class c, pg_catalog.pg_inherits i
+  WHERE c.oid = i.inhrelid AND i.inhparent = 't'::regclass
+  ORDER BY pg_catalog.pg_get_expr(c.relpartbound, c.oid) = 'DEFAULT', c.oid::pg_catalog.regclass::pg_catalog.text;
+  oid   |        pg_get_expr         | relpersistence 
+--------+----------------------------+----------------
+ tp_0_2 | FOR VALUES FROM (0) TO (2) | t
+(1 row)
+
+ALTER TABLE t SPLIT PARTITION tp_0_2 INTO
+  (PARTITION tp_0_1 FOR VALUES FROM (0) TO (1),
+   PARTITION tp_1_2 FOR VALUES FROM (1) TO (2));
+-- Partitions should be temporary.
+SELECT c.oid::pg_catalog.regclass, pg_catalog.pg_get_expr(c.relpartbound, c.oid), c.relpersistence
+  FROM pg_catalog.pg_class c, pg_catalog.pg_inherits i
+  WHERE c.oid = i.inhrelid AND i.inhparent = 't'::regclass
+  ORDER BY pg_catalog.pg_get_expr(c.relpartbound, c.oid) = 'DEFAULT', c.oid::pg_catalog.regclass::pg_catalog.text;
+  oid   |        pg_get_expr         | relpersistence 
+--------+----------------------------+----------------
+ tp_0_1 | FOR VALUES FROM (0) TO (1) | t
+ tp_1_2 | FOR VALUES FROM (1) TO (2) | t
+(2 rows)
+
+DROP TABLE t;
+-- Check the new partitions inherit parent's tablespace
+CREATE TABLE t (i int PRIMARY KEY USING INDEX TABLESPACE regress_tblspace)
+  PARTITION BY RANGE (i) TABLESPACE regress_tblspace;
+CREATE TABLE tp_0_2 PARTITION OF t FOR VALUES FROM (0) TO (2);
+ALTER TABLE t SPLIT PARTITION tp_0_2 INTO
+  (PARTITION tp_0_1 FOR VALUES FROM (0) TO (1),
+   PARTITION tp_1_2 FOR VALUES FROM (1) TO (2));
+SELECT tablename, tablespace FROM pg_tables
+  WHERE tablename IN ('t', 'tp_0_1', 'tp_1_2') AND schemaname = 'partition_split_schema'
+  ORDER BY tablename, tablespace;
+ tablename |    tablespace    
+-----------+------------------
+ t         | regress_tblspace
+ tp_0_1    | regress_tblspace
+ tp_1_2    | regress_tblspace
+(3 rows)
+
+SELECT tablename, indexname, tablespace FROM pg_indexes
+  WHERE tablename IN ('t', 'tp_0_1', 'tp_1_2') AND schemaname = 'partition_split_schema'
+  ORDER BY tablename, indexname, tablespace;
+ tablename |  indexname  |    tablespace    
+-----------+-------------+------------------
+ t         | t_pkey      | regress_tblspace
+ tp_0_1    | tp_0_1_pkey | regress_tblspace
+ tp_1_2    | tp_1_2_pkey | regress_tblspace
+(3 rows)
+
+DROP TABLE t;
+-- Check new partitions inherits parent's table access method
+CREATE ACCESS METHOD partition_split_heap TYPE TABLE HANDLER heap_tableam_handler;
+CREATE TABLE t (i int) PARTITION BY RANGE (i) USING partition_split_heap;
+CREATE TABLE tp_0_2 PARTITION OF t FOR VALUES FROM (0) TO (2);
+ALTER TABLE t SPLIT PARTITION tp_0_2 INTO
+  (PARTITION tp_0_1 FOR VALUES FROM (0) TO (1),
+   PARTITION tp_1_2 FOR VALUES FROM (1) TO (2));
+SELECT c.relname, a.amname
+FROM pg_class c JOIN pg_am a ON c.relam = a.oid
+WHERE c.oid IN ('t'::regclass, 'tp_0_1'::regclass, 'tp_1_2'::regclass)
+ORDER BY c.relname;
+ relname |        amname        
+---------+----------------------
+ t       | partition_split_heap
+ tp_0_1  | partition_split_heap
+ tp_1_2  | partition_split_heap
+(3 rows)
+
+DROP TABLE t;
+DROP ACCESS METHOD partition_split_heap;
+-- Test permission checks.  The user needs to own the parent table and the
+-- the partition to split to do the split.
+CREATE ROLE regress_partition_split_alice;
+CREATE ROLE regress_partition_split_bob;
+GRANT ALL ON SCHEMA partition_split_schema TO regress_partition_split_alice;
+GRANT ALL ON SCHEMA partition_split_schema TO regress_partition_split_bob;
+SET SESSION AUTHORIZATION regress_partition_split_alice;
+CREATE TABLE t (i int) PARTITION BY RANGE (i);
+CREATE TABLE tp_0_2 PARTITION OF t FOR VALUES FROM (0) TO (2);
+SET SESSION AUTHORIZATION regress_partition_split_bob;
+ALTER TABLE t SPLIT PARTITION tp_0_2 INTO
+  (PARTITION tp_0_1 FOR VALUES FROM (0) TO (1),
+   PARTITION tp_1_2 FOR VALUES FROM (1) TO (2));
+ERROR:  must be owner of table t
+RESET SESSION AUTHORIZATION;
+ALTER TABLE t OWNER TO regress_partition_split_bob;
+SET SESSION AUTHORIZATION regress_partition_split_bob;
+ALTER TABLE t SPLIT PARTITION tp_0_2 INTO
+  (PARTITION tp_0_1 FOR VALUES FROM (0) TO (1),
+   PARTITION tp_1_2 FOR VALUES FROM (1) TO (2));
+ERROR:  must be owner of table tp_0_2
+RESET SESSION AUTHORIZATION;
+ALTER TABLE tp_0_2 OWNER TO regress_partition_split_bob;
+SET SESSION AUTHORIZATION regress_partition_split_bob;
+ALTER TABLE t SPLIT PARTITION tp_0_2 INTO
+  (PARTITION tp_0_1 FOR VALUES FROM (0) TO (1),
+   PARTITION tp_1_2 FOR VALUES FROM (1) TO (2));
+RESET SESSION AUTHORIZATION;
+DROP TABLE t;
+REVOKE ALL ON SCHEMA partition_split_schema FROM regress_partition_split_alice;
+REVOKE ALL ON SCHEMA partition_split_schema FROM regress_partition_split_bob;
+DROP ROLE regress_partition_split_alice;
+DROP ROLE regress_partition_split_bob;
+-- Split partition of a temporary table when one of the partitions after
+-- split has the same name as the partition being split
+CREATE TEMP TABLE t (a int) PARTITION BY RANGE (a);
+CREATE TEMP TABLE tp_0 PARTITION OF t FOR VALUES FROM (0) TO (2);
+ALTER TABLE t SPLIT PARTITION tp_0 INTO
+  (PARTITION tp_0 FOR VALUES FROM (0) TO (1),
+   PARTITION tp_1 FOR VALUES FROM (1) TO (2));
+DROP TABLE t;
+-- Check defaults and constraints of new partitions
+CREATE TABLE t_bigint (
+  b bigint,
+  i int DEFAULT (3+10),
+  j int DEFAULT 101,
+  k int GENERATED ALWAYS AS (b+10) STORED
+)
+PARTITION BY RANGE (b);
+CREATE TABLE t_bigint_default PARTITION OF t_bigint DEFAULT;
+-- Show defaults/constraints before SPLIT PARTITION
+\d+ t_bigint
+                                  Partitioned table "partition_split_schema.t_bigint"
+ Column |  Type   | Collation | Nullable |                Default                | Storage | Stats target | Description 
+--------+---------+-----------+----------+---------------------------------------+---------+--------------+-------------
+ b      | bigint  |           |          |                                       | plain   |              | 
+ i      | integer |           |          | 3 + 10                                | plain   |              | 
+ j      | integer |           |          | 101                                   | plain   |              | 
+ k      | integer |           |          | generated always as ((b + 10)) stored | plain   |              | 
+Partition key: RANGE (b)
+Partitions: t_bigint_default DEFAULT
+
+\d+ t_bigint_default
+                                    Table "partition_split_schema.t_bigint_default"
+ Column |  Type   | Collation | Nullable |                Default                | Storage | Stats target | Description 
+--------+---------+-----------+----------+---------------------------------------+---------+--------------+-------------
+ b      | bigint  |           |          |                                       | plain   |              | 
+ i      | integer |           |          | 3 + 10                                | plain   |              | 
+ j      | integer |           |          | 101                                   | plain   |              | 
+ k      | integer |           |          | generated always as ((b + 10)) stored | plain   |              | 
+Partition of: t_bigint DEFAULT
+No partition constraint
+
+ALTER TABLE t_bigint SPLIT PARTITION t_bigint_default INTO
+  (PARTITION t_bigint_01_10 FOR VALUES FROM (0) TO (10),
+   PARTITION t_bigint_default DEFAULT);
+-- Show defaults/constraints after SPLIT PARTITION
+\d+ t_bigint_default
+                                    Table "partition_split_schema.t_bigint_default"
+ Column |  Type   | Collation | Nullable |                Default                | Storage | Stats target | Description 
+--------+---------+-----------+----------+---------------------------------------+---------+--------------+-------------
+ b      | bigint  |           |          |                                       | plain   |              | 
+ i      | integer |           |          | 3 + 10                                | plain   |              | 
+ j      | integer |           |          | 101                                   | plain   |              | 
+ k      | integer |           |          | generated always as ((b + 10)) stored | plain   |              | 
+Partition of: t_bigint DEFAULT
+Partition constraint: (NOT ((b IS NOT NULL) AND ((b >= '0'::bigint) AND (b < '10'::bigint))))
+
+\d+ t_bigint_01_10
+                                     Table "partition_split_schema.t_bigint_01_10"
+ Column |  Type   | Collation | Nullable |                Default                | Storage | Stats target | Description 
+--------+---------+-----------+----------+---------------------------------------+---------+--------------+-------------
+ b      | bigint  |           |          |                                       | plain   |              | 
+ i      | integer |           |          | 3 + 10                                | plain   |              | 
+ j      | integer |           |          | 101                                   | plain   |              | 
+ k      | integer |           |          | generated always as ((b + 10)) stored | plain   |              | 
+Partition of: t_bigint FOR VALUES FROM ('0') TO ('10')
+Partition constraint: ((b IS NOT NULL) AND (b >= '0'::bigint) AND (b < '10'::bigint))
+
+DROP TABLE t_bigint;
+-- Test: owner of new partitions should be the same as owner of split partition
+CREATE ROLE regress_partition_split_alice;
+GRANT ALL ON SCHEMA partition_split_schema TO regress_partition_split_alice;
+CREATE TABLE t (i int) PARTITION BY RANGE (i);
+SET SESSION AUTHORIZATION regress_partition_split_alice;
+CREATE TABLE tp_0_2(i int);
+RESET SESSION AUTHORIZATION;
+ALTER TABLE t ATTACH PARTITION tp_0_2 FOR VALUES FROM (0) TO (2);
+-- Owner is 'regress_partition_split_alice':
+\dt tp_0_2
+                             List of tables
+         Schema         |  Name  | Type  |             Owner             
+------------------------+--------+-------+-------------------------------
+ partition_split_schema | tp_0_2 | table | regress_partition_split_alice
+(1 row)
+
+ALTER TABLE t SPLIT PARTITION tp_0_2 INTO
+  (PARTITION tp_0_1 FOR VALUES FROM (0) TO (1),
+   PARTITION tp_1_2 FOR VALUES FROM (1) TO (2));
+-- Owner should be 'regress_partition_split_alice':
+\dt tp_0_1
+                             List of tables
+         Schema         |  Name  | Type  |             Owner             
+------------------------+--------+-------+-------------------------------
+ partition_split_schema | tp_0_1 | table | regress_partition_split_alice
+(1 row)
+
+\dt tp_1_2
+                             List of tables
+         Schema         |  Name  | Type  |             Owner             
+------------------------+--------+-------+-------------------------------
+ partition_split_schema | tp_1_2 | table | regress_partition_split_alice
+(1 row)
+
+DROP TABLE t;
+REVOKE ALL ON SCHEMA partition_split_schema FROM regress_partition_split_alice;
+DROP ROLE regress_partition_split_alice;
+-- Test: index of new partitions should be created with same owner as split
+-- partition
+CREATE ROLE regress_partition_split_alice;
+GRANT ALL ON SCHEMA partition_split_schema TO regress_partition_split_alice;
+SET SESSION AUTHORIZATION regress_partition_split_alice;
+CREATE TABLE t (i int) PARTITION BY RANGE (i);
+CREATE TABLE tp_10_20 PARTITION OF t FOR VALUES FROM (10) TO (20);
+INSERT INTO t VALUES (11), (16);
+CREATE OR REPLACE FUNCTION run_me(integer) RETURNS integer AS $$
+BEGIN
+  RAISE NOTICE 'you are running me as %', CURRENT_USER;
+  RETURN $1;
+END
+$$ LANGUAGE PLPGSQL IMMUTABLE;
+-- Owner is 'regress_partition_split_alice':
+CREATE INDEX ON t (run_me(i));
+NOTICE:  you are running me as regress_partition_split_alice
+NOTICE:  you are running me as regress_partition_split_alice
+RESET SESSION AUTHORIZATION;
+-- Owner should be 'regress_partition_split_alice':
+ALTER TABLE t SPLIT PARTITION tp_10_20 INTO
+  (PARTITION tp_10_15 FOR VALUES FROM (10) TO (15),
+   PARTITION tp_15_20 FOR VALUES FROM (15) TO (20));
+NOTICE:  you are running me as regress_partition_split_alice
+NOTICE:  you are running me as regress_partition_split_alice
+DROP TABLE t;
+DROP FUNCTION run_me(integer);
+REVOKE ALL ON SCHEMA partition_split_schema FROM regress_partition_split_alice;
+DROP ROLE regress_partition_split_alice;
+-- Test for hash partitioned table
+CREATE TABLE t (i int) PARTITION BY HASH(i);
+CREATE TABLE tp1 PARTITION OF t FOR VALUES WITH (MODULUS 2, REMAINDER 0);
+CREATE TABLE tp2 PARTITION OF t FOR VALUES WITH (MODULUS 2, REMAINDER 1);
+-- ERROR:  partition of hash-partitioned table cannot be split
+ALTER TABLE t SPLIT PARTITION tp1 INTO
+  (PARTITION tp1_1 FOR VALUES WITH (MODULUS 4, REMAINDER 0),
+   PARTITION tp1_2 FOR VALUES WITH (MODULUS 4, REMAINDER 2));
+ERROR:  partition of hash-partitioned table cannot be split
+-- ERROR:  list of new partitions should contain at least two items
+ALTER TABLE t SPLIT PARTITION tp1 INTO
+  (PARTITION tp1_1 FOR VALUES WITH (MODULUS 4, REMAINDER 0));
+ERROR:  list of new partitions should contain at least two items
+DROP TABLE t;
+-- Additional tests for error messages
+CREATE TABLE sales_range (salesperson_id int, salesperson_name varchar(30), sales_amount int, sales_date date) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_jan2022 PARTITION OF sales_range FOR VALUES FROM ('2022-01-01') TO ('2022-02-01');
+CREATE TABLE sales_feb_mar_apr2022 PARTITION OF sales_range FOR VALUES FROM ('2022-02-01') TO ('2022-05-01');
+-- ERROR:  upper bound of partition "sales_apr2022" is not equal to upper bound of split partition
+ALTER TABLE sales_range SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION sales_feb2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION sales_mar2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-06-01'));
+ERROR:  upper bound of partition "sales_apr2022" is not equal to upper bound of split partition
+LINE 4: ... sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-06-0...
+                                                             ^
+DROP TABLE sales_range;
+-- Test for split partition properties:
+-- * STATISTICS is empty
+-- * COMMENT is empty
+-- * DEFAULTS are the same as DEFAULTS for partitioned table
+-- * STORAGE is the same as STORAGE for partitioned table
+-- * GENERATED and CONSTRAINTS are the same as GENERATED and CONSTRAINTS for partitioned table
+-- * TRIGGERS are the same as TRIGGERS for partitioned table
+CREATE TABLE t
+(i int NOT NULL,
+ t text STORAGE EXTENDED COMPRESSION pglz DEFAULT 'default_t',
+ b bigint,
+ d date GENERATED ALWAYS as ('2022-01-01') STORED) PARTITION BY RANGE (abs(i));
+COMMENT ON COLUMN t.i IS 't1.i';
+CREATE TABLE tp_x
+(i int NOT NULL,
+ t text STORAGE MAIN DEFAULT 'default_tp_x',
+ b bigint,
+ d date GENERATED ALWAYS as ('2022-02-02') STORED);
+ALTER TABLE t ATTACH PARTITION tp_x FOR VALUES FROM (0) TO (2);
+COMMENT ON COLUMN tp_x.i IS 'tp_x.i';
+CREATE STATISTICS t_stat (DEPENDENCIES) on i, b from t;
+CREATE STATISTICS tp_x_stat (DEPENDENCIES) on i, b from tp_x;
+ALTER TABLE t ADD CONSTRAINT t_b_check CHECK (b > 0);
+ALTER TABLE t ADD CONSTRAINT t_b_check1 CHECK (b > 0) NOT ENFORCED;
+ALTER TABLE t ADD CONSTRAINT t_b_check2 CHECK (b > 0) NOT VALID;
+ALTER TABLE t ADD CONSTRAINT t_b_nn NOT NULL b NOT VALID;
+INSERT INTO tp_x(i, t, b) VALUES(0, DEFAULT, 1);
+INSERT INTO tp_x(i, t, b) VALUES(1, DEFAULT, 2);
+CREATE OR REPLACE FUNCTION trigger_function() RETURNS trigger LANGUAGE 'plpgsql' AS
+$BODY$
+BEGIN
+  RAISE NOTICE 'trigger(%) called: action = %, when = %, level = %', TG_ARGV[0], TG_OP, TG_WHEN, TG_LEVEL;
+  RETURN new;
+END;
+$BODY$;
+CREATE TRIGGER t_before_insert_row_trigger BEFORE INSERT ON t FOR EACH ROW
+  EXECUTE PROCEDURE trigger_function('t');
+CREATE TRIGGER tp_x_before_insert_row_trigger BEFORE INSERT ON tp_x FOR EACH ROW
+  EXECUTE PROCEDURE trigger_function('tp_x');
+\d+ tp_x
+                                               Table "partition_split_schema.tp_x"
+ Column |  Type   | Collation | Nullable |                     Default                     | Storage | Stats target | Description 
+--------+---------+-----------+----------+-------------------------------------------------+---------+--------------+-------------
+ i      | integer |           | not null |                                                 | plain   |              | tp_x.i
+ t      | text    |           |          | 'default_tp_x'::text                            | main    |              | 
+ b      | bigint  |           | not null |                                                 | plain   |              | 
+ d      | date    |           |          | generated always as ('02-02-2022'::date) stored | plain   |              | 
+Partition of: t FOR VALUES FROM (0) TO (2)
+Partition constraint: ((abs(i) IS NOT NULL) AND (abs(i) >= 0) AND (abs(i) < 2))
+Check constraints:
+    "t_b_check" CHECK (b > 0)
+    "t_b_check1" CHECK (b > 0) NOT ENFORCED
+    "t_b_check2" CHECK (b > 0) NOT VALID
+Statistics objects:
+    "partition_split_schema.tp_x_stat" (dependencies) ON i, b FROM tp_x
+Not-null constraints:
+    "tp_x_i_not_null" NOT NULL "i" (inherited)
+    "t_b_nn" NOT NULL "b" (inherited) NOT VALID
+Triggers:
+    t_before_insert_row_trigger BEFORE INSERT ON tp_x FOR EACH ROW EXECUTE FUNCTION trigger_function('t'), ON TABLE t
+    tp_x_before_insert_row_trigger BEFORE INSERT ON tp_x FOR EACH ROW EXECUTE FUNCTION trigger_function('tp_x')
+
+ALTER TABLE t SPLIT PARTITION tp_x INTO
+  (PARTITION tp_0_1 FOR VALUES FROM (0) TO (1),
+   PARTITION tp_x FOR VALUES FROM (1) TO (2));
+\d+ tp_x
+                                                Table "partition_split_schema.tp_x"
+ Column |  Type   | Collation | Nullable |                     Default                     | Storage  | Stats target | Description 
+--------+---------+-----------+----------+-------------------------------------------------+----------+--------------+-------------
+ i      | integer |           | not null |                                                 | plain    |              | 
+ t      | text    |           |          | 'default_t'::text                               | extended |              | 
+ b      | bigint  |           | not null |                                                 | plain    |              | 
+ d      | date    |           |          | generated always as ('01-01-2022'::date) stored | plain    |              | 
+Partition of: t FOR VALUES FROM (1) TO (2)
+Partition constraint: ((abs(i) IS NOT NULL) AND (abs(i) >= 1) AND (abs(i) < 2))
+Check constraints:
+    "t_b_check" CHECK (b > 0)
+    "t_b_check1" CHECK (b > 0) NOT ENFORCED
+    "t_b_check2" CHECK (b > 0) NOT VALID
+Not-null constraints:
+    "t_i_not_null" NOT NULL "i" (inherited)
+    "t_b_nn" NOT NULL "b" (inherited) NOT VALID
+Triggers:
+    t_before_insert_row_trigger BEFORE INSERT ON tp_x FOR EACH ROW EXECUTE FUNCTION trigger_function('t'), ON TABLE t
+
+INSERT INTO t(i, t, b) VALUES(1, DEFAULT, 3);
+NOTICE:  trigger(t) called: action = INSERT, when = BEFORE, level = ROW
+SELECT tableoid::regclass, * FROM t ORDER BY b;
+ tableoid | i |      t       | b |     d      
+----------+---+--------------+---+------------
+ tp_0_1   | 0 | default_tp_x | 1 | 01-01-2022
+ tp_x     | 1 | default_tp_x | 2 | 01-01-2022
+ tp_x     | 1 | default_t    | 3 | 01-01-2022
+(3 rows)
+
+DROP TABLE t;
+DROP FUNCTION trigger_function();
+-- Test for recomputation of stored generated columns.
+CREATE TABLE t (i int, tab_id int generated always as (tableoid) stored) PARTITION BY RANGE (i);
+CREATE TABLE tp_0_2 PARTITION OF t FOR VALUES FROM (0) TO (2);
+ALTER TABLE t ADD CONSTRAINT cc CHECK(tableoid <> 123456789);
+INSERT INTO t VALUES (0), (1);
+-- Should be 1 because partition identifier for row with i=0 is the same as
+-- partition identifier for row with i=1.
+SELECT count(*) FROM t WHERE i = 0 AND tab_id IN (SELECT tab_id FROM t WHERE i = 1);
+ count 
+-------
+     1
+(1 row)
+
+-- "tab_id" column (stored generated column) with "tableoid" attribute requires
+-- recomputation here.
+ALTER TABLE t SPLIT PARTITION tp_0_2 INTO
+  (PARTITION tp_0_1 FOR VALUES FROM (0) TO (1),
+   PARTITION tp_1_2 FOR VALUES FROM (1) TO (2));
+-- Should be 0 because partition identifier for row with i=0 is different from
+-- partition identifier for row with i=1.
+SELECT count(*) FROM t WHERE i = 0 AND tab_id IN (SELECT tab_id FROM t WHERE i = 1);
+ count 
+-------
+     0
+(1 row)
+
+DROP TABLE t;
+RESET search_path;
+--
+DROP SCHEMA partition_split_schema;
+DROP SCHEMA partition_split_schema2;
diff --git a/src/test/regress/parallel_schedule b/src/test/regress/parallel_schedule
index 6464a238ac..a98aef7ca1 100644
--- a/src/test/regress/parallel_schedule
+++ b/src/test/regress/parallel_schedule
@@ -123,7 +123,7 @@ test: plancache limit plpgsql copy2 temp domain rangefuncs prepare conversion tr
 # The stats test resets stats, so nothing else needing stats access can be in
 # this group.
 # ----------
-test: partition_merge partition_join partition_prune reloptions hash_part indexing partition_aggregate partition_info tuplesort explain compression memoize stats predicate numa
+test: partition_merge partition_split partition_join partition_prune reloptions hash_part indexing partition_aggregate partition_info tuplesort explain compression memoize stats predicate numa
 
 # event_trigger depends on create_am and cannot run concurrently with
 # any test that runs DDL
diff --git a/src/test/regress/sql/partition_split.sql b/src/test/regress/sql/partition_split.sql
new file mode 100644
index 0000000000..7fa4b69376
--- /dev/null
+++ b/src/test/regress/sql/partition_split.sql
@@ -0,0 +1,1148 @@
+--
+-- PARTITION_SPLIT
+-- Tests for "ALTER TABLE ... SPLIT PARTITION ..." command
+--
+
+CREATE SCHEMA partition_split_schema;
+CREATE SCHEMA partition_split_schema2;
+SET search_path = partition_split_schema, public;
+
+--
+-- BY RANGE partitioning
+--
+
+--
+-- Test for error codes
+--
+CREATE TABLE sales_range (salesperson_id int, salesperson_name varchar(30), sales_amount int, sales_date date) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_jan2022 PARTITION OF sales_range FOR VALUES FROM ('2022-01-01') TO ('2022-02-01');
+CREATE TABLE sales_feb_mar_apr2022 PARTITION OF sales_range FOR VALUES FROM ('2022-02-01') TO ('2022-05-01');
+CREATE TABLE sales_others PARTITION OF sales_range DEFAULT;
+
+-- ERROR:  relation "sales_xxx" does not exist
+ALTER TABLE sales_range SPLIT PARTITION sales_xxx INTO
+  (PARTITION sales_feb2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION sales_mar2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'));
+
+-- ERROR:  relation "sales_jan2022" already exists
+ALTER TABLE sales_range SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION sales_jan2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION sales_mar2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'));
+
+-- ERROR:  invalid bound specification for a range partition
+ALTER TABLE sales_range SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION sales_jan2022 FOR VALUES IN ('2022-05-01', '2022-06-01'),
+   PARTITION sales_mar2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'));
+
+-- ERROR:  empty range bound specified for partition "sales_mar2022"
+ALTER TABLE sales_range SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION sales_feb2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION sales_mar2022 FOR VALUES FROM ('2022-03-01') TO ('2022-02-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'));
+
+--ERROR:  list of split partitions should contain at least two items
+ALTER TABLE sales_range SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION sales_feb2022 FOR VALUES FROM ('2022-02-01') TO ('2022-10-01'));
+
+-- ERROR:  lower bound of partition "sales_feb2022" is less than lower bound of split partition
+ALTER TABLE sales_range SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION sales_feb2022 FOR VALUES FROM ('2022-01-01') TO ('2022-03-01'),
+   PARTITION sales_mar2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'));
+
+-- ERROR:  name "sales_feb_mar_apr2022" is already used
+-- (We can create partition with the same name as split partition, but can't create two partitions with the same name)
+ALTER TABLE sales_range SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION sales_feb_mar_apr2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION sales_feb_mar_apr2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'));
+
+-- ERROR:  name "sales_feb2022" is already used
+ALTER TABLE sales_range SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION sales_feb2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION sales_feb2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'));
+
+-- ERROR:  "sales_feb_mar_apr2022" is not a partitioned table
+ALTER TABLE sales_feb_mar_apr2022 SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION sales_jan2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION sales_feb2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'));
+
+-- ERROR:  upper bound of partition "sales_apr2022" is greater than upper bound of split partition
+ALTER TABLE sales_range SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION sales_feb2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION sales_mar2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-06-01'));
+
+-- ERROR:  lower bound of partition "sales_mar2022" is not equal to the upper bound of partition "sales_feb2022"
+ALTER TABLE sales_range SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION sales_feb2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION sales_mar2022 FOR VALUES FROM ('2022-02-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'));
+
+-- Tests for spaces between partitions, them should be executed without DEFAULT partition
+ALTER TABLE sales_range DETACH PARTITION sales_others;
+
+-- ERROR:  lower bound of partition "sales_feb2022" is not equal to lower bound of split partition
+ALTER TABLE sales_range SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION sales_feb2022 FOR VALUES FROM ('2022-02-02') TO ('2022-03-01'),
+   PARTITION sales_mar2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'));
+
+-- Check the source partition not in the search path
+SET search_path = partition_split_schema2, public;
+ALTER TABLE partition_split_schema.sales_range
+SPLIT PARTITION partition_split_schema.sales_feb_mar_apr2022 INTO
+  (PARTITION sales_feb2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION sales_mar2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'));
+SET search_path = partition_split_schema, public;
+\d+ sales_range
+
+DROP TABLE sales_range;
+DROP TABLE sales_others;
+
+--
+-- Add rows into partitioned table then split partition
+--
+CREATE TABLE sales_range (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date DATE) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_jan2022 PARTITION OF sales_range FOR VALUES FROM ('2022-01-01') TO ('2022-02-01');
+CREATE TABLE sales_feb_mar_apr2022 PARTITION OF sales_range FOR VALUES FROM ('2022-02-01') TO ('2022-05-01');
+CREATE TABLE sales_others PARTITION OF sales_range DEFAULT;
+
+INSERT INTO sales_range VALUES
+  (1,  'May',      1000, '2022-01-31'),
+  (2,  'Smirnoff', 500,  '2022-02-10'),
+  (3,  'Ford',     2000, '2022-04-30'),
+  (4,  'Ivanov',   750,  '2022-04-13'),
+  (5,  'Deev',     250,  '2022-04-07'),
+  (6,  'Poirot',   150,  '2022-02-11'),
+  (7,  'Li',       175,  '2022-03-08'),
+  (8,  'Ericsson', 185,  '2022-02-23'),
+  (9,  'Muller',   250,  '2022-03-11'),
+  (10, 'Halder',   350,  '2022-01-28'),
+  (11, 'Trump',    380,  '2022-04-06'),
+  (12, 'Plato',    350,  '2022-03-19'),
+  (13, 'Gandi',    377,  '2022-01-09'),
+  (14, 'Smith',    510,  '2022-05-04');
+
+ALTER TABLE sales_range SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION sales_feb2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION sales_mar2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'));
+
+SELECT * FROM sales_range;
+SELECT * FROM sales_jan2022;
+SELECT * FROM sales_feb2022;
+SELECT * FROM sales_mar2022;
+SELECT * FROM sales_apr2022;
+SELECT * FROM sales_others;
+
+DROP TABLE sales_range CASCADE;
+
+--
+-- Add split partition, then add rows into partitioned table
+--
+CREATE TABLE sales_range (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date DATE) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_jan2022 PARTITION OF sales_range FOR VALUES FROM ('2022-01-01') TO ('2022-02-01');
+CREATE TABLE sales_feb_mar_apr2022 PARTITION OF sales_range FOR VALUES FROM ('2022-02-01') TO ('2022-05-01');
+CREATE TABLE sales_others PARTITION OF sales_range DEFAULT;
+
+-- Split partition, also check schema qualification of new partitions
+ALTER TABLE sales_range SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION partition_split_schema.sales_feb2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION partition_split_schema2.sales_mar2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'));
+\d+ sales_range
+
+INSERT INTO sales_range VALUES
+  (1,  'May',      1000, '2022-01-31'),
+  (2,  'Smirnoff', 500,  '2022-02-10'),
+  (3,  'Ford',     2000, '2022-04-30'),
+  (4,  'Ivanov',   750,  '2022-04-13'),
+  (5,  'Deev',     250,  '2022-04-07'),
+  (6,  'Poirot',   150,  '2022-02-11'),
+  (7,  'Li',       175,  '2022-03-08'),
+  (8,  'Ericsson', 185,  '2022-02-23'),
+  (9,  'Muller',   250,  '2022-03-11'),
+  (10, 'Halder',   350,  '2022-01-28'),
+  (11, 'Trump',    380,  '2022-04-06'),
+  (12, 'Plato',    350,  '2022-03-19'),
+  (13, 'Gandi',    377,  '2022-01-09'),
+  (14, 'Smith',    510,  '2022-05-04');
+
+SELECT * FROM sales_range;
+SELECT * FROM sales_jan2022;
+SELECT * FROM sales_feb2022;
+SELECT * FROM partition_split_schema2.sales_mar2022;
+SELECT * FROM sales_apr2022;
+SELECT * FROM sales_others;
+
+DROP TABLE sales_range CASCADE;
+
+--
+-- Test for:
+--   * composite partition key;
+--   * GENERATED column;
+--   * column with DEFAULT value.
+--
+CREATE TABLE sales_date (salesperson_name VARCHAR(30), sales_year INT, sales_month INT, sales_day INT,
+  sales_date VARCHAR(10) GENERATED ALWAYS AS
+    (LPAD(sales_year::text, 4, '0') || '.' || LPAD(sales_month::text, 2, '0') || '.' || LPAD(sales_day::text, 2, '0')) STORED,
+  sales_department VARCHAR(30) DEFAULT 'Sales department')
+  PARTITION BY RANGE (sales_year, sales_month, sales_day);
+
+CREATE TABLE sales_dec2021 PARTITION OF sales_date FOR VALUES FROM (2021, 12, 1) TO (2022, 1, 1);
+CREATE TABLE sales_jan_feb2022 PARTITION OF sales_date FOR VALUES FROM (2022, 1, 1) TO (2022, 3, 1);
+CREATE TABLE sales_other PARTITION OF sales_date FOR VALUES FROM (2022, 3, 1) TO (MAXVALUE, MAXVALUE, MAXVALUE);
+
+INSERT INTO sales_date(salesperson_name, sales_year, sales_month, sales_day) VALUES
+  ('Manager1', 2021, 12, 7),
+  ('Manager2', 2021, 12, 8),
+  ('Manager3', 2022, 1, 1),
+  ('Manager1', 2022, 2, 4),
+  ('Manager2', 2022, 1, 2),
+  ('Manager3', 2022, 2, 1),
+  ('Manager1', 2022, 3, 3),
+  ('Manager2', 2022, 3, 4),
+  ('Manager3', 2022, 5, 1);
+
+SELECT tableoid::regclass, * FROM sales_date ORDER BY tableoid, sales_year, sales_month, sales_day;
+
+ALTER TABLE sales_date SPLIT PARTITION sales_jan_feb2022 INTO
+  (PARTITION sales_jan2022 FOR VALUES FROM (2022, 1, 1) TO (2022, 2, 1),
+   PARTITION sales_feb2022 FOR VALUES FROM (2022, 2, 1) TO (2022, 3, 1));
+
+INSERT INTO sales_date(salesperson_name, sales_year, sales_month, sales_day) VALUES
+  ('Manager1', 2022, 1, 10),
+  ('Manager2', 2022, 2, 10);
+
+SELECT tableoid::regclass, * FROM sales_date ORDER BY tableoid, sales_year, sales_month, sales_day;
+
+--ERROR:  relation "sales_jan_feb2022" does not exist
+SELECT * FROM sales_jan_feb2022;
+
+DROP TABLE sales_date CASCADE;
+
+--
+-- Test: split DEFAULT partition; use an index on partition key; check index after split
+--
+CREATE TABLE sales_range (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date DATE) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_jan2022 PARTITION OF sales_range FOR VALUES FROM ('2022-01-01') TO ('2022-02-01');
+CREATE TABLE sales_others PARTITION OF sales_range DEFAULT;
+CREATE INDEX sales_range_sales_date_idx ON sales_range USING btree (sales_date);
+
+INSERT INTO sales_range VALUES
+  (1,  'May',      1000, '2022-01-31'),
+  (2,  'Smirnoff', 500,  '2022-02-10'),
+  (3,  'Ford',     2000, '2022-04-30'),
+  (4,  'Ivanov',   750,  '2022-04-13'),
+  (5,  'Deev',     250,  '2022-04-07'),
+  (6,  'Poirot',   150,  '2022-02-11'),
+  (7,  'Li',       175,  '2022-03-08'),
+  (8,  'Ericsson', 185,  '2022-02-23'),
+  (9,  'Muller',   250,  '2022-03-11'),
+  (10, 'Halder',   350,  '2022-01-28'),
+  (11, 'Trump',    380,  '2022-04-06'),
+  (12, 'Plato',    350,  '2022-03-19'),
+  (13, 'Gandi',    377,  '2022-01-09'),
+  (14, 'Smith',    510,  '2022-05-04');
+
+SELECT * FROM sales_others;
+SELECT * FROM pg_indexes WHERE tablename = 'sales_others' and schemaname = 'partition_split_schema' ORDER BY indexname;
+
+ALTER TABLE sales_range SPLIT PARTITION sales_others INTO
+  (PARTITION sales_feb2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION sales_mar2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'),
+   PARTITION sales_others DEFAULT);
+
+-- Use indexscan for testing indexes
+SET enable_indexscan = ON;
+SET enable_seqscan = OFF;
+
+SELECT * FROM sales_feb2022 where sales_date > '2022-01-01';
+SELECT * FROM sales_mar2022 where sales_date > '2022-01-01';
+SELECT * FROM sales_apr2022 where sales_date > '2022-01-01';
+SELECT * FROM sales_others where sales_date > '2022-01-01';
+
+SET enable_indexscan = ON;
+SET enable_seqscan = ON;
+
+SELECT * FROM pg_indexes WHERE tablename = 'sales_feb2022' and schemaname = 'partition_split_schema' ORDER BY indexname;
+SELECT * FROM pg_indexes WHERE tablename = 'sales_mar2022' and schemaname = 'partition_split_schema' ORDER BY indexname;
+SELECT * FROM pg_indexes WHERE tablename = 'sales_apr2022' and schemaname = 'partition_split_schema' ORDER BY indexname;
+SELECT * FROM pg_indexes WHERE tablename = 'sales_others' and schemaname = 'partition_split_schema' ORDER BY indexname;
+
+DROP TABLE sales_range CASCADE;
+
+--
+-- Test: some cases for splitting DEFAULT partition (different bounds)
+--
+CREATE TABLE sales_range (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date INT) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_others PARTITION OF sales_range DEFAULT;
+
+-- sales_error intersects with sales_dec2021 (lower bound)
+-- ERROR:  lower bound of partition "sales_error" is not equal to the upper bound of partition "sales_dec2021"
+ALTER TABLE sales_range SPLIT PARTITION sales_others INTO
+  (PARTITION sales_dec2021 FOR VALUES FROM (20211201) TO (20220101),
+   PARTITION sales_error FOR VALUES FROM (20211230) TO (20220201),
+   PARTITION sales_feb2022 FOR VALUES FROM (20220201) TO (20220301),
+   PARTITION sales_others DEFAULT);
+
+-- sales_error intersects with sales_feb2022 (upper bound)
+-- ERROR:  lower bound of partition "sales_feb2022" is not equal to the upper bound of partition "sales_error"
+ALTER TABLE sales_range SPLIT PARTITION sales_others INTO
+  (PARTITION sales_dec2021 FOR VALUES FROM (20211201) TO (20220101),
+   PARTITION sales_error FOR VALUES FROM (20220101) TO (20220202),
+   PARTITION sales_feb2022 FOR VALUES FROM (20220201) TO (20220301),
+   PARTITION sales_others DEFAULT);
+
+-- sales_error intersects with sales_dec2021 (inside bound)
+-- ERROR:  lower bound of partition "sales_feb2022" is not equal to the upper bound of partition "sales_error"
+ALTER TABLE sales_range SPLIT PARTITION sales_others INTO
+  (PARTITION sales_dec2021 FOR VALUES FROM (20211201) TO (20220101),
+   PARTITION sales_error FOR VALUES FROM (20211210) TO (20211220),
+   PARTITION sales_feb2022 FOR VALUES FROM (20220201) TO (20220301),
+   PARTITION sales_others DEFAULT);
+
+-- sales_error intersects with sales_dec2021 (exactly the same bounds)
+-- ERROR:  lower bound of partition "sales_feb2022" is not equal to the upper bound of partition "sales_error"
+ALTER TABLE sales_range SPLIT PARTITION sales_others INTO
+  (PARTITION sales_dec2021 FOR VALUES FROM (20211201) TO (20220101),
+   PARTITION sales_error FOR VALUES FROM (20211201) TO (20220101),
+   PARTITION sales_feb2022 FOR VALUES FROM (20220201) TO (20220301),
+   PARTITION sales_others DEFAULT);
+
+-- ERROR:  one partition in the list should be DEFAULT because split partition is DEFAULT
+ALTER TABLE sales_range SPLIT PARTITION sales_others INTO
+  (PARTITION sales_dec2021 FOR VALUES FROM (20211201) TO (20220101),
+   PARTITION sales_jan2022 FOR VALUES FROM (20220101) TO (20220201),
+   PARTITION sales_feb2022 FOR VALUES FROM (20220201) TO (20220301));
+
+-- no error: bounds of sales_noerror are between sales_dec2021 and sales_feb2022
+ALTER TABLE sales_range SPLIT PARTITION sales_others INTO
+  (PARTITION sales_dec2021 FOR VALUES FROM (20211201) TO (20220101),
+   PARTITION sales_noerror FOR VALUES FROM (20220110) TO (20220120),
+   PARTITION sales_feb2022 FOR VALUES FROM (20220201) TO (20220301),
+   PARTITION sales_others DEFAULT);
+
+DROP TABLE sales_range;
+
+CREATE TABLE sales_range (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date INT) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_others PARTITION OF sales_range DEFAULT;
+
+-- no error: bounds of sales_noerror are equal to lower and upper bounds of sales_dec2021 and sales_feb2022
+ALTER TABLE sales_range SPLIT PARTITION sales_others INTO
+  (PARTITION sales_dec2021 FOR VALUES FROM (20211201) TO (20220101),
+   PARTITION sales_noerror FOR VALUES FROM (20210101) TO (20210201),
+   PARTITION sales_feb2022 FOR VALUES FROM (20220201) TO (20220301),
+   PARTITION sales_others DEFAULT);
+
+DROP TABLE sales_range;
+
+--
+-- Test: split partition with CHECK and FOREIGN KEY CONSTRAINTs on partitioned table
+--
+CREATE TABLE salespeople(salesperson_id INT PRIMARY KEY, salesperson_name VARCHAR(30));
+INSERT INTO salespeople VALUES (1,  'Poirot');
+
+CREATE TABLE sales_range (
+salesperson_id INT REFERENCES salespeople(salesperson_id),
+sales_amount INT CHECK (sales_amount > 1),
+sales_date DATE) PARTITION BY RANGE (sales_date);
+
+CREATE TABLE sales_jan2022 PARTITION OF sales_range FOR VALUES FROM ('2022-01-01') TO ('2022-02-01');
+CREATE TABLE sales_feb_mar_apr2022 PARTITION OF sales_range FOR VALUES FROM ('2022-02-01') TO ('2022-05-01');
+CREATE TABLE sales_others PARTITION OF sales_range DEFAULT;
+
+SELECT pg_get_constraintdef(oid), conname, conkey FROM pg_constraint WHERE conrelid = 'sales_feb_mar_apr2022'::regclass::oid ORDER BY conname;
+
+ALTER TABLE sales_range SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION sales_feb2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION sales_mar2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'));
+
+-- We should see the same CONSTRAINTs as on sales_feb_mar_apr2022 partition
+SELECT pg_get_constraintdef(oid), conname, conkey FROM pg_constraint WHERE conrelid = 'sales_feb2022'::regclass::oid ORDER BY conname;;
+SELECT pg_get_constraintdef(oid), conname, conkey FROM pg_constraint WHERE conrelid = 'sales_mar2022'::regclass::oid ORDER BY conname;;
+SELECT pg_get_constraintdef(oid), conname, conkey FROM pg_constraint WHERE conrelid = 'sales_apr2022'::regclass::oid ORDER BY conname;;
+
+-- ERROR:  new row for relation "sales_mar2022" violates check constraint "sales_range_sales_amount_check"
+INSERT INTO sales_range VALUES (1, 0, '2022-03-11');
+-- ERROR:  insert or update on table "sales_mar2022" violates foreign key constraint "sales_range_salesperson_id_fkey"
+INSERT INTO sales_range VALUES (-1, 10, '2022-03-11');
+-- ok
+INSERT INTO sales_range VALUES (1, 10, '2022-03-11');
+
+DROP TABLE sales_range CASCADE;
+DROP TABLE salespeople CASCADE;
+
+--
+-- Test: split partition on partitioned table in case of existing FOREIGN KEY reference from another table
+--
+CREATE TABLE salespeople(salesperson_id INT PRIMARY KEY, salesperson_name VARCHAR(30)) PARTITION BY RANGE (salesperson_id);
+CREATE TABLE sales (salesperson_id INT REFERENCES salespeople(salesperson_id), sales_amount INT, sales_date DATE);
+
+CREATE TABLE salespeople01_10 PARTITION OF salespeople FOR VALUES FROM (1) TO (10);
+CREATE TABLE salespeople10_40 PARTITION OF salespeople FOR VALUES FROM (10) TO (40);
+
+INSERT INTO salespeople VALUES
+  (1,  'Poirot'),
+  (10, 'May'),
+  (19, 'Ivanov'),
+  (20, 'Smirnoff'),
+  (30, 'Ford');
+
+INSERT INTO sales VALUES
+  (1,  100, '2022-03-01'),
+  (1,  110, '2022-03-02'),
+  (10, 150, '2022-03-01'),
+  (10, 90,  '2022-03-03'),
+  (19, 200, '2022-03-04'),
+  (20, 50,  '2022-03-12'),
+  (20, 170, '2022-03-02'),
+  (30, 30,  '2022-03-04');
+
+SELECT tableoid::regclass, * FROM salespeople ORDER BY tableoid, salesperson_id;
+
+ALTER TABLE salespeople SPLIT PARTITION salespeople10_40 INTO
+  (PARTITION salespeople10_20 FOR VALUES FROM (10) TO (20),
+   PARTITION salespeople20_30 FOR VALUES FROM (20) TO (30),
+   PARTITION salespeople30_40 FOR VALUES FROM (30) TO (40));
+
+SELECT tableoid::regclass, * FROM salespeople ORDER BY tableoid, salesperson_id;
+
+-- ERROR:  insert or update on table "sales" violates foreign key constraint "sales_salesperson_id_fkey"
+INSERT INTO sales VALUES (40, 50,  '2022-03-04');
+-- ok
+INSERT INTO sales VALUES (30, 50,  '2022-03-04');
+
+DROP TABLE sales CASCADE;
+DROP TABLE salespeople CASCADE;
+
+--
+-- Test: split partition of partitioned table with triggers
+--
+CREATE TABLE salespeople(salesperson_id INT PRIMARY KEY, salesperson_name VARCHAR(30)) PARTITION BY RANGE (salesperson_id);
+
+CREATE TABLE salespeople01_10 PARTITION OF salespeople FOR VALUES FROM (1) TO (10);
+CREATE TABLE salespeople10_40 PARTITION OF salespeople FOR VALUES FROM (10) TO (40);
+
+INSERT INTO salespeople VALUES (1,  'Poirot');
+
+CREATE OR REPLACE FUNCTION after_insert_row_trigger() RETURNS trigger LANGUAGE 'plpgsql' AS $BODY$
+BEGIN
+    RAISE NOTICE 'trigger(%) called: action = %, when = %, level = %', TG_ARGV[0], TG_OP, TG_WHEN, TG_LEVEL;
+    RETURN NULL;
+END;
+$BODY$;
+
+CREATE TRIGGER salespeople_after_insert_statement_trigger
+    AFTER INSERT
+    ON salespeople
+    FOR EACH STATEMENT
+    EXECUTE PROCEDURE after_insert_row_trigger('salespeople');
+
+CREATE TRIGGER salespeople_after_insert_row_trigger
+    AFTER INSERT
+    ON salespeople
+    FOR EACH ROW
+    EXECUTE PROCEDURE after_insert_row_trigger('salespeople');
+
+-- 2 triggers should fire here (row + statement):
+INSERT INTO salespeople VALUES (10, 'May');
+-- 1 trigger should fire here (row):
+INSERT INTO salespeople10_40 VALUES (19, 'Ivanov');
+
+ALTER TABLE salespeople SPLIT PARTITION salespeople10_40 INTO
+  (PARTITION salespeople10_20 FOR VALUES FROM (10) TO (20),
+   PARTITION salespeople20_30 FOR VALUES FROM (20) TO (30),
+   PARTITION salespeople30_40 FOR VALUES FROM (30) TO (40));
+
+-- 2 triggers should fire here (row + statement):
+INSERT INTO salespeople VALUES (20, 'Smirnoff');
+-- 1 trigger should fire here (row):
+INSERT INTO salespeople30_40 VALUES (30, 'Ford');
+
+SELECT tableoid::regclass, * FROM salespeople ORDER BY tableoid, salesperson_id;
+
+DROP TABLE salespeople CASCADE;
+DROP FUNCTION after_insert_row_trigger();
+
+--
+-- Test: split partition witch identity column
+-- If split partition column is identity column, columns of new partitions are identity columns too.
+--
+CREATE TABLE salespeople(salesperson_id INT GENERATED ALWAYS AS IDENTITY PRIMARY KEY, salesperson_name VARCHAR(30)) PARTITION BY RANGE (salesperson_id);
+
+CREATE TABLE salespeople1_2 PARTITION OF salespeople FOR VALUES FROM (1) TO (2);
+-- Create new partition with identity column:
+CREATE TABLE salespeople2_5(salesperson_id INT NOT NULL, salesperson_name VARCHAR(30));
+ALTER TABLE salespeople ATTACH PARTITION salespeople2_5 FOR VALUES FROM (2) TO (5);
+
+INSERT INTO salespeople (salesperson_name) VALUES ('Poirot'), ('Ivanov');
+
+SELECT attname, attidentity, attgenerated FROM pg_attribute WHERE attnum > 0 AND attrelid = 'salespeople'::regclass::oid ORDER BY attnum;
+SELECT attname, attidentity, attgenerated FROM pg_attribute WHERE attnum > 0 AND attrelid = 'salespeople1_2'::regclass::oid ORDER BY attnum;
+-- Split partition has identity column:
+SELECT attname, attidentity, attgenerated FROM pg_attribute WHERE attnum > 0 AND attrelid = 'salespeople2_5'::regclass::oid ORDER BY attnum;
+
+ALTER TABLE salespeople SPLIT PARTITION salespeople2_5 INTO
+  (PARTITION salespeople2_3 FOR VALUES FROM (2) TO (3),
+   PARTITION salespeople3_4 FOR VALUES FROM (3) TO (4),
+   PARTITION salespeople4_5 FOR VALUES FROM (4) TO (5));
+
+INSERT INTO salespeople (salesperson_name) VALUES ('May'), ('Ford');
+
+SELECT tableoid::regclass, * FROM salespeople ORDER BY tableoid, salesperson_id;
+
+SELECT attname, attidentity, attgenerated FROM pg_attribute WHERE attnum > 0 AND attrelid = 'salespeople'::regclass::oid ORDER BY attnum;
+SELECT attname, attidentity, attgenerated FROM pg_attribute WHERE attnum > 0 AND attrelid = 'salespeople1_2'::regclass::oid ORDER BY attnum;
+-- New partitions have identity-columns:
+SELECT attname, attidentity, attgenerated FROM pg_attribute WHERE attnum > 0 AND attrelid = 'salespeople2_3'::regclass::oid ORDER BY attnum;
+SELECT attname, attidentity, attgenerated FROM pg_attribute WHERE attnum > 0 AND attrelid = 'salespeople3_4'::regclass::oid ORDER BY attnum;
+SELECT attname, attidentity, attgenerated FROM pg_attribute WHERE attnum > 0 AND attrelid = 'salespeople4_5'::regclass::oid ORDER BY attnum;
+
+DROP TABLE salespeople CASCADE;
+
+--
+-- Test: split partition with deleted columns
+--
+CREATE TABLE salespeople(salesperson_id INT PRIMARY KEY, salesperson_name VARCHAR(30)) PARTITION BY RANGE (salesperson_id);
+
+CREATE TABLE salespeople01_10 PARTITION OF salespeople FOR VALUES FROM (1) TO (10);
+-- Create new partition with some deleted columns:
+CREATE TABLE salespeople10_40(d1 VARCHAR(30), salesperson_id INT PRIMARY KEY, d2 INT, d3 DATE, salesperson_name VARCHAR(30));
+
+INSERT INTO salespeople10_40 VALUES
+  ('dummy value 1', 19, 100, now(), 'Ivanov'),
+  ('dummy value 2', 20, 101, now(), 'Smirnoff');
+
+ALTER TABLE salespeople10_40 DROP COLUMN d1;
+ALTER TABLE salespeople10_40 DROP COLUMN d2;
+ALTER TABLE salespeople10_40 DROP COLUMN d3;
+
+ALTER TABLE salespeople ATTACH PARTITION salespeople10_40 FOR VALUES FROM (10) TO (40);
+
+INSERT INTO salespeople VALUES
+  (1, 'Poirot'),
+  (10, 'May'),
+  (30, 'Ford');
+
+ALTER TABLE salespeople SPLIT PARTITION salespeople10_40 INTO
+  (PARTITION salespeople10_20 FOR VALUES FROM (10) TO (20),
+   PARTITION salespeople20_30 FOR VALUES FROM (20) TO (30),
+   PARTITION salespeople30_40 FOR VALUES FROM (30) TO (40));
+
+SELECT tableoid::regclass, * FROM salespeople ORDER BY tableoid, salesperson_id;
+
+DROP TABLE salespeople CASCADE;
+
+--
+-- Test: split sub-partition
+--
+CREATE TABLE sales_range (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date DATE) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_jan2022 PARTITION OF sales_range FOR VALUES FROM ('2022-01-01') TO ('2022-02-01');
+CREATE TABLE sales_feb2022 PARTITION OF sales_range FOR VALUES FROM ('2022-02-01') TO ('2022-03-01');
+CREATE TABLE sales_mar2022 PARTITION OF sales_range FOR VALUES FROM ('2022-03-01') TO ('2022-04-01');
+
+CREATE TABLE sales_apr2022 (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date DATE) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_apr_all PARTITION OF sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01');
+ALTER TABLE sales_range ATTACH PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01');
+
+CREATE TABLE sales_others PARTITION OF sales_range DEFAULT;
+
+CREATE INDEX sales_range_sales_date_idx ON sales_range USING btree (sales_date);
+
+INSERT INTO sales_range VALUES
+  (1,  'May',      1000, '2022-01-31'),
+  (2,  'Smirnoff', 500,  '2022-02-10'),
+  (3,  'Ford',     2000, '2022-04-30'),
+  (4,  'Ivanov',   750,  '2022-04-13'),
+  (5,  'Deev',     250,  '2022-04-07'),
+  (6,  'Poirot',   150,  '2022-02-11'),
+  (7,  'Li',       175,  '2022-03-08'),
+  (8,  'Ericsson', 185,  '2022-02-23'),
+  (9,  'Muller',   250,  '2022-03-11'),
+  (10, 'Halder',   350,  '2022-01-28'),
+  (11, 'Trump',    380,  '2022-04-06'),
+  (12, 'Plato',    350,  '2022-03-19'),
+  (13, 'Gandi',    377,  '2022-01-09'),
+  (14, 'Smith',    510,  '2022-05-04');
+
+SELECT * FROM sales_range;
+SELECT * FROM sales_apr2022;
+
+ALTER TABLE sales_apr2022 SPLIT PARTITION sales_apr_all INTO
+  (PARTITION sales_apr2022_01_10 FOR VALUES FROM ('2022-04-01') TO ('2022-04-10'),
+   PARTITION sales_apr2022_10_20 FOR VALUES FROM ('2022-04-10') TO ('2022-04-20'),
+   PARTITION sales_apr2022_20_30 FOR VALUES FROM ('2022-04-20') TO ('2022-05-01'));
+
+SELECT tableoid::regclass, * FROM sales_range ORDER BY tableoid, salesperson_id;
+
+DROP TABLE sales_range;
+
+--
+-- BY LIST partitioning
+--
+
+--
+-- Test: specific errors for BY LIST partitioning
+--
+CREATE TABLE sales_list
+(salesperson_id INT,
+ salesperson_name VARCHAR(30),
+ sales_state VARCHAR(20),
+ sales_amount INT,
+ sales_date DATE)
+PARTITION BY LIST (sales_state);
+
+CREATE TABLE sales_nord PARTITION OF sales_list FOR VALUES IN ('Oslo', 'St. Petersburg', 'Helsinki');
+CREATE TABLE sales_all PARTITION OF sales_list FOR VALUES IN ('Warsaw', 'Lisbon', 'New York', 'Madrid', 'Bejing', 'Berlin', 'Delhi', 'Kyiv', 'Vladivostok');
+CREATE TABLE sales_others PARTITION OF sales_list DEFAULT;
+
+-- ERROR:  new partition "sales_east" would overlap with another (not split) partition "sales_nord"
+ALTER TABLE sales_list SPLIT PARTITION sales_all INTO
+  (PARTITION sales_west FOR VALUES IN ('Lisbon', 'New York', 'Madrid'),
+   PARTITION sales_east FOR VALUES IN ('Bejing', 'Delhi', 'Vladivostok', 'Helsinki'),
+   PARTITION sales_central FOR VALUES IN ('Warsaw', 'Berlin', 'Kyiv'));
+
+-- ERROR:  new partition "sales_west" would overlap with another new partition "sales_central"
+ALTER TABLE sales_list SPLIT PARTITION sales_all INTO
+  (PARTITION sales_west FOR VALUES IN ('Lisbon', 'New York', 'Madrid'),
+   PARTITION sales_east FOR VALUES IN ('Bejing', 'Delhi', 'Vladivostok'),
+   PARTITION sales_central FOR VALUES IN ('Warsaw', 'Berlin', 'Lisbon', 'Kyiv'));
+
+-- ERROR:  new partition "sales_west" cannot have NULL value because split partition does not have
+ALTER TABLE sales_list SPLIT PARTITION sales_all INTO
+  (PARTITION sales_west FOR VALUES IN ('Lisbon', 'New York', 'Madrid', NULL),
+   PARTITION sales_east FOR VALUES IN ('Bejing', 'Delhi', 'Vladivostok'),
+   PARTITION sales_central FOR VALUES IN ('Warsaw', 'Berlin', 'Kyiv'));
+
+-- ERROR:  new partition "sales_west" cannot have this value because split partition does not have
+ALTER TABLE sales_list SPLIT PARTITION sales_all INTO
+  (PARTITION sales_west FOR VALUES IN ('Lisbon', 'New York', 'Madrid', 'Melbourne'),
+   PARTITION sales_east FOR VALUES IN ('Bejing', 'Delhi', 'Vladivostok'),
+   PARTITION sales_central FOR VALUES IN ('Warsaw', 'Berlin', 'Kyiv'));
+
+-- ERROR:  new partition cannot be DEFAULT because DEFAULT partition already exists
+ALTER TABLE sales_list SPLIT PARTITION sales_all INTO
+  (PARTITION sales_west FOR VALUES IN ('Lisbon', 'New York', 'Madrid', 'Melbourne'),
+   PARTITION sales_east FOR VALUES IN ('Bejing', 'Delhi', 'Vladivostok'),
+   PARTITION sales_central FOR VALUES IN ('Warsaw', 'Berlin', 'Kyiv'),
+   PARTITION sales_others2 DEFAULT);
+
+DROP TABLE sales_list;
+
+--
+-- Test: two specific errors for BY LIST partitioning:
+--   * new partitions do not have NULL value, which split partition has.
+--   * new partitions do not have a value that split partition has.
+--
+CREATE TABLE sales_list
+(salesperson_id INT,
+ salesperson_name VARCHAR(30),
+ sales_state VARCHAR(20),
+ sales_amount INT,
+ sales_date DATE)
+PARTITION BY LIST (sales_state);
+
+CREATE TABLE sales_nord PARTITION OF sales_list FOR VALUES IN ('Helsinki', 'St. Petersburg', 'Oslo');
+CREATE TABLE sales_all PARTITION OF sales_list FOR VALUES IN ('Warsaw', 'Lisbon', 'New York', 'Madrid', 'Bejing', 'Berlin', 'Delhi', 'Kyiv', 'Vladivostok', NULL);
+
+-- ERROR:  new partitions do not have value NULL but split partition does
+ALTER TABLE sales_list SPLIT PARTITION sales_all INTO
+  (PARTITION sales_west FOR VALUES IN ('Lisbon', 'New York', 'Madrid'),
+   PARTITION sales_east FOR VALUES IN ('Bejing', 'Delhi', 'Vladivostok'),
+   PARTITION sales_central FOR VALUES IN ('Warsaw', 'Berlin', 'Kyiv'));
+
+-- ERROR:  new partitions do not have value 'Kyiv' but split partition does
+ALTER TABLE sales_list SPLIT PARTITION sales_all INTO
+  (PARTITION sales_west FOR VALUES IN ('Lisbon', 'New York', 'Madrid'),
+   PARTITION sales_east FOR VALUES IN ('Bejing', 'Delhi', 'Vladivostok'),
+   PARTITION sales_central FOR VALUES IN ('Warsaw', 'Berlin', NULL));
+
+-- ERROR  DEFAULT partition should be one
+ALTER TABLE sales_list SPLIT PARTITION sales_all INTO
+  (PARTITION sales_west FOR VALUES IN ('Lisbon', 'New York', 'Madrid'),
+   PARTITION sales_east FOR VALUES IN ('Bejing', 'Delhi', 'Vladivostok'),
+   PARTITION sales_central FOR VALUES IN ('Warsaw', 'Berlin', 'Kyiv'),
+   PARTITION sales_others DEFAULT,
+   PARTITION sales_others2 DEFAULT);
+
+DROP TABLE sales_list;
+
+--
+-- Test: BY LIST partitioning, SPLIT PARTITION with data
+--
+CREATE TABLE sales_list
+(salesperson_id SERIAL,
+ salesperson_name VARCHAR(30),
+ sales_state VARCHAR(20),
+ sales_amount INT,
+ sales_date DATE)
+PARTITION BY LIST (sales_state);
+
+CREATE INDEX sales_list_salesperson_name_idx ON sales_list USING btree (salesperson_name);
+CREATE INDEX sales_list_sales_state_idx ON sales_list USING btree (sales_state);
+
+CREATE TABLE sales_nord PARTITION OF sales_list FOR VALUES IN ('Helsinki', 'St. Petersburg', 'Oslo');
+CREATE TABLE sales_all PARTITION OF sales_list FOR VALUES IN ('Warsaw', 'Lisbon', 'New York', 'Madrid', 'Bejing', 'Berlin', 'Delhi', 'Kyiv', 'Vladivostok');
+CREATE TABLE sales_others PARTITION OF sales_list DEFAULT;
+
+INSERT INTO sales_list (salesperson_name, sales_state, sales_amount, sales_date) VALUES
+  ('Trump',    'Bejing',         1000, '2022-03-01'),
+  ('Smirnoff', 'New York',        500, '2022-03-03'),
+  ('Ford',     'St. Petersburg', 2000, '2022-03-05'),
+  ('Ivanov',   'Warsaw',          750, '2022-03-04'),
+  ('Deev',     'Lisbon',          250, '2022-03-07'),
+  ('Poirot',   'Berlin',         1000, '2022-03-01'),
+  ('May',      'Oslo',           1200, '2022-03-06'),
+  ('Li',       'Vladivostok',    1150, '2022-03-09'),
+  ('May',      'Oslo',           1200, '2022-03-11'),
+  ('Halder',   'Helsinki',        800, '2022-03-02'),
+  ('Muller',   'Madrid',          650, '2022-03-05'),
+  ('Smith',    'Kyiv',            350, '2022-03-10'),
+  ('Gandi',    'Warsaw',          150, '2022-03-08'),
+  ('Plato',    'Lisbon',          950, '2022-03-05');
+
+ALTER TABLE sales_list SPLIT PARTITION sales_all INTO
+  (PARTITION sales_west FOR VALUES IN ('Lisbon', 'New York', 'Madrid'),
+   PARTITION sales_east FOR VALUES IN ('Bejing', 'Delhi', 'Vladivostok'),
+   PARTITION sales_central FOR VALUES IN ('Warsaw', 'Berlin', 'Kyiv'));
+
+SELECT tableoid::regclass, * FROM sales_list ORDER BY tableoid, salesperson_id;
+
+-- Use indexscan for testing indexes after splitting partition
+SET enable_indexscan = ON;
+SET enable_seqscan = OFF;
+
+SELECT * FROM sales_central WHERE sales_state = 'Warsaw';
+SELECT * FROM sales_list WHERE sales_state = 'Warsaw';
+SELECT * FROM sales_list WHERE salesperson_name = 'Ivanov';
+
+SET enable_indexscan = ON;
+SET enable_seqscan = ON;
+
+DROP TABLE sales_list;
+
+--
+-- Test for:
+--   * split DEFAULT partition to partitions with spaces between bounds;
+--   * random order of partitions in SPLIT PARTITION command.
+--
+CREATE TABLE sales_range (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date DATE) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_others PARTITION OF sales_range DEFAULT;
+
+INSERT INTO sales_range VALUES
+  (1,  'May',      1000, '2022-01-31'),
+  (2,  'Smirnoff', 500,  '2022-02-09'),
+  (3,  'Ford',     2000, '2022-04-30'),
+  (4,  'Ivanov',   750,  '2022-04-13'),
+  (5,  'Deev',     250,  '2022-04-07'),
+  (6,  'Poirot',   150,  '2022-02-07'),
+  (7,  'Li',       175,  '2022-03-08'),
+  (8,  'Ericsson', 185,  '2022-02-23'),
+  (9,  'Muller',   250,  '2022-03-11'),
+  (10, 'Halder',   350,  '2022-01-28'),
+  (11, 'Trump',    380,  '2022-04-06'),
+  (12, 'Plato',    350,  '2022-03-19'),
+  (13, 'Gandi',    377,  '2022-01-09'),
+  (14, 'Smith',    510,  '2022-05-04');
+
+ALTER TABLE sales_range SPLIT PARTITION sales_others INTO
+  (PARTITION sales_others DEFAULT,
+   PARTITION sales_mar2022_1decade FOR VALUES FROM ('2022-03-01') TO ('2022-03-10'),
+   PARTITION sales_jan2022_1decade FOR VALUES FROM ('2022-01-01') TO ('2022-01-10'),
+   PARTITION sales_feb2022_1decade FOR VALUES FROM ('2022-02-01') TO ('2022-02-10'),
+   PARTITION sales_apr2022_1decade FOR VALUES FROM ('2022-04-01') TO ('2022-04-10'));
+
+SELECT tableoid::regclass, * FROM sales_range ORDER BY tableoid, salesperson_id;
+
+DROP TABLE sales_range;
+
+--
+-- Test for:
+--   * split non-DEFAULT partition to partitions with spaces between bounds;
+--   * random order of partitions in SPLIT PARTITION command.
+--
+CREATE TABLE sales_range (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date DATE) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_all PARTITION OF sales_range FOR VALUES FROM ('2022-01-01') TO ('2022-05-01');
+CREATE TABLE sales_others PARTITION OF sales_range DEFAULT;
+
+INSERT INTO sales_range VALUES
+  (1,  'May',      1000, '2022-01-31'),
+  (2,  'Smirnoff', 500,  '2022-02-09'),
+  (3,  'Ford',     2000, '2022-04-30'),
+  (4,  'Ivanov',   750,  '2022-04-13'),
+  (5,  'Deev',     250,  '2022-04-07'),
+  (6,  'Poirot',   150,  '2022-02-07'),
+  (7,  'Li',       175,  '2022-03-08'),
+  (8,  'Ericsson', 185,  '2022-02-23'),
+  (9,  'Muller',   250,  '2022-03-11'),
+  (10, 'Halder',   350,  '2022-01-28'),
+  (11, 'Trump',    380,  '2022-04-06'),
+  (12, 'Plato',    350,  '2022-03-19'),
+  (13, 'Gandi',    377,  '2022-01-09'),
+  (14, 'Smith',    510,  '2022-05-04');
+
+ALTER TABLE sales_range SPLIT PARTITION sales_all INTO
+  (PARTITION sales_mar2022_1decade FOR VALUES FROM ('2022-03-01') TO ('2022-03-10'),
+   PARTITION sales_jan2022_1decade FOR VALUES FROM ('2022-01-01') TO ('2022-01-10'),
+   PARTITION sales_feb2022_1decade FOR VALUES FROM ('2022-02-01') TO ('2022-02-10'),
+   PARTITION sales_apr2022_1decade FOR VALUES FROM ('2022-04-01') TO ('2022-04-10'));
+
+SELECT tableoid::regclass, * FROM sales_range ORDER BY tableoid, salesperson_id;
+
+DROP TABLE sales_range;
+
+--
+-- Test for split non-DEFAULT partition to DEFAULT partition + partitions
+-- with spaces between bounds.
+--
+CREATE TABLE sales_range (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date DATE) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_jan2022 PARTITION OF sales_range FOR VALUES FROM ('2022-01-01') TO ('2022-02-01');
+CREATE TABLE sales_all PARTITION OF sales_range FOR VALUES FROM ('2022-02-01') TO ('2022-05-01');
+
+INSERT INTO sales_range VALUES
+  (1,  'May',      1000, '2022-01-31'),
+  (2,  'Smirnoff', 500,  '2022-02-10'),
+  (3,  'Ford',     2000, '2022-04-30'),
+  (4,  'Ivanov',   750,  '2022-04-13'),
+  (5,  'Deev',     250,  '2022-04-07'),
+  (6,  'Poirot',   150,  '2022-02-11'),
+  (7,  'Li',       175,  '2022-03-08'),
+  (8,  'Ericsson', 185,  '2022-02-23'),
+  (9,  'Muller',   250,  '2022-03-11'),
+  (10, 'Halder',   350,  '2022-01-28'),
+  (11, 'Trump',    380,  '2022-04-06'),
+  (12, 'Plato',    350,  '2022-03-19'),
+  (13, 'Gandi',    377,  '2022-01-09');
+
+ALTER TABLE sales_range SPLIT PARTITION sales_all INTO
+  (PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'),
+   PARTITION sales_feb2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION sales_others DEFAULT);
+
+INSERT INTO sales_range VALUES (14, 'Smith',    510,  '2022-05-04');
+
+SELECT tableoid::regclass, * FROM sales_range ORDER BY tableoid, salesperson_id;
+
+DROP TABLE sales_range;
+
+--
+-- Try to SPLIT partition of another table.
+--
+CREATE TABLE t1(i int, t text) PARTITION BY LIST (t);
+CREATE TABLE t1pa PARTITION OF t1 FOR VALUES IN ('A');
+CREATE TABLE t2 (i int, t text) PARTITION BY RANGE (t);
+
+-- ERROR:  relation "t1pa" is not a partition of relation "t2"
+ALTER TABLE t2 SPLIT PARTITION t1pa INTO
+   (PARTITION t2a FOR VALUES FROM ('A') TO ('B'),
+    PARTITION t2b FOR VALUES FROM ('B') TO ('C'));
+
+DROP TABLE t2;
+DROP TABLE t1;
+
+--
+-- Try to SPLIT partition of temporary table.
+--
+CREATE TEMP TABLE t (i int) PARTITION BY RANGE (i);
+CREATE TEMP TABLE tp_0_2 PARTITION OF t FOR VALUES FROM (0) TO (2);
+
+SELECT c.oid::pg_catalog.regclass, pg_catalog.pg_get_expr(c.relpartbound, c.oid), c.relpersistence
+  FROM pg_catalog.pg_class c, pg_catalog.pg_inherits i
+  WHERE c.oid = i.inhrelid AND i.inhparent = 't'::regclass
+  ORDER BY pg_catalog.pg_get_expr(c.relpartbound, c.oid) = 'DEFAULT', c.oid::pg_catalog.regclass::pg_catalog.text;
+
+ALTER TABLE t SPLIT PARTITION tp_0_2 INTO
+  (PARTITION tp_0_1 FOR VALUES FROM (0) TO (1),
+   PARTITION tp_1_2 FOR VALUES FROM (1) TO (2));
+
+-- Partitions should be temporary.
+SELECT c.oid::pg_catalog.regclass, pg_catalog.pg_get_expr(c.relpartbound, c.oid), c.relpersistence
+  FROM pg_catalog.pg_class c, pg_catalog.pg_inherits i
+  WHERE c.oid = i.inhrelid AND i.inhparent = 't'::regclass
+  ORDER BY pg_catalog.pg_get_expr(c.relpartbound, c.oid) = 'DEFAULT', c.oid::pg_catalog.regclass::pg_catalog.text;
+
+DROP TABLE t;
+
+-- Check the new partitions inherit parent's tablespace
+CREATE TABLE t (i int PRIMARY KEY USING INDEX TABLESPACE regress_tblspace)
+  PARTITION BY RANGE (i) TABLESPACE regress_tblspace;
+CREATE TABLE tp_0_2 PARTITION OF t FOR VALUES FROM (0) TO (2);
+ALTER TABLE t SPLIT PARTITION tp_0_2 INTO
+  (PARTITION tp_0_1 FOR VALUES FROM (0) TO (1),
+   PARTITION tp_1_2 FOR VALUES FROM (1) TO (2));
+SELECT tablename, tablespace FROM pg_tables
+  WHERE tablename IN ('t', 'tp_0_1', 'tp_1_2') AND schemaname = 'partition_split_schema'
+  ORDER BY tablename, tablespace;
+SELECT tablename, indexname, tablespace FROM pg_indexes
+  WHERE tablename IN ('t', 'tp_0_1', 'tp_1_2') AND schemaname = 'partition_split_schema'
+  ORDER BY tablename, indexname, tablespace;
+DROP TABLE t;
+
+-- Check new partitions inherits parent's table access method
+CREATE ACCESS METHOD partition_split_heap TYPE TABLE HANDLER heap_tableam_handler;
+CREATE TABLE t (i int) PARTITION BY RANGE (i) USING partition_split_heap;
+CREATE TABLE tp_0_2 PARTITION OF t FOR VALUES FROM (0) TO (2);
+ALTER TABLE t SPLIT PARTITION tp_0_2 INTO
+  (PARTITION tp_0_1 FOR VALUES FROM (0) TO (1),
+   PARTITION tp_1_2 FOR VALUES FROM (1) TO (2));
+SELECT c.relname, a.amname
+FROM pg_class c JOIN pg_am a ON c.relam = a.oid
+WHERE c.oid IN ('t'::regclass, 'tp_0_1'::regclass, 'tp_1_2'::regclass)
+ORDER BY c.relname;
+DROP TABLE t;
+DROP ACCESS METHOD partition_split_heap;
+
+-- Test permission checks.  The user needs to own the parent table and the
+-- the partition to split to do the split.
+CREATE ROLE regress_partition_split_alice;
+CREATE ROLE regress_partition_split_bob;
+GRANT ALL ON SCHEMA partition_split_schema TO regress_partition_split_alice;
+GRANT ALL ON SCHEMA partition_split_schema TO regress_partition_split_bob;
+
+SET SESSION AUTHORIZATION regress_partition_split_alice;
+CREATE TABLE t (i int) PARTITION BY RANGE (i);
+CREATE TABLE tp_0_2 PARTITION OF t FOR VALUES FROM (0) TO (2);
+
+SET SESSION AUTHORIZATION regress_partition_split_bob;
+ALTER TABLE t SPLIT PARTITION tp_0_2 INTO
+  (PARTITION tp_0_1 FOR VALUES FROM (0) TO (1),
+   PARTITION tp_1_2 FOR VALUES FROM (1) TO (2));
+RESET SESSION AUTHORIZATION;
+
+ALTER TABLE t OWNER TO regress_partition_split_bob;
+SET SESSION AUTHORIZATION regress_partition_split_bob;
+ALTER TABLE t SPLIT PARTITION tp_0_2 INTO
+  (PARTITION tp_0_1 FOR VALUES FROM (0) TO (1),
+   PARTITION tp_1_2 FOR VALUES FROM (1) TO (2));
+RESET SESSION AUTHORIZATION;
+
+ALTER TABLE tp_0_2 OWNER TO regress_partition_split_bob;
+SET SESSION AUTHORIZATION regress_partition_split_bob;
+ALTER TABLE t SPLIT PARTITION tp_0_2 INTO
+  (PARTITION tp_0_1 FOR VALUES FROM (0) TO (1),
+   PARTITION tp_1_2 FOR VALUES FROM (1) TO (2));
+RESET SESSION AUTHORIZATION;
+
+DROP TABLE t;
+REVOKE ALL ON SCHEMA partition_split_schema FROM regress_partition_split_alice;
+REVOKE ALL ON SCHEMA partition_split_schema FROM regress_partition_split_bob;
+DROP ROLE regress_partition_split_alice;
+DROP ROLE regress_partition_split_bob;
+
+-- Split partition of a temporary table when one of the partitions after
+-- split has the same name as the partition being split
+CREATE TEMP TABLE t (a int) PARTITION BY RANGE (a);
+CREATE TEMP TABLE tp_0 PARTITION OF t FOR VALUES FROM (0) TO (2);
+ALTER TABLE t SPLIT PARTITION tp_0 INTO
+  (PARTITION tp_0 FOR VALUES FROM (0) TO (1),
+   PARTITION tp_1 FOR VALUES FROM (1) TO (2));
+DROP TABLE t;
+
+-- Check defaults and constraints of new partitions
+CREATE TABLE t_bigint (
+  b bigint,
+  i int DEFAULT (3+10),
+  j int DEFAULT 101,
+  k int GENERATED ALWAYS AS (b+10) STORED
+)
+PARTITION BY RANGE (b);
+CREATE TABLE t_bigint_default PARTITION OF t_bigint DEFAULT;
+-- Show defaults/constraints before SPLIT PARTITION
+\d+ t_bigint
+\d+ t_bigint_default
+ALTER TABLE t_bigint SPLIT PARTITION t_bigint_default INTO
+  (PARTITION t_bigint_01_10 FOR VALUES FROM (0) TO (10),
+   PARTITION t_bigint_default DEFAULT);
+-- Show defaults/constraints after SPLIT PARTITION
+\d+ t_bigint_default
+\d+ t_bigint_01_10
+DROP TABLE t_bigint;
+
+
+-- Test: owner of new partitions should be the same as owner of split partition
+CREATE ROLE regress_partition_split_alice;
+GRANT ALL ON SCHEMA partition_split_schema TO regress_partition_split_alice;
+
+CREATE TABLE t (i int) PARTITION BY RANGE (i);
+
+SET SESSION AUTHORIZATION regress_partition_split_alice;
+CREATE TABLE tp_0_2(i int);
+RESET SESSION AUTHORIZATION;
+
+ALTER TABLE t ATTACH PARTITION tp_0_2 FOR VALUES FROM (0) TO (2);
+
+-- Owner is 'regress_partition_split_alice':
+\dt tp_0_2
+
+ALTER TABLE t SPLIT PARTITION tp_0_2 INTO
+  (PARTITION tp_0_1 FOR VALUES FROM (0) TO (1),
+   PARTITION tp_1_2 FOR VALUES FROM (1) TO (2));
+
+-- Owner should be 'regress_partition_split_alice':
+\dt tp_0_1
+\dt tp_1_2
+
+DROP TABLE t;
+REVOKE ALL ON SCHEMA partition_split_schema FROM regress_partition_split_alice;
+DROP ROLE regress_partition_split_alice;
+
+
+-- Test: index of new partitions should be created with same owner as split
+-- partition
+CREATE ROLE regress_partition_split_alice;
+GRANT ALL ON SCHEMA partition_split_schema TO regress_partition_split_alice;
+
+SET SESSION AUTHORIZATION regress_partition_split_alice;
+CREATE TABLE t (i int) PARTITION BY RANGE (i);
+CREATE TABLE tp_10_20 PARTITION OF t FOR VALUES FROM (10) TO (20);
+INSERT INTO t VALUES (11), (16);
+CREATE OR REPLACE FUNCTION run_me(integer) RETURNS integer AS $$
+BEGIN
+  RAISE NOTICE 'you are running me as %', CURRENT_USER;
+  RETURN $1;
+END
+$$ LANGUAGE PLPGSQL IMMUTABLE;
+
+-- Owner is 'regress_partition_split_alice':
+CREATE INDEX ON t (run_me(i));
+RESET SESSION AUTHORIZATION;
+
+-- Owner should be 'regress_partition_split_alice':
+ALTER TABLE t SPLIT PARTITION tp_10_20 INTO
+  (PARTITION tp_10_15 FOR VALUES FROM (10) TO (15),
+   PARTITION tp_15_20 FOR VALUES FROM (15) TO (20));
+
+DROP TABLE t;
+DROP FUNCTION run_me(integer);
+
+REVOKE ALL ON SCHEMA partition_split_schema FROM regress_partition_split_alice;
+DROP ROLE regress_partition_split_alice;
+
+-- Test for hash partitioned table
+CREATE TABLE t (i int) PARTITION BY HASH(i);
+CREATE TABLE tp1 PARTITION OF t FOR VALUES WITH (MODULUS 2, REMAINDER 0);
+CREATE TABLE tp2 PARTITION OF t FOR VALUES WITH (MODULUS 2, REMAINDER 1);
+
+-- ERROR:  partition of hash-partitioned table cannot be split
+ALTER TABLE t SPLIT PARTITION tp1 INTO
+  (PARTITION tp1_1 FOR VALUES WITH (MODULUS 4, REMAINDER 0),
+   PARTITION tp1_2 FOR VALUES WITH (MODULUS 4, REMAINDER 2));
+
+-- ERROR:  list of new partitions should contain at least two items
+ALTER TABLE t SPLIT PARTITION tp1 INTO
+  (PARTITION tp1_1 FOR VALUES WITH (MODULUS 4, REMAINDER 0));
+
+DROP TABLE t;
+
+
+-- Additional tests for error messages
+CREATE TABLE sales_range (salesperson_id int, salesperson_name varchar(30), sales_amount int, sales_date date) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_jan2022 PARTITION OF sales_range FOR VALUES FROM ('2022-01-01') TO ('2022-02-01');
+CREATE TABLE sales_feb_mar_apr2022 PARTITION OF sales_range FOR VALUES FROM ('2022-02-01') TO ('2022-05-01');
+
+-- ERROR:  upper bound of partition "sales_apr2022" is not equal to upper bound of split partition
+ALTER TABLE sales_range SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION sales_feb2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION sales_mar2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-06-01'));
+
+DROP TABLE sales_range;
+
+
+-- Test for split partition properties:
+-- * STATISTICS is empty
+-- * COMMENT is empty
+-- * DEFAULTS are the same as DEFAULTS for partitioned table
+-- * STORAGE is the same as STORAGE for partitioned table
+-- * GENERATED and CONSTRAINTS are the same as GENERATED and CONSTRAINTS for partitioned table
+-- * TRIGGERS are the same as TRIGGERS for partitioned table
+
+CREATE TABLE t
+(i int NOT NULL,
+ t text STORAGE EXTENDED COMPRESSION pglz DEFAULT 'default_t',
+ b bigint,
+ d date GENERATED ALWAYS as ('2022-01-01') STORED) PARTITION BY RANGE (abs(i));
+COMMENT ON COLUMN t.i IS 't1.i';
+
+CREATE TABLE tp_x
+(i int NOT NULL,
+ t text STORAGE MAIN DEFAULT 'default_tp_x',
+ b bigint,
+ d date GENERATED ALWAYS as ('2022-02-02') STORED);
+ALTER TABLE t ATTACH PARTITION tp_x FOR VALUES FROM (0) TO (2);
+COMMENT ON COLUMN tp_x.i IS 'tp_x.i';
+
+CREATE STATISTICS t_stat (DEPENDENCIES) on i, b from t;
+CREATE STATISTICS tp_x_stat (DEPENDENCIES) on i, b from tp_x;
+
+ALTER TABLE t ADD CONSTRAINT t_b_check CHECK (b > 0);
+ALTER TABLE t ADD CONSTRAINT t_b_check1 CHECK (b > 0) NOT ENFORCED;
+ALTER TABLE t ADD CONSTRAINT t_b_check2 CHECK (b > 0) NOT VALID;
+ALTER TABLE t ADD CONSTRAINT t_b_nn NOT NULL b NOT VALID;
+
+INSERT INTO tp_x(i, t, b) VALUES(0, DEFAULT, 1);
+INSERT INTO tp_x(i, t, b) VALUES(1, DEFAULT, 2);
+
+CREATE OR REPLACE FUNCTION trigger_function() RETURNS trigger LANGUAGE 'plpgsql' AS
+$BODY$
+BEGIN
+  RAISE NOTICE 'trigger(%) called: action = %, when = %, level = %', TG_ARGV[0], TG_OP, TG_WHEN, TG_LEVEL;
+  RETURN new;
+END;
+$BODY$;
+
+CREATE TRIGGER t_before_insert_row_trigger BEFORE INSERT ON t FOR EACH ROW
+  EXECUTE PROCEDURE trigger_function('t');
+CREATE TRIGGER tp_x_before_insert_row_trigger BEFORE INSERT ON tp_x FOR EACH ROW
+  EXECUTE PROCEDURE trigger_function('tp_x');
+
+\d+ tp_x
+ALTER TABLE t SPLIT PARTITION tp_x INTO
+  (PARTITION tp_0_1 FOR VALUES FROM (0) TO (1),
+   PARTITION tp_x FOR VALUES FROM (1) TO (2));
+\d+ tp_x
+
+INSERT INTO t(i, t, b) VALUES(1, DEFAULT, 3);
+SELECT tableoid::regclass, * FROM t ORDER BY b;
+DROP TABLE t;
+DROP FUNCTION trigger_function();
+
+
+-- Test for recomputation of stored generated columns.
+CREATE TABLE t (i int, tab_id int generated always as (tableoid) stored) PARTITION BY RANGE (i);
+CREATE TABLE tp_0_2 PARTITION OF t FOR VALUES FROM (0) TO (2);
+ALTER TABLE t ADD CONSTRAINT cc CHECK(tableoid <> 123456789);
+INSERT INTO t VALUES (0), (1);
+
+-- Should be 1 because partition identifier for row with i=0 is the same as
+-- partition identifier for row with i=1.
+SELECT count(*) FROM t WHERE i = 0 AND tab_id IN (SELECT tab_id FROM t WHERE i = 1);
+
+-- "tab_id" column (stored generated column) with "tableoid" attribute requires
+-- recomputation here.
+ALTER TABLE t SPLIT PARTITION tp_0_2 INTO
+  (PARTITION tp_0_1 FOR VALUES FROM (0) TO (1),
+   PARTITION tp_1_2 FOR VALUES FROM (1) TO (2));
+
+-- Should be 0 because partition identifier for row with i=0 is different from
+-- partition identifier for row with i=1.
+SELECT count(*) FROM t WHERE i = 0 AND tab_id IN (SELECT tab_id FROM t WHERE i = 1);
+
+DROP TABLE t;
+
+
+RESET search_path;
+
+--
+DROP SCHEMA partition_split_schema;
+DROP SCHEMA partition_split_schema2;
diff --git a/src/tools/pgindent/typedefs.list b/src/tools/pgindent/typedefs.list
index 32d6e718ad..b815cced84 100644
--- a/src/tools/pgindent/typedefs.list
+++ b/src/tools/pgindent/typedefs.list
@@ -2766,6 +2766,7 @@ SimpleStats
 SimpleStringList
 SimpleStringListCell
 SingleBoundSortItem
+SinglePartitionSpec
 Size
 SkipPages
 SkipSupport
@@ -2832,6 +2833,7 @@ SpecialJoinInfo
 SpinDelayStatus
 SplitInterval
 SplitLR
+SplitPartitionContext
 SplitPageLayout
 SplitPoint
 SplitTextOutputData
-- 
2.40.1.windows.1



Attachments:

  [text/plain] v49-0001-Implement-ALTER-TABLE-.-MERGE-PARTITIONS-.-comma.patch (165.8K, ../[email protected]/2-v49-0001-Implement-ALTER-TABLE-.-MERGE-PARTITIONS-.-comma.patch)
  download | inline diff:
From d5f7f509b97485970e970e3d5b1f9fba228f962c Mon Sep 17 00:00:00 2001
From: Alexander Korotkov <[email protected]>
Date: Sun, 7 Apr 2024 00:57:22 +0300
Subject: [PATCH v49 1/2] Implement ALTER TABLE ... MERGE PARTITIONS ...
 command

This new DDL command merges several partitions into the one partition of the
target table.  The target partition is created using new
createPartitionTable() function with parent partition as the template.

This commit comprises quite naive implementation which works in single process
and holds the ACCESS EXCLUSIVE LOCK on the parent table during all the
operations including the tuple routing.  This is why this new DDL command
can't be recommended for large partitioned tables under a high load.  However,
this implementation come in handy in certain cases even as is.
Also, it could be used as a foundation for future implementations with lesser
locking and possibly parallel.

Discussion: https://postgr.es/m/c73a1746-0cd0-6bdd-6b23-3ae0b7c0c582%40postgrespro.ru
Author: Dmitry Koval
Reviewed-by: Matthias van de Meent, Laurenz Albe, Zhihong Yu, Justin Pryzby
Reviewed-by: Alvaro Herrera, Robert Haas, Stephane Tachoires, Jian He

Fixes (summary information).
Authors: Alexander Korotkov, Tender Wang, Richard Guo, Dagfinn Ilmari Mannsaker
Authors: Fujii Masao, Jian He
Reviewed-by: Alexander Korotkov, Robert Haas, Justin Pryzby, Pavel Borisov
Reviewed-by: Masahiko Sawada
Reported-by: Alexander Lakhin, Justin Pryzby, Kyotaro Horiguchi
Reported-by: Daniel Gustafsson, Tom Lane, Noah Misch
---
 doc/src/sgml/ddl.sgml                         |   19 +
 doc/src/sgml/ref/alter_table.sgml             |  113 +-
 src/backend/catalog/dependency.c              |   50 +
 src/backend/catalog/heap.c                    |    4 +-
 src/backend/catalog/pg_constraint.c           |    2 +-
 src/backend/commands/tablecmds.c              |  908 +++++++++++++-
 src/backend/parser/gram.y                     |   22 +-
 src/backend/parser/parse_utilcmd.c            |  148 +++
 src/backend/partitioning/partbounds.c         |  194 +++
 src/bin/psql/tab-complete.in.c                |   10 +
 src/include/catalog/dependency.h              |    2 +
 src/include/nodes/parsenodes.h                |    5 +-
 src/include/parser/kwlist.h                   |    1 +
 src/include/partitioning/partbounds.h         |    6 +
 .../isolation/expected/partition-merge.out    |  199 +++
 src/test/isolation/isolation_schedule         |    1 +
 src/test/isolation/specs/partition-merge.spec |   54 +
 .../test_ddl_deparse/test_ddl_deparse.c       |    3 +
 src/test/regress/expected/partition_merge.out | 1105 +++++++++++++++++
 src/test/regress/parallel_schedule            |    2 +-
 src/test/regress/sql/partition_merge.sql      |  796 ++++++++++++
 21 files changed, 3618 insertions(+), 26 deletions(-)
 create mode 100644 src/test/isolation/expected/partition-merge.out
 create mode 100644 src/test/isolation/specs/partition-merge.spec
 create mode 100644 src/test/regress/expected/partition_merge.out
 create mode 100644 src/test/regress/sql/partition_merge.sql

diff --git a/doc/src/sgml/ddl.sgml b/doc/src/sgml/ddl.sgml
index 96936bcd3a..62c2bb54ea 100644
--- a/doc/src/sgml/ddl.sgml
+++ b/doc/src/sgml/ddl.sgml
@@ -4440,6 +4440,25 @@ ALTER TABLE measurement_y2006m02 ADD UNIQUE (city_id, logdate);
 ALTER INDEX measurement_city_id_logdate_key
     ATTACH PARTITION measurement_y2006m02_city_id_logdate_key;
 ...
+</programlisting>
+    </para>
+
+    <para>
+     There is also an option for merging multiple table partitions into
+     a single partition using the
+     <link linkend="sql-altertable-merge-partitions"><command>ALTER TABLE ... MERGE PARTITIONS</command></link>.
+     This feature simplifies the management of partitioned tables by allowing
+     users to combine partitions that are no longer needed as
+     separate entities.  It's important to note that this operation is not
+     supported for hash-partitioned tables and acquires an
+     <literal>ACCESS EXCLUSIVE</literal> lock, which could impact high-load
+     systems due to the lock's restrictive nature.  For example, we can
+     merge three monthly partitions into one quarter partition:
+<programlisting>
+ALTER TABLE measurement
+    MERGE PARTITIONS (measurement_y2006m01,
+                      measurement_y2006m02,
+                      measurement_y2006m03) INTO measurement_y2006q1;
 </programlisting>
     </para>
    </sect3>
diff --git a/doc/src/sgml/ref/alter_table.sgml b/doc/src/sgml/ref/alter_table.sgml
index d63f3a621a..dd429c12b1 100644
--- a/doc/src/sgml/ref/alter_table.sgml
+++ b/doc/src/sgml/ref/alter_table.sgml
@@ -37,6 +37,8 @@ ALTER TABLE [ IF EXISTS ] <replaceable class="parameter">name</replaceable>
     ATTACH PARTITION <replaceable class="parameter">partition_name</replaceable> { FOR VALUES <replaceable class="parameter">partition_bound_spec</replaceable> | DEFAULT }
 ALTER TABLE [ IF EXISTS ] <replaceable class="parameter">name</replaceable>
     DETACH PARTITION <replaceable class="parameter">partition_name</replaceable> [ CONCURRENTLY | FINALIZE ]
+ALTER TABLE [ IF EXISTS ] <replaceable class="parameter">name</replaceable>
+    MERGE PARTITIONS (<replaceable class="parameter">partition_name1</replaceable>, <replaceable class="parameter">partition_name2</replaceable> [, ...]) INTO <replaceable class="parameter">partition_name</replaceable>
 
 <phrase>where <replaceable class="parameter">action</replaceable> is one of:</phrase>
 
@@ -1147,14 +1149,101 @@ WITH ( MODULUS <replaceable class="parameter">numeric_literal</replaceable>, REM
     </listitem>
    </varlistentry>
 
+   <varlistentry id="sql-altertable-merge-partitions">
+    <term><literal>MERGE PARTITIONS (<replaceable class="parameter">partition_name1</replaceable>, <replaceable class="parameter">partition_name2</replaceable> [, ...]) INTO <replaceable class="parameter">partition_name</replaceable></literal></term>
+
+    <listitem>
+     <para>
+      This form merges several partitions of the target table into a new partition.
+      Hash-partitioned target table is not supported.
+      If <literal>DEFAULT</literal> partition is not in the
+      list of partitions <replaceable class="parameter">partition_name1</replaceable>,
+      <replaceable class="parameter">partition_name2</replaceable> [, ...]:
+      <itemizedlist>
+       <listitem>
+        <para>
+         For range-partitioned tables, the ranges of the partitions
+         <replaceable class="parameter">partition_name1</replaceable>,
+         <replaceable class="parameter">partition_name2</replaceable>, [...]
+         must be adjacent in order to be merged. Otherwise, an error will be
+         raised. The resulting combined range will be the new partition bound
+         for the partition <replaceable class="parameter">partition_name</replaceable>.
+        </para>
+       </listitem>
+       <listitem>
+        <para>
+         For list-partitioned tables, the partition bounds of
+         <replaceable class="parameter">partition_name1</replaceable>,
+         <replaceable class="parameter">partition_name2</replaceable>, [...]
+         are combined to form the new partition bound for
+         <replaceable class="parameter">partition_name</replaceable>.
+        </para>
+       </listitem>
+      </itemizedlist>
+      If <literal>DEFAULT</literal> partition is in the list of partitions <replaceable class="parameter">partition_name1</replaceable>,
+      <replaceable class="parameter">partition_name2</replaceable> [, ...]:
+      <itemizedlist>
+       <listitem>
+        <para>
+         The partition <replaceable class="parameter">partition_name</replaceable>
+         will be the new <literal>DEFAULT</literal> partition of the target table.
+        </para>
+       </listitem>
+       <listitem>
+        <para>
+         The partition bound specifications for all partitions-
+         <replaceable class="parameter">partition_name1</replaceable>,
+         <replaceable class="parameter">partition_name2</replaceable>, [...]
+         can be arbitrary.
+        </para>
+       </listitem>
+      </itemizedlist>
+      The new partition <replaceable class="parameter">partition_name</replaceable>
+      can have the same name as one of the merged partitions. Only simple,
+      non-partitioned partitions can be merged.
+     </para>
+     <para>
+      If merged partitions have different owners, an error will be generated.
+      The owner of the merged partitions will be the owner of the new partition.
+      It is the user's responsibility to setup <acronym>ACL</acronym> on the
+      new partition.
+     </para>
+     <para>
+      The indexes and identity are created later, after moving the data
+      into the new partition.
+      Extended statistics aren't copied from the parent table, for consistency with
+      <command>CREATE TABLE PARTITION OF</command>.
+      The new partition will inherit the same table access method, persistence
+      type, and tablespace as the parent table.
+     </para>
+     <para>
+      When partitions are merged, any individual objects belonging to those
+      partitions, such as constraints or statistics will be dropped. This occurs
+      because <command>ALTER TABLE MERGE PARTITIONS</command> uses the partitioned table itself as the
+      template to define these objects.
+     </para>
+     <para>
+      If merged partitions have some objects dependent on them, the command can
+      not be done (<literal>CASCADE</literal> is not used, an error will be returned).
+     </para>
+     <note>
+      <para>
+       Merging partitions acquires a <literal>ACCESS EXCLUSIVE</literal> lock on
+       the parent table, in addition to the <literal>ACCESS EXCLUSIVE</literal>
+       locks on the tables being merged and on the default partition (if any).
+      </para>
+     </note>
+    </listitem>
+   </varlistentry>
+
   </variablelist>
   </para>
 
   <para>
    All the forms of <command>ALTER TABLE</command> that act on a single table,
    except <literal>RENAME</literal>, <literal>SET SCHEMA</literal>,
-   <literal>ATTACH PARTITION</literal>, and
-   <literal>DETACH PARTITION</literal> can be combined into
+   <literal>ATTACH PARTITION</literal>, <literal>DETACH PARTITION</literal>,
+   and <literal>MERGE PARTITIONS</literal> can be combined into
    a list of multiple alterations to be applied together.  For example, it
    is possible to add several columns and/or alter the type of several
    columns in a single command.  This is particularly useful with large
@@ -1397,7 +1486,18 @@ WITH ( MODULUS <replaceable class="parameter">numeric_literal</replaceable>, REM
       <term><replaceable class="parameter">partition_name</replaceable></term>
       <listitem>
        <para>
-        The name of the table to attach as a new partition or to detach from this table.
+        The name of the table to attach as a new partition or to detach from this table,
+        or the name of the new merged partition.
+       </para>
+      </listitem>
+     </varlistentry>
+
+     <varlistentry id="sql-altertable-parms-partition-name1">
+      <term><replaceable class="parameter">partition_name1</replaceable></term>
+      <term><replaceable class="parameter">partition_name2</replaceable></term>
+      <listitem>
+       <para>
+        The names of the tables being merged into the new partition.
        </para>
       </listitem>
      </varlistentry>
@@ -1830,6 +1930,13 @@ ALTER TABLE measurement
     DETACH PARTITION measurement_y2015m12;
 </programlisting></para>
 
+  <para>
+   To merge several partitions into one partition of the target table:
+<programlisting>
+ALTER TABLE sales_list MERGE PARTITIONS (sales_west, sales_east, sales_central)
+    INTO sales_all;
+</programlisting></para>
+
  </refsect1>
 
  <refsect1>
diff --git a/src/backend/catalog/dependency.c b/src/backend/catalog/dependency.c
index 18316a3968..5afc493820 100644
--- a/src/backend/catalog/dependency.c
+++ b/src/backend/catalog/dependency.c
@@ -319,6 +319,56 @@ performDeletion(const ObjectAddress *object,
 	table_close(depRel, RowExclusiveLock);
 }
 
+/*
+ * performDeletionCheck: Check whether a specific object can be safely deleted.
+ * This function does not perform any deletion; instead, it raises an error
+ * if the object cannot be deleted due to existing dependencies.
+ *
+ * It can be useful when you need delete some objects later.  See comments in
+ * performDeletion too.
+ * The behavior must specified as DROP_RESTRICT.
+ */
+void
+performDeletionCheck(const ObjectAddress *object,
+					 DropBehavior behavior, int flags)
+{
+	Relation	depRel;
+	ObjectAddresses *targetObjects;
+
+	Assert(behavior == DROP_RESTRICT);
+
+	depRel = table_open(DependRelationId, RowExclusiveLock);
+
+	AcquireDeletionLock(object, 0);
+
+	/*
+	 * Construct a list of objects we want delete later (ie, the given object plus
+	 * everything directly or indirectly dependent on it).
+	 */
+	targetObjects = new_object_addresses();
+
+	findDependentObjects(object,
+						 DEPFLAG_ORIGINAL,
+						 flags,
+						 NULL,	/* empty stack */
+						 targetObjects,
+						 NULL,	/* no pendingObjects */
+						 &depRel);
+
+	/*
+	 * Check if deletion is allowed.
+	 */
+	reportDependentObjects(targetObjects,
+						   behavior,
+						   flags,
+						   object);
+
+	/* And clean up */
+	free_object_addresses(targetObjects);
+
+	table_close(depRel, RowExclusiveLock);
+}
+
 /*
  * performMultipleDeletions: Similar to performDeletion, but act on multiple
  * objects at once.
diff --git a/src/backend/catalog/heap.c b/src/backend/catalog/heap.c
index 10f43c51c5..696f80be83 100644
--- a/src/backend/catalog/heap.c
+++ b/src/backend/catalog/heap.c
@@ -102,11 +102,11 @@ static ObjectAddress AddNewRelationType(const char *typeName,
 										Oid new_row_type,
 										Oid new_array_type);
 static void RelationRemoveInheritance(Oid relid);
+static void StoreConstraints(Relation rel, List *cooked_constraints,
+							 bool is_internal);
 static Oid	StoreRelCheck(Relation rel, const char *ccname, Node *expr,
 						  bool is_enforced, bool is_validated, bool is_local,
 						  int16 inhcount, bool is_no_inherit, bool is_internal);
-static void StoreConstraints(Relation rel, List *cooked_constraints,
-							 bool is_internal);
 static bool MergeWithExistingConstraint(Relation rel, const char *ccname, Node *expr,
 										bool allow_merge, bool is_local,
 										bool is_enforced,
diff --git a/src/backend/catalog/pg_constraint.c b/src/backend/catalog/pg_constraint.c
index 2d5ac1ea81..1f948876d9 100644
--- a/src/backend/catalog/pg_constraint.c
+++ b/src/backend/catalog/pg_constraint.c
@@ -875,7 +875,7 @@ RelationGetNotNullConstraints(Oid relid, bool cooked, bool include_noinh)
 															 false)));
 			constr->is_enforced = true;
 			constr->skip_validation = !conForm->convalidated;
-			constr->initially_valid = true;
+			constr->initially_valid = conForm->convalidated;
 			constr->is_no_inherit = conForm->connoinherit;
 			notnulls = lappend(notnulls, constr);
 		}
diff --git a/src/backend/commands/tablecmds.c b/src/backend/commands/tablecmds.c
index 074ddb6b9c..34858ab509 100644
--- a/src/backend/commands/tablecmds.c
+++ b/src/backend/commands/tablecmds.c
@@ -740,6 +740,8 @@ static void ATDetachCheckNoForeignKeyRefs(Relation partition);
 static char GetAttributeCompression(Oid atttypid, const char *compression);
 static char GetAttributeStorage(Oid atttypid, const char *storagemode);
 
+static void ATExecMergePartitions(List **wqueue, AlteredTableInfo *tab, Relation rel,
+								  PartitionCmd *cmd, AlterTableUtilityContext *context);
 
 /* ----------------------------------------------------------------
  *		DefineRelation
@@ -4834,6 +4836,10 @@ AlterTableGetLockLevel(List *cmds)
 				cmd_lockmode = ShareUpdateExclusiveLock;
 				break;
 
+			case AT_MergePartitions:
+				cmd_lockmode = AccessExclusiveLock;
+				break;
+
 			default:			/* oops */
 				elog(ERROR, "unrecognized alter table type: %d",
 					 (int) cmd->subtype);
@@ -5269,6 +5275,11 @@ ATPrepCmd(List **wqueue, Relation rel, AlterTableCmd *cmd,
 			/* No command-specific prep needed */
 			pass = AT_PASS_MISC;
 			break;
+		case AT_MergePartitions:
+			ATSimplePermissions(cmd->subtype, rel, ATT_PARTITIONED_TABLE);
+			/* No command-specific prep needed */
+			pass = AT_PASS_MISC;
+			break;
 		default:				/* oops */
 			elog(ERROR, "unrecognized alter table type: %d",
 				 (int) cmd->subtype);
@@ -5665,6 +5676,14 @@ ATExecCmd(List **wqueue, AlteredTableInfo *tab,
 		case AT_DetachPartitionFinalize:
 			address = ATExecDetachPartitionFinalize(rel, ((PartitionCmd *) cmd->def)->name);
 			break;
+		case AT_MergePartitions:
+			cmd = ATParseTransformCmd(wqueue, tab, rel, cmd, false, lockmode,
+									  cur_pass, context);
+			Assert(cmd != NULL);
+			Assert(rel->rd_rel->relkind == RELKIND_PARTITIONED_TABLE);
+			ATExecMergePartitions(wqueue, tab, rel, (PartitionCmd *) cmd->def,
+								  context);
+			break;
 		default:				/* oops */
 			elog(ERROR, "unrecognized alter table type: %d",
 				 (int) cmd->subtype);
@@ -6705,6 +6724,8 @@ alter_table_type_to_string(AlterTableType cmdtype)
 			return "DETACH PARTITION";
 		case AT_DetachPartitionFinalize:
 			return "DETACH PARTITION ... FINALIZE";
+		case AT_MergePartitions:
+			return "MERGE PARTITIONS";
 		case AT_AddIdentity:
 			return "ALTER COLUMN ... ADD IDENTITY";
 		case AT_SetIdentity:
@@ -20169,6 +20190,37 @@ QueuePartitionConstraintValidation(List **wqueue, Relation scanrel,
 	}
 }
 
+/*
+ * attachPartitionTable: attach a new partition to the partitioned table
+ *
+ * wqueue: the ALTER TABLE work queue; can be NULL when not running as part
+ *   of an ALTER TABLE sequence.
+ * rel: partitioned relation;
+ * attachrel: relation of attached partition;
+ * bound: bounds of attached relation.
+ */
+static void
+attachPartitionTable(List **wqueue, Relation rel, Relation attachrel, PartitionBoundSpec *bound)
+{
+	/* OK to create inheritance.  Rest of the checks performed there */
+	CreateInheritance(attachrel, rel, true);
+
+	/* Update the pg_class entry. */
+	StorePartitionBound(attachrel, rel, bound);
+
+	/* Ensure there exists a correct set of indexes in the partition. */
+	AttachPartitionEnsureIndexes(wqueue, rel, attachrel);
+
+	/* and triggers */
+	CloneRowTriggersToPartition(rel, attachrel);
+
+	/*
+	 * Clone foreign key constraints.  Callee is responsible for setting up
+	 * for phase 3 constraint verification.
+	 */
+	CloneForeignKeyConstraints(wqueue, rel, attachrel);
+}
+
 /*
  * ALTER TABLE <name> ATTACH PARTITION <partition-name> FOR VALUES
  *
@@ -20372,23 +20424,8 @@ ATExecAttachPartition(List **wqueue, Relation rel, PartitionCmd *cmd,
 	check_new_partition_bound(RelationGetRelationName(attachrel), rel,
 							  cmd->bound, pstate);
 
-	/* OK to create inheritance.  Rest of the checks performed there */
-	CreateInheritance(attachrel, rel, true);
-
-	/* Update the pg_class entry. */
-	StorePartitionBound(attachrel, rel, cmd->bound);
-
-	/* Ensure there exists a correct set of indexes in the partition. */
-	AttachPartitionEnsureIndexes(wqueue, rel, attachrel);
-
-	/* and triggers */
-	CloneRowTriggersToPartition(rel, attachrel);
-
-	/*
-	 * Clone foreign key constraints.  Callee is responsible for setting up
-	 * for phase 3 constraint verification.
-	 */
-	CloneForeignKeyConstraints(wqueue, rel, attachrel);
+	/* Attach a new partition to the partitioned table. */
+	attachPartitionTable(wqueue, rel, attachrel, cmd->bound);
 
 	/*
 	 * Generate partition constraint from the partition bound specification.
@@ -22035,3 +22072,840 @@ GetAttributeStorage(Oid atttypid, const char *storagemode)
 
 	return cstorage;
 }
+
+
+/*
+ * buildExpressionExecutionStates: build the needed expression execution states
+ * for new partition (newPartRel) checks and initialize expressions for
+ * generated columns. All expressions should be created in "tab"
+ * (AlteredTableInfo structure).
+ */
+static void
+buildExpressionExecutionStates(AlteredTableInfo *tab, Relation newPartRel, EState *estate)
+{
+	/* Build the needed expression execution states. */
+	foreach_ptr(NewConstraint, con, tab->constraints)
+	{
+		switch (con->contype)
+		{
+			case CONSTR_CHECK:
+				con->qualstate = ExecPrepareExpr((Expr *) expand_generated_columns_in_expr(con->qual, newPartRel, 1), estate);
+				break;
+			case CONSTR_FOREIGN:
+				/* Nothing to do here. */
+				break;
+			case CONSTR_NOTNULL:
+				/* Nothing to do here. */
+				break;
+			default:
+				elog(ERROR, "unrecognized constraint type: %d",
+					 (int) con->contype);
+		}
+	}
+
+	foreach_ptr(NewColumnValue, ex, tab->newvals)
+	{
+		/* Expression already planned. */
+		ex->exprstate = ExecInitExpr((Expr *) ex->expr, NULL);
+	}
+}
+
+/*
+ * evaluateGeneratedExpressionsAndCheckConstraints: evaluate any generated
+ * expressions for "tab" (AlteredTableInfo structure) whose inputs come from
+ * the new tuple (insertslot) of new partition (newPartRel).
+ */
+static void
+evaluateGeneratedExpressionsAndCheckConstraints(AlteredTableInfo *tab,
+												Relation newPartRel,
+												TupleTableSlot *insertslot,
+												ExprContext *econtext)
+{
+	econtext->ecxt_scantuple = insertslot;
+
+	foreach_ptr(NewColumnValue, ex, tab->newvals)
+	{
+		if (!ex->is_generated)
+			continue;
+
+		insertslot->tts_values[ex->attnum - 1]
+			= ExecEvalExpr(ex->exprstate,
+							econtext,
+							&insertslot->tts_isnull[ex->attnum - 1]);
+	}
+
+	foreach_ptr(NewConstraint, con, tab->constraints)
+	{
+		switch (con->contype)
+		{
+			case CONSTR_CHECK:
+				if (!ExecCheck(con->qualstate, econtext))
+					ereport(ERROR,
+							errcode(ERRCODE_CHECK_VIOLATION),
+							errmsg("check constraint \"%s\" of relation \"%s\" is violated by some row",
+								   con->name, RelationGetRelationName(newPartRel)),
+							errtableconstraint(newPartRel, con->name));
+				break;
+			case CONSTR_NOTNULL:
+			case CONSTR_FOREIGN:
+				/* Nothing to do here */
+				break;
+			default:
+				elog(ERROR, "unrecognized constraint type: %d",
+					 (int) con->contype);
+		}
+	}
+}
+
+/*
+ * getAttributesList: build a list of columns (ColumnDef) based on parent_rel
+ */
+static List *
+getAttributesList(Relation parent_rel)
+{
+	AttrNumber	parent_attno;
+	TupleDesc	modelDesc;
+	List	   *colList = NIL;
+
+	modelDesc = RelationGetDescr(parent_rel);
+
+	for (parent_attno = 1; parent_attno <= modelDesc->natts;
+		 parent_attno++)
+	{
+		Form_pg_attribute attribute = TupleDescAttr(modelDesc,
+													parent_attno - 1);
+		ColumnDef  *def;
+
+		/* Ignore dropped columns in the parent. */
+		if (attribute->attisdropped)
+			continue;
+
+		def = makeColumnDef(NameStr(attribute->attname), attribute->atttypid,
+							attribute->atttypmod, attribute->attcollation);
+
+		def->is_not_null = attribute->attnotnull;
+
+		/* Copy identity for new partition. */
+		def->identity = attribute->attidentity;
+
+		/* Add to column list */
+		colList = lappend(colList, def);
+
+		/*
+		 * Although we don't transfer the column's default/generation
+		 * expression now, we need to mark it GENERATED if appropriate.
+		 */
+		if (attribute->atthasdef && attribute->attgenerated)
+			def->generated = attribute->attgenerated;
+
+		def->storage = attribute->attstorage;
+
+		/* Likewise, copy compression if requested */
+		if (CompressionMethodIsValid(attribute->attcompression))
+			def->compression =
+				pstrdup(GetCompressionMethodName(attribute->attcompression));
+		else
+			def->compression = NULL;
+	}
+
+	return colList;
+}
+
+
+/*
+ * createTableConstraints:
+ * create check constraints, default values and generated values for newRel
+ * based on parent_rel.  tab is pending-work queue for newRel, we may need it in
+ * MergePartitionsMoveRows.
+ */
+static void
+createTableConstraints(List **wqueue, AlteredTableInfo *tab,
+					   Relation parent_rel, Relation newRel)
+{
+	TupleDesc	tupleDesc;
+	TupleConstr *constr;
+	AttrMap    *attmap;
+	AttrNumber	parent_attno;
+	int			ccnum;
+	List	   *Constraints = NIL;
+	List	   *cookedConstraints = NIL;
+
+	tupleDesc = RelationGetDescr(parent_rel);
+	constr = tupleDesc->constr;
+
+	if (!constr)
+		return;
+
+	/*
+	 * Construct a map from the parent relation's attnos to the child rel's.
+	 * This re-checks type match etc, although it shouldn't be possible to
+	 * have a failure since both tables are locked.
+	 */
+	attmap = build_attrmap_by_name(RelationGetDescr(newRel),
+								   tupleDesc,
+								   false);
+
+	/* Cycle for default values. */
+	for (parent_attno = 1; parent_attno <= tupleDesc->natts; parent_attno++)
+	{
+		Form_pg_attribute attribute = TupleDescAttr(tupleDesc,
+													parent_attno - 1);
+
+		/* Ignore dropped columns in the parent. */
+		if (attribute->attisdropped)
+			continue;
+
+		/* Copy default, if present and it should be copied. */
+		if (attribute->atthasdef)
+		{
+			Node	   *this_default = NULL;
+			bool		found_whole_row;
+			AttrNumber	num;
+			Node	   *def;
+			NewColumnValue *newval;
+
+			if (attribute->attgenerated == ATTRIBUTE_GENERATED_VIRTUAL)
+				this_default = build_generation_expression(parent_rel, attribute->attnum);
+			else
+			{
+				this_default = TupleDescGetDefault(tupleDesc, attribute->attnum);
+				if (this_default == NULL)
+					elog(ERROR, "default expression not found for attribute %d of relation \"%s\"",
+						 attribute->attnum, RelationGetRelationName(parent_rel));
+			}
+
+			num = attmap->attnums[parent_attno - 1];
+			def = map_variable_attnos(this_default, 1, 0, attmap, InvalidOid, &found_whole_row);
+
+			/*
+			 * Prevent this for the same reason as for constraints below. Note
+			 * that defaults cannot contain any vars, so it's OK that the
+			 * error message refers to generated columns.
+			 */
+			if (found_whole_row && attribute->attgenerated != '\0')
+				ereport(ERROR,
+						errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
+						errmsg("cannot convert whole-row table reference"),
+						errdetail("Generation expression for column \"%s\" contains a whole-row reference to table \"%s\".",
+								 NameStr(attribute->attname),
+								 RelationGetRelationName(parent_rel)));
+
+			/* Add a pre-cooked default expression. */
+			StoreAttrDefault(newRel, num, def, true);
+
+			/*
+			 * Stored generated column expressions in parent_rel might reference
+			 * tableoid.  newRel, parent_rel tableoid clear is not the same. If
+			 * so, these stored generated columns require recomputation for
+			 * newRel within MergePartitionsMoveRows.
+			 */
+			if (attribute->attgenerated == ATTRIBUTE_GENERATED_STORED)
+			{
+				newval = (NewColumnValue *) palloc0(sizeof(NewColumnValue));
+				newval->attnum = num;
+				newval->expr = expression_planner((Expr *) def);
+				newval->is_generated = (attribute->attgenerated != '\0');
+				tab->newvals = lappend(tab->newvals, newval);
+			}
+		}
+	}
+
+	/* Cycle for CHECK constraints. */
+	for (ccnum = 0; ccnum < constr->num_check; ccnum++)
+	{
+		char	   *ccname = constr->check[ccnum].ccname;
+		char	   *ccbin = constr->check[ccnum].ccbin;
+		bool		ccenforced = constr->check[ccnum].ccenforced;
+		bool		ccnoinherit = constr->check[ccnum].ccnoinherit;
+		bool		ccvalid = constr->check[ccnum].ccvalid;
+		Node	   *ccbin_node;
+		bool		found_whole_row;
+		Constraint *constr;
+
+		/*
+		 * Partitioned table can not have NO INHERIT check constraint (see
+		 * StoreRelCheck function).
+		 */
+		Assert(!ccnoinherit);
+
+		ccbin_node = map_variable_attnos(stringToNode(ccbin),
+										 1, 0,
+										 attmap,
+										 InvalidOid, &found_whole_row);
+
+		/*
+		 * We reject whole-row variables because the whole point of LIKE is
+		 * that the new table's rowtype might later diverge from the parent's.
+		 * So, while translation might be possible right now, it wouldn't be
+		 * possible to guarantee it would work in future.
+		 */
+		if (found_whole_row)
+			ereport(ERROR,
+					errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
+					errmsg("cannot convert whole-row table reference"),
+					errdetail("Constraint \"%s\" contains a whole-row reference to table \"%s\".",
+							   ccname,
+							   RelationGetRelationName(parent_rel)));
+
+		constr = makeNode(Constraint);
+		constr->contype = CONSTR_CHECK;
+		constr->conname = pstrdup(ccname);
+		constr->deferrable = false;
+		constr->initdeferred = false;
+		constr->is_enforced = ccenforced;
+		constr->skip_validation = !ccvalid;
+		constr->initially_valid = ccvalid;
+		constr->is_no_inherit = ccnoinherit;
+		constr->raw_expr = NULL;
+		constr->cooked_expr = nodeToString(ccbin_node);
+		constr->location = -1;
+		Constraints = lappend(Constraints, constr);
+	}
+
+	/* install all CHECK constraints. */
+	cookedConstraints = AddRelationNewConstraints(newRel, NIL, Constraints,
+												  false, true, true, NULL);
+
+	/* Make the additional catalog changes visible */
+	CommandCounterIncrement();
+
+	/*
+	 * parent_rel check constraint expresssion may reference tableoid, so later
+	 * in MergePartitionsMoveRows, we need evulate the check constraint again
+	 * for the newRel. We can check weather check constraint contain tableoid
+	 * reference or not via pull_varattnos.
+	 */
+	foreach_ptr(CookedConstraint, ccon, cookedConstraints)
+	{
+		if (!ccon->skip_validation && ccon->contype == CONSTR_CHECK)
+		{
+			Node		*qual;
+			Bitmapset	  *attnums = NULL;
+
+			qual = expand_generated_columns_in_expr(ccon->expr, newRel, 1);
+			pull_varattnos(qual, 1, &attnums);
+
+			/*
+			 * Add check only if it contains tableoid (TableOidAttributeNumber).
+			 */
+			if (bms_is_member(TableOidAttributeNumber - FirstLowInvalidHeapAttributeNumber,
+							  attnums))
+			{
+				NewConstraint *newcon;
+
+				newcon = (NewConstraint *) palloc0(sizeof(NewConstraint));
+				newcon->name = ccon->name;
+				newcon->contype = ccon->contype;
+				newcon->qual = qual;
+
+				tab->constraints = lappend(tab->constraints, newcon);
+			}
+		}
+	}
+
+	/* Don't need the cookedConstraints any more. */
+	list_free_deep(cookedConstraints);
+
+	/* Reproduce not-null constraints. */
+	if (constr->has_not_null)
+	{
+		List	   *nnconstraints;
+
+		/*
+		 * The "include_noinh" argument is false because a partitioned table
+		 * cannot have NO INHERIT constraint.
+		 */
+		nnconstraints = RelationGetNotNullConstraints(RelationGetRelid(parent_rel),
+													  false, false);
+
+		Assert(list_length(nnconstraints) > 0);
+
+		/*
+		 * We already set pg_attribute.attnotnull in createPartitionTable. No
+		 * need call set_attnotnull again.
+		*/
+		AddRelationNewConstraints(newRel, NIL, nnconstraints, false, true, true, NULL);
+	}
+}
+
+
+/*
+ * createPartitionTable:
+ *
+ * Create a new partition (newPartName) for partitioned table (parent_rel).
+ * ownerId is determined by the partition on which the operation is performed,
+ * so it is passed separately.  The new partition will inherit the access method
+ * and persistence type from the parent table.
+ *
+ * returns the created relation (locked in AccessExclusiveLock mode).
+ */
+static Relation
+createPartitionTable(List **wqueue, RangeVar *newPartName,
+					 Relation parent_rel, Oid ownerId)
+{
+	Relation	newRel;
+	Oid			newRelId;
+	Oid			existingRelid;
+	TupleDesc	descriptor;
+	List	   *colList = NIL;
+	Oid			relamId;
+	Oid			namespaceId;
+	AlteredTableInfo *new_partrel_tab;
+
+	/* If existing rel is temp, it must belong to this session */
+	if (RELATION_IS_OTHER_TEMP(parent_rel))
+		ereport(ERROR,
+				errcode(ERRCODE_WRONG_OBJECT_TYPE),
+				errmsg("cannot create as partition of temporary relation of another session"));
+
+	/* Look up inheritance ancestors and generate relation schema. */
+	colList = getAttributesList(parent_rel);
+
+	/* Create a tuple descriptor from the relation schema. */
+	descriptor = BuildDescForRelation(colList);
+
+	/* Look up the access method for new relation. */
+	relamId = (parent_rel->rd_rel->relam != InvalidOid) ? parent_rel->rd_rel->relam : HEAP_TABLE_AM_OID;
+
+	/* Look up the namespace in which we are supposed to create the relation. */
+	namespaceId =
+		RangeVarGetAndCheckCreationNamespace(newPartName, NoLock, &existingRelid);
+	if (OidIsValid(existingRelid))
+		ereport(ERROR,
+				errcode(ERRCODE_DUPLICATE_TABLE),
+				errmsg("relation \"%s\" already exists", newPartName->relname));
+
+	/* Create the relation. */
+	newRelId = heap_create_with_catalog(newPartName->relname,
+										namespaceId,
+										parent_rel->rd_rel->reltablespace,
+										InvalidOid,
+										InvalidOid,
+										InvalidOid,
+										ownerId,
+										relamId,
+										descriptor,
+										NIL,
+										RELKIND_RELATION,
+										newPartName->relpersistence,
+										false,
+										false,
+										ONCOMMIT_NOOP,
+										(Datum) 0,
+										true,
+										allowSystemTableMods,
+										true,
+										InvalidOid,
+										NULL);
+
+	/*
+	 * We must bump the command counter to make the newly-created relation
+	 * tuple visible for opening.
+	 */
+	CommandCounterIncrement();
+
+	/*
+	 * Open the new partition with no lock, because we already have
+	 * AccessExclusiveLock placed there after creation.
+	 */
+	newRel = table_open(newRelId, NoLock);
+
+	/* Find or create work queue entry for newly created table. */
+	new_partrel_tab = ATGetQueueEntry(wqueue, newRel);
+
+	/*
+	 * We intended to create the partition with the same persistence as the
+	 * parent table, but we still need to recheck because that might be
+	 * affected by the search_path.  If the parent is permanent, so must be
+	 * all of its partitions.
+	 */
+	if (parent_rel->rd_rel->relpersistence != RELPERSISTENCE_TEMP &&
+		newRel->rd_rel->relpersistence == RELPERSISTENCE_TEMP)
+		ereport(ERROR,
+				errcode(ERRCODE_WRONG_OBJECT_TYPE),
+				errmsg("cannot create a temporary relation as partition of permanent relation \"%s\"",
+					   RelationGetRelationName(parent_rel)));
+
+	/* Permanent rels cannot be partitions belonging to temporary parent */
+	if (newRel->rd_rel->relpersistence != RELPERSISTENCE_TEMP &&
+		parent_rel->rd_rel->relpersistence == RELPERSISTENCE_TEMP)
+		ereport(ERROR,
+				errcode(ERRCODE_WRONG_OBJECT_TYPE),
+				errmsg("cannot create a permanent relation as partition of temporary relation \"%s\"",
+					   RelationGetRelationName(parent_rel)));
+
+	/* Create constraints, default values and generated values */
+	createTableConstraints(wqueue, new_partrel_tab, parent_rel, newRel);
+
+	/*
+	 * Need to call CommandCounterIncrement, so fresh relcache entry have newly
+	 * installed constraint info.
+	 */
+	CommandCounterIncrement();
+
+	return newRel;
+}
+
+/*
+ * MergePartitionsMoveRows: scan partitions to be merged (mergingPartitions)
+ * of the partitioned table and move rows into the new partition
+ * (newPartRel). We also reevaulate check constraints against these rows.
+ */
+static void
+MergePartitionsMoveRows(List **wqueue, List *mergingPartitions, Relation newPartRel)
+{
+	CommandId	mycid;
+	EState	   *estate;
+	ExprContext *econtext;
+	AlteredTableInfo *tab;
+	ListCell   *ltab;
+
+	/* The FSM is empty, so don't bother using it. */
+	int			ti_options = TABLE_INSERT_SKIP_FSM;
+	BulkInsertState bistate;	/* state of bulk inserts for partition */
+	TupleTableSlot *dstslot;
+
+	/* Find the work queue entry for new partition table: newPartRel. */
+	tab = ATGetQueueEntry(wqueue, newPartRel);
+
+	/* Generate the constraint and default execution states. */
+	estate = CreateExecutorState();
+
+	buildExpressionExecutionStates(tab, newPartRel, estate);
+
+	econtext = GetPerTupleExprContext(estate);
+
+	mycid = GetCurrentCommandId(true);
+
+	/* Prepare a BulkInsertState for table_tuple_insert. */
+	bistate = GetBulkInsertState();
+
+	/* Create necessary tuple slot. */
+	dstslot = table_slot_create(newPartRel, NULL);
+
+	foreach_oid(merging_oid, mergingPartitions)
+	{
+		TupleTableSlot *srcslot;
+		TupleConversionMap *tuple_map;
+		TableScanDesc scan;
+		Snapshot	snapshot;
+		Relation 	mergingPartition;
+
+		/*
+		 * Partition is already locked in the transformPartitionCmdForMerge
+		 * function.
+		 */
+		mergingPartition = table_open(merging_oid, NoLock);
+
+		/* Create tuple slot for new partition. */
+		srcslot = table_slot_create(mergingPartition, NULL);
+
+		/*
+		 * Map computing for moving attributes of merged partition to new
+		 * partition.
+		 */
+		tuple_map = convert_tuples_by_name(RelationGetDescr(mergingPartition),
+										   RelationGetDescr(newPartRel));
+
+		/* Scan through the rows. */
+		snapshot = RegisterSnapshot(GetLatestSnapshot());
+		scan = table_beginscan(mergingPartition, snapshot, 0, NULL);
+
+		while (table_scan_getnextslot(scan, ForwardScanDirection, srcslot))
+		{
+			TupleTableSlot *insertslot;
+
+			CHECK_FOR_INTERRUPTS();
+
+			if (tuple_map)
+			{
+				/* Need to use map to copy attributes. */
+				insertslot = execute_attr_map_slot(tuple_map->attrMap, srcslot, dstslot);
+			}
+			else
+			{
+				slot_getallattrs(srcslot);
+
+				/* Copy attributes directly. */
+				insertslot = dstslot;
+
+				ExecClearTuple(insertslot);
+
+				memcpy(insertslot->tts_values, srcslot->tts_values,
+					   sizeof(Datum) * srcslot->tts_nvalid);
+				memcpy(insertslot->tts_isnull, srcslot->tts_isnull,
+					   sizeof(bool) * srcslot->tts_nvalid);
+
+				ExecStoreVirtualTuple(insertslot);
+			}
+
+			/*
+			 * Constraints and GENERATED expressions might reference the
+			 * tableoid column, so fill tts_tableOid with the desired
+			 * value.  (We must do this each time, because it gets
+			 * overwritten with newrel's OID during storing.)
+			 */
+			insertslot->tts_tableOid = RelationGetRelid(newPartRel);
+
+			/*
+			 * Now, evaluate any generated expressions whose inputs come from
+			 * the new tuple.  We assume these columns won't reference each
+			 * other, so that there's no ordering dependency.
+			 */
+			evaluateGeneratedExpressionsAndCheckConstraints(tab, newPartRel,
+															insertslot, econtext);
+
+			/* Write the tuple out to the new relation. */
+			table_tuple_insert(newPartRel, insertslot, mycid,
+							   ti_options, bistate);
+
+			ResetExprContext(econtext);
+		}
+
+		table_endscan(scan);
+		UnregisterSnapshot(snapshot);
+
+		if (tuple_map)
+			free_conversion_map(tuple_map);
+
+		ExecDropSingleTupleTableSlot(srcslot);
+		table_close(mergingPartition, NoLock);
+	}
+
+	FreeExecutorState(estate);
+	ExecDropSingleTupleTableSlot(dstslot);
+	FreeBulkInsertState(bistate);
+
+	table_finish_bulk_insert(newPartRel, ti_options);
+
+	/*
+	 * We don't need process this newPartRel since we already processed in here,
+	 * so delete the ALTER TABLE queue of it.
+	 */
+	foreach(ltab, *wqueue)
+	{
+		tab = (AlteredTableInfo *) lfirst(ltab);
+		if (tab->relid == RelationGetRelid(newPartRel))
+			*wqueue = list_delete_cell(*wqueue, ltab);
+	}
+}
+
+/*
+ * detachPartitionTable: detach partition "child_rel" from partitioned table
+ * "parent_rel" with default partition identifier "defaultPartOid"
+ */
+static void
+detachPartitionTable(Relation parent_rel, Relation child_rel, Oid defaultPartOid)
+{
+	/* Remove the pg_inherits row first. */
+	RemoveInheritance(child_rel, parent_rel, false);
+
+	/*
+	 * Detaching the partition might involve TOAST table access, so ensure we
+	 * have a valid snapshot.
+	 */
+	PushActiveSnapshot(GetTransactionSnapshot());
+
+	/* Do the final part of detaching. */
+	DetachPartitionFinalize(parent_rel, child_rel, false, defaultPartOid);
+
+	PopActiveSnapshot();
+}
+
+/*
+ * ALTER TABLE <name> MERGE PARTITIONS <partition-list> INTO <partition-name>
+ */
+static void
+ATExecMergePartitions(List **wqueue, AlteredTableInfo *tab, Relation rel,
+					  PartitionCmd *cmd, AlterTableUtilityContext *context)
+{
+	Relation	newPartRel;
+	List	   *mergingPartitions = NIL;
+	Oid			defaultPartOid;
+	Oid			existingRelid;
+	Oid			ownerId = InvalidOid;
+	Oid			save_userid;
+	int			save_sec_context;
+	int			save_nestlevel;
+
+	/*
+	 * Check ownership of merged partitions — partitions with different owners
+	 * cannot be merged. Also, collect the OIDs of these partitions during the
+	 * check.
+	*/
+	foreach_node(RangeVar, name, cmd->partlist)
+	{
+		Relation	mergingPartition;
+
+		/*
+		 * We are going to detach and remove this partition.  We already took
+		 * AccessExclusiveLock lock on transformPartitionCmdForMerge, so here,
+		 * NoLock is fine.
+		 */
+		mergingPartition = table_openrv_extended(name, NoLock, false);
+		Assert(CheckRelationLockedByMe(mergingPartition, AccessExclusiveLock, false));
+
+		if (OidIsValid(ownerId))
+		{
+			/* Do the partitions being merged have different owners? */
+			if (ownerId != mergingPartition->rd_rel->relowner)
+				ereport(ERROR,
+						errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
+						errmsg("partitions being merged have different owners"));
+		}
+		else
+			ownerId = mergingPartition->rd_rel->relowner;
+
+		/* Store a next merging partition into the list. */
+		mergingPartitions = lappend_oid(mergingPartitions,
+										RelationGetRelid(mergingPartition));
+
+		table_close(mergingPartition, NoLock);
+	}
+
+	/*
+	 * Look up existing relation by new partition name, check we have
+	 * permission to create there, lock it against concurrent drop, and mark
+	 * stmt->relation as RELPERSISTENCE_TEMP if a temporary namespace is
+	 * selected.
+	 */
+	cmd->name->relpersistence = rel->rd_rel->relpersistence;
+	RangeVarGetAndCheckCreationNamespace(cmd->name, NoLock, &existingRelid);
+
+	/*
+	 * Check if this name is already taken.  This helps us to detect the
+	 * situation when one of the merging partitions has the same name as the
+	 * new partition.  Otherwise, this would fail later on anyway but catching
+	 * this here allows us to emit a nicer error message.
+	 */
+	if (OidIsValid(existingRelid))
+	{
+		Oid		newPartitionOid = InvalidOid;
+
+		foreach_oid(mergingPartitionOid, mergingPartitions)
+		{
+			if (mergingPartitionOid == existingRelid)
+			{
+				newPartitionOid = mergingPartitionOid;
+				break;
+			}
+		}
+
+		if (OidIsValid(newPartitionOid))
+		{
+			/*
+			 * The new partition has the same name as one of merging
+			 * partitions.
+			 */
+			char		tmpRelName[NAMEDATALEN];
+
+			/* Generate temporary name. */
+			sprintf(tmpRelName, "merge-%u-%X-tmp", RelationGetRelid(rel), MyProcPid);
+
+			/*
+			 * Rename the existing partition with a temporary name, leaving it
+			 * free for the new partition.  We don't need to care about this
+			 * in the future because we're going to eventually drop the
+			 * existing partition anyway.
+			 */
+			RenameRelationInternal(newPartitionOid, tmpRelName, true, false);
+
+			/*
+			 * We must bump the command counter to make the new partition
+			 * tuple visible for rename.
+			 */
+			CommandCounterIncrement();
+		}
+		else
+		{
+			ereport(ERROR,
+					errcode(ERRCODE_DUPLICATE_TABLE),
+					errmsg("relation \"%s\" already exists", cmd->name->relname));
+		}
+	}
+
+	defaultPartOid =
+		get_default_oid_from_partdesc(RelationGetPartitionDesc(rel, true));
+
+	/* Detach all merged partitions */
+	foreach_oid(mergingPartitionOid, mergingPartitions)
+	{
+		Relation	child_rel;
+
+		child_rel = table_open(mergingPartitionOid, NoLock);
+
+		detachPartitionTable(rel, child_rel, defaultPartOid);
+
+		table_close(child_rel, NoLock);
+	}
+
+	/*
+	 * Perform a preliminary check to determine whether it's safe to drop all
+	 * merging partitions before we actually do so later. After merging rows
+	 * into the new partitions via MergePartitionsMoveRows, all old partitions
+	 * need be dropped. However, since the drop behavior is DROP_RESTRICT and
+	 * the merge process (MergePartitionsMoveRows) can be time-consuming,
+	 * performing an early check on the drop eligibility of old partitions is
+	 * preferable.
+	 */
+	foreach_oid(mergingPartitionOid, mergingPartitions)
+	{
+		ObjectAddress object;
+
+		/* Get oid of the later to be dropped relation */
+		object.objectId = mergingPartitionOid;
+		object.classId = RelationRelationId;
+		object.objectSubId = 0;
+
+		performDeletionCheck(&object, DROP_RESTRICT, PERFORM_DELETION_INTERNAL);
+	}
+
+	/* Create table for new partition, use partitioned table as model. */
+	Assert(OidIsValid(ownerId));
+	newPartRel = createPartitionTable(wqueue, cmd->name, rel, ownerId);
+
+	/*
+	 * Switch to the table owner's userid, so that any index functions are run
+	 * as that user.  Also lock down security-restricted operations and
+	 * arrange to make GUC variable changes local to this command.
+	 *
+	 * Need to do it after determine namespace in createPartitionTable call.
+	 */
+	GetUserIdAndSecContext(&save_userid, &save_sec_context);
+	SetUserIdAndSecContext(ownerId,
+						   save_sec_context | SECURITY_RESTRICTED_OPERATION);
+	save_nestlevel = NewGUCNestLevel();
+	RestrictSearchPath();
+
+	/* Copy data from merged partitions to new partition. */
+	MergePartitionsMoveRows(wqueue, mergingPartitions, newPartRel);
+
+	/* Drop the current partitions before attaching the new one. */
+	foreach_oid(mergingPartitionOid, mergingPartitions)
+	{
+		ObjectAddress object;
+
+		object.objectId = mergingPartitionOid;
+		object.classId = RelationRelationId;
+		object.objectSubId = 0;
+
+		performDeletion(&object, DROP_RESTRICT, 0);
+	}
+
+	list_free(mergingPartitions);
+
+	/*
+	 * Attach a new partition to the partitioned table. wqueue = NULL:
+	 * verification for each cloned constraint is not needed.
+	 */
+	attachPartitionTable(NULL, rel, newPartRel, cmd->bound);
+
+	/* Keep the lock until commit. */
+	table_close(newPartRel, NoLock);
+
+	/* Roll back any GUC changes executed by index functions. */
+	AtEOXact_GUC(false, save_nestlevel);
+
+	/* Restore userid and security context. */
+	SetUserIdAndSecContext(save_userid, save_sec_context);
+}
diff --git a/src/backend/parser/gram.y b/src/backend/parser/gram.y
index 50f53159d5..46bbdcbc74 100644
--- a/src/backend/parser/gram.y
+++ b/src/backend/parser/gram.y
@@ -755,7 +755,7 @@ static Node *makeRecursiveViewSelect(char *relname, List *aliases, Node *query);
 	ORDER ORDINALITY OTHERS OUT_P OUTER_P
 	OVER OVERLAPS OVERLAY OVERRIDING OWNED OWNER
 
-	PARALLEL PARAMETER PARSER PARTIAL PARTITION PASSING PASSWORD PATH
+	PARALLEL PARAMETER PARSER PARTIAL PARTITION PARTITIONS PASSING PASSWORD PATH
 	PERIOD PLACING PLAN PLANS POLICY
 	POSITION PRECEDING PRECISION PRESERVE PREPARE PREPARED PRIMARY
 	PRIOR PRIVILEGES PROCEDURAL PROCEDURE PROCEDURES PROGRAM PUBLICATION
@@ -2331,6 +2331,7 @@ partition_cmd:
 					n->subtype = AT_AttachPartition;
 					cmd->name = $3;
 					cmd->bound = $4;
+					cmd->partlist = NIL;
 					cmd->concurrent = false;
 					n->def = (Node *) cmd;
 
@@ -2345,6 +2346,7 @@ partition_cmd:
 					n->subtype = AT_DetachPartition;
 					cmd->name = $3;
 					cmd->bound = NULL;
+					cmd->partlist = NIL;
 					cmd->concurrent = $4;
 					n->def = (Node *) cmd;
 
@@ -2358,6 +2360,21 @@ partition_cmd:
 					n->subtype = AT_DetachPartitionFinalize;
 					cmd->name = $3;
 					cmd->bound = NULL;
+					cmd->partlist = NIL;
+					cmd->concurrent = false;
+					n->def = (Node *) cmd;
+					$$ = (Node *) n;
+				}
+			/* ALTER TABLE <name> MERGE PARTITIONS () INTO <partition_name> */
+			| MERGE PARTITIONS '(' qualified_name_list ')' INTO qualified_name
+				{
+					AlterTableCmd *n = makeNode(AlterTableCmd);
+					PartitionCmd *cmd = makeNode(PartitionCmd);
+
+					n->subtype = AT_MergePartitions;
+					cmd->name = $7;
+					cmd->bound = NULL;
+					cmd->partlist = $4;
 					cmd->concurrent = false;
 					n->def = (Node *) cmd;
 					$$ = (Node *) n;
@@ -2374,6 +2391,7 @@ index_partition_cmd:
 					n->subtype = AT_AttachPartition;
 					cmd->name = $3;
 					cmd->bound = NULL;
+					cmd->partlist = NIL;
 					cmd->concurrent = false;
 					n->def = (Node *) cmd;
 
@@ -17876,6 +17894,7 @@ unreserved_keyword:
 			| PARSER
 			| PARTIAL
 			| PARTITION
+			| PARTITIONS
 			| PASSING
 			| PASSWORD
 			| PATH
@@ -18503,6 +18522,7 @@ bare_label_keyword:
 			| PARSER
 			| PARTIAL
 			| PARTITION
+			| PARTITIONS
 			| PASSING
 			| PASSWORD
 			| PATH
diff --git a/src/backend/parser/parse_utilcmd.c b/src/backend/parser/parse_utilcmd.c
index 62015431fd..f55ad17528 100644
--- a/src/backend/parser/parse_utilcmd.c
+++ b/src/backend/parser/parse_utilcmd.c
@@ -32,6 +32,7 @@
 #include "catalog/heap.h"
 #include "catalog/index.h"
 #include "catalog/namespace.h"
+#include "catalog/partition.h"
 #include "catalog/pg_am.h"
 #include "catalog/pg_collation.h"
 #include "catalog/pg_constraint.h"
@@ -58,6 +59,8 @@
 #include "parser/parse_type.h"
 #include "parser/parse_utilcmd.h"
 #include "parser/parser.h"
+#include "partitioning/partdesc.h"
+#include "partitioning/partbounds.h"
 #include "rewrite/rewriteManip.h"
 #include "utils/acl.h"
 #include "utils/builtins.h"
@@ -3488,6 +3491,138 @@ transformRuleStmt(RuleStmt *stmt, const char *queryString,
 }
 
 
+/*
+ * checkPartition
+ * Check whether partRelOid is a leaf partition of the parent table (rel).
+ * Partition with OID partRelOid must be locked before function call.
+ */
+static void
+checkPartition(Relation rel, Oid partRelOid)
+{
+	Relation	partRel;
+
+	partRel = table_open(partRelOid, NoLock);
+
+	if (partRel->rd_rel->relkind != RELKIND_RELATION)
+		ereport(ERROR,
+				errcode(ERRCODE_WRONG_OBJECT_TYPE),
+				errmsg("\"%s\" is not a table", RelationGetRelationName(partRel)),
+				errhint("ALTER TABLE ... MERGE PARTITIONS can only merge partitions don't have sub-partitions"));
+
+	if (!partRel->rd_rel->relispartition)
+		ereport(ERROR,
+				errcode(ERRCODE_WRONG_OBJECT_TYPE),
+				errmsg("\"%s\" is not a partition of partitioned table \"%s\"",
+					   RelationGetRelationName(partRel), RelationGetRelationName(rel)),
+				errhint("ALTER TABLE ... MERGE PARTITIONS can only merge partitions don't have sub-partitions"));
+
+	if (get_partition_parent(partRelOid, false) != RelationGetRelid(rel))
+		ereport(ERROR,
+				errcode(ERRCODE_UNDEFINED_TABLE),
+				errmsg("relation \"%s\" is not a partition of relation \"%s\"",
+					   RelationGetRelationName(partRel), RelationGetRelationName(rel)),
+				errhint("ALTER TABLE ... MERGE PARTITIONS can only merge partitions don't have sub-partitions"));
+
+	table_close(partRel, NoLock);
+}
+
+/*
+ * transformPartitionCmdForMerge
+ *		Analyze the ALTER TABLE ... MERGE PARTITIONS command
+ *
+ * Does simple checks for merged partitions. Calculates bound of resulting
+ * partition.
+ */
+static void
+transformPartitionCmdForMerge(CreateStmtContext *cxt, PartitionCmd *partcmd)
+{
+	Oid			defaultPartOid;
+	Oid			partOid;
+	Relation	parent = cxt->rel;
+	PartitionKey key;
+	char		strategy;
+	ListCell   *listptr,
+			   *listptr2;
+	bool		isDefaultPart = false;
+	List	   *partOids = NIL;
+
+	key = RelationGetPartitionKey(parent);
+	strategy = get_partition_strategy(key);
+
+	if (strategy == PARTITION_STRATEGY_HASH)
+		ereport(ERROR,
+				errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
+				errmsg("partition of hash-partitioned table cannot be merged"));
+
+	/* Is current partition a DEFAULT partition? */
+	defaultPartOid = get_default_oid_from_partdesc(RelationGetPartitionDesc(parent, true));
+
+	foreach(listptr, partcmd->partlist)
+	{
+		RangeVar   *name = (RangeVar *) lfirst(listptr);
+
+		/* Partitions in the list should have different names. */
+		for_each_cell(listptr2, partcmd->partlist, lnext(partcmd->partlist, listptr))
+		{
+			RangeVar   *name2 = (RangeVar *) lfirst(listptr2);
+
+			if (equal(name, name2))
+				ereport(ERROR,
+						errcode(ERRCODE_DUPLICATE_TABLE),
+						errmsg("partition with name \"%s\" is already used", name->relname),
+						parser_errposition(cxt->pstate, name2->location));
+		}
+
+		/*
+		 * Search DEFAULT partition in the list. Open and lock partitions before
+		 * calculating the boundary for resulting partition, we also check for
+		 * ownership along the way.  We need to use AccessExclusiveLock here,
+		 * because these merged partitions will be detached then dropped in
+		 * ATExecMergePartitions.
+		 */
+		partOid = RangeVarGetRelidExtended(name,
+										   AccessExclusiveLock,
+										   false,
+										   RangeVarCallbackOwnsRelation,
+										   NULL);
+
+		if (partOid == defaultPartOid)
+			isDefaultPart = true;
+
+		/*
+		 * Extended check because the same partition can have different names
+		 * (for example, "part_name" and "public.part_name").
+		 */
+		foreach(listptr2, partOids)
+		{
+			Oid		curOid = lfirst_oid(listptr2);
+
+			if (curOid == partOid)
+				ereport(ERROR,
+						errcode(ERRCODE_DUPLICATE_TABLE),
+						errmsg("partition with name \"%s\" is already used", name->relname),
+						parser_errposition(cxt->pstate, name->location));
+		}
+
+		checkPartition(parent, partOid);
+
+		partOids = lappend_oid(partOids, partOid);
+	}
+
+	/* Allocate bound of resulting partition. */
+	Assert(partcmd->bound == NULL);
+	partcmd->bound = makeNode(PartitionBoundSpec);
+
+	/* Fill partition bound. */
+	partcmd->bound->strategy = strategy;
+	partcmd->bound->location = -1;
+	partcmd->bound->is_default = isDefaultPart;
+	if (!isDefaultPart)
+		calculate_partition_bound_for_merge(parent, partcmd->partlist,
+											partOids, partcmd->bound,
+											cxt->pstate);
+}
+
 /*
  * transformAlterTableStmt -
  *		parse analysis for ALTER TABLE
@@ -3765,6 +3900,19 @@ transformAlterTableStmt(Oid relid, AlterTableStmt *stmt,
 				newcmds = lappend(newcmds, cmd);
 				break;
 
+			case AT_MergePartitions:
+				{
+					PartitionCmd *partcmd = (PartitionCmd *) cmd->def;
+
+					if (list_length(partcmd->partlist) < 2)
+						ereport(ERROR,
+								errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
+								errmsg("list of new partitions should contain at least two items"));
+					transformPartitionCmdForMerge(&cxt, partcmd);
+					newcmds = lappend(newcmds, cmd);
+					break;
+				}
+
 			default:
 
 				/*
diff --git a/src/backend/partitioning/partbounds.c b/src/backend/partitioning/partbounds.c
index 4bdc2941ef..ea33c15194 100644
--- a/src/backend/partitioning/partbounds.c
+++ b/src/backend/partitioning/partbounds.c
@@ -4977,3 +4977,197 @@ satisfies_hash_partition(PG_FUNCTION_ARGS)
 
 	PG_RETURN_BOOL(rowHash % modulus == remainder);
 }
+
+/*
+ * check_two_partitions_bounds_range
+ *
+ * (function for BY RANGE partitioning)
+ *
+ * This is a helper function for calculate_partition_bound_for_merge().
+ * This function compares upper bound of first_bound and lower bound of
+ * second_bound. These bounds should be equal.
+ *
+ * parent:			partitioned table
+ * first_name:		name of first partition
+ * first_bound:		bound of first partition
+ * second_name:		name of second partition
+ * second_bound:	bound of second partition
+ * pstate:			pointer to ParseState struct for determining error position
+ */
+static void
+check_two_partitions_bounds_range(Relation parent,
+								  RangeVar *first_name,
+								  PartitionBoundSpec *first_bound,
+								  RangeVar *second_name,
+								  PartitionBoundSpec *second_bound,
+								  ParseState *pstate)
+{
+	PartitionKey key = RelationGetPartitionKey(parent);
+	PartitionRangeBound *first_upper;
+	PartitionRangeBound *second_lower;
+	int			cmpval;
+
+	Assert(key->strategy == PARTITION_STRATEGY_RANGE);
+
+	first_upper = make_one_partition_rbound(key, -1, first_bound->upperdatums, false);
+	second_lower = make_one_partition_rbound(key, -1, second_bound->lowerdatums, true);
+
+	/*
+	 * lower1=false (the second to last argument) for correct comparison of
+	 * lower and upper bounds.
+	 */
+	cmpval = partition_rbound_cmp(key->partnatts,
+								  key->partsupfunc,
+								  key->partcollation,
+								  second_lower->datums, second_lower->kind,
+								  false, first_upper);
+	if (cmpval)
+	{
+		PartitionRangeDatum *datum = linitial(second_bound->lowerdatums);
+
+		ereport(ERROR,
+				errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
+				errmsg("lower bound of partition \"%s\" is not equal to the upper bound of partition \"%s\"",
+					   second_name->relname, first_name->relname),
+				errhint("ALTER TABLE ... MERGE PARTITIONS requires the partition bounds to be adjacent."),
+				parser_errposition(pstate, datum->location));
+	}
+}
+
+/*
+ * get_partition_bound_spec
+ *
+ * Returns the PartitionBoundSpec for the partition with the given OID partOid.
+ */
+static PartitionBoundSpec *
+get_partition_bound_spec(Oid partOid)
+{
+	HeapTuple	tuple;
+	Datum		datum;
+	bool		isnull;
+	PartitionBoundSpec *boundspec = NULL;
+
+	/* Try fetching the tuple from the catcache, for speed. */
+	tuple = SearchSysCache1(RELOID, partOid);
+	if (!HeapTupleIsValid(tuple))
+		elog(ERROR, "cache lookup failed for relation %u", partOid);
+
+	datum = SysCacheGetAttr(RELOID, tuple,
+							Anum_pg_class_relpartbound,
+							&isnull);
+	if (isnull)
+		elog(ERROR, "partition bound for relation %u is null",
+			 partOid);
+
+	boundspec = stringToNode(TextDatumGetCString(datum));
+
+	if (!IsA(boundspec, PartitionBoundSpec))
+		elog(ERROR, "expected PartitionBoundSpec for relation %u",
+			 partOid);
+
+	ReleaseSysCache(tuple);
+	return boundspec;
+}
+
+/*
+ * calculate_partition_bound_for_merge
+ *
+ * Calculates the bound of merged partition "spec" by using the bounds of
+ * partitions to be merged.
+ *
+ * parent:			partitioned table
+ * partNames:		names of partitions to be merged
+ * partOids:		Oids of partitions to be merged
+ * spec (out):		bounds specification of the merged partition
+ * pstate:			pointer to ParseState struct for determine error position
+ */
+void
+calculate_partition_bound_for_merge(Relation parent,
+									List *partNames,
+									List *partOids,
+									PartitionBoundSpec *spec,
+									ParseState *pstate)
+{
+	PartitionKey key = RelationGetPartitionKey(parent);
+	PartitionBoundSpec *bound;
+
+	Assert(!spec->is_default);
+
+	switch (key->strategy)
+	{
+		case PARTITION_STRATEGY_RANGE:
+			{
+				int			i;
+				PartitionRangeBound **lower_bounds;
+				int			nparts = list_length(partOids);
+				List	   *bounds = NIL;
+
+				lower_bounds = (PartitionRangeBound **)
+					palloc0(nparts * sizeof(PartitionRangeBound *));
+
+				/*
+				 * Create array of lower bounds and list of
+				 * PartitionBoundSpec.
+				 */
+				foreach_oid(partoid, partOids)
+				{
+					bound = get_partition_bound_spec(partoid);
+					i = foreach_current_index(partoid);
+
+					lower_bounds[i] = make_one_partition_rbound(key, i, bound->lowerdatums, true);
+					bounds = lappend(bounds, bound);
+				}
+
+				/* Sort array of lower bounds. */
+				qsort_arg(lower_bounds, nparts, sizeof(PartitionRangeBound *),
+						  qsort_partition_rbound_cmp, key);
+
+				/* Ranges of partitions should not overlap. */
+				for (i = 1; i < nparts; i++)
+				{
+					int			index = lower_bounds[i]->index;
+					int			prev_index = lower_bounds[i - 1]->index;
+
+					check_two_partitions_bounds_range(parent,
+													  (RangeVar *) list_nth(partNames, prev_index),
+													  (PartitionBoundSpec *) list_nth(bounds, prev_index),
+													  (RangeVar *) list_nth(partNames, index),
+													  (PartitionBoundSpec *) list_nth(bounds, index),
+													  pstate);
+				}
+
+				/*
+				 * Lower bound of first partition is the lower bound of merged
+				 * partition.
+				 */
+				spec->lowerdatums =
+					((PartitionBoundSpec *) list_nth(bounds, lower_bounds[0]->index))->lowerdatums;
+
+				/*
+				 * Upper bound of last partition is the upper bound of merged
+				 * partition.
+				 */
+				spec->upperdatums =
+					((PartitionBoundSpec *) list_nth(bounds, lower_bounds[nparts - 1]->index))->upperdatums;
+
+				pfree(lower_bounds);
+				list_free(bounds);
+				break;
+			}
+
+		case PARTITION_STRATEGY_LIST:
+			{
+				/* Consolidate bounds for all partitions in the list. */
+				foreach_oid(partoid, partOids)
+				{
+					bound = get_partition_bound_spec(partoid);
+					spec->listdatums = list_concat(spec->listdatums, bound->listdatums);
+				}
+				break;
+			}
+
+		default:
+			elog(ERROR, "unexpected partition strategy: %d",
+				 (int) key->strategy);
+	}
+}
diff --git a/src/bin/psql/tab-complete.in.c b/src/bin/psql/tab-complete.in.c
index 908eef97c6..1145b9d7ce 100644
--- a/src/bin/psql/tab-complete.in.c
+++ b/src/bin/psql/tab-complete.in.c
@@ -2721,6 +2721,7 @@ match_previous_words(int pattern_id,
 					  "OWNER TO", "SET", "VALIDATE CONSTRAINT",
 					  "REPLICA IDENTITY", "ATTACH PARTITION",
 					  "DETACH PARTITION", "FORCE ROW LEVEL SECURITY",
+					  "MERGE PARTITIONS (",
 					  "OF", "NOT OF");
 	/* ALTER TABLE xxx ADD */
 	else if (Matches("ALTER", "TABLE", MatchAny, "ADD"))
@@ -2987,6 +2988,15 @@ match_previous_words(int pattern_id,
 	else if (Matches("ALTER", "TABLE", MatchAny, "DETACH", "PARTITION", MatchAny))
 		COMPLETE_WITH("CONCURRENTLY", "FINALIZE");
 
+	/* ALTER TABLE <name> MERGE PARTITIONS ( */
+	else if (Matches("ALTER", "TABLE", MatchAny, "MERGE", "PARTITIONS", "("))
+	{
+		set_completion_reference(prev4_wd);
+		COMPLETE_WITH_SCHEMA_QUERY(Query_for_partition_of_table);
+	}
+	else if (Matches("ALTER", "TABLE", MatchAny, "MERGE", "PARTITIONS", "(*)"))
+		COMPLETE_WITH("INTO");
+
 	/* ALTER TABLE <name> OF */
 	else if (Matches("ALTER", "TABLE", MatchAny, "OF"))
 		COMPLETE_WITH_SCHEMA_QUERY(Query_for_list_of_composite_datatypes);
diff --git a/src/include/catalog/dependency.h b/src/include/catalog/dependency.h
index 0ea7ccf524..f54233499b 100644
--- a/src/include/catalog/dependency.h
+++ b/src/include/catalog/dependency.h
@@ -107,6 +107,8 @@ extern void ReleaseDeletionLock(const ObjectAddress *object);
 extern void performDeletion(const ObjectAddress *object,
 							DropBehavior behavior, int flags);
 
+extern void performDeletionCheck(const ObjectAddress *object,
+								 DropBehavior behavior, int flags);
 extern void performMultipleDeletions(const ObjectAddresses *objects,
 									 DropBehavior behavior, int flags);
 
diff --git a/src/include/nodes/parsenodes.h b/src/include/nodes/parsenodes.h
index ba12678d1c..b8e2a679cd 100644
--- a/src/include/nodes/parsenodes.h
+++ b/src/include/nodes/parsenodes.h
@@ -969,8 +969,10 @@ typedef struct PartitionRangeDatum
 typedef struct PartitionCmd
 {
 	NodeTag		type;
-	RangeVar   *name;			/* name of partition to attach/detach */
+	RangeVar   *name;			/* name of partition to attach/detach/merge */
 	PartitionBoundSpec *bound;	/* FOR VALUES, if attaching */
+	List	   *partlist;		/* list of partitions, for MERGE
+								 * PARTITION command */
 	bool		concurrent;
 } PartitionCmd;
 
@@ -2473,6 +2475,7 @@ typedef enum AlterTableType
 	AT_AttachPartition,			/* ATTACH PARTITION */
 	AT_DetachPartition,			/* DETACH PARTITION */
 	AT_DetachPartitionFinalize, /* DETACH PARTITION FINALIZE */
+	AT_MergePartitions,			/* MERGE PARTITIONS */
 	AT_AddIdentity,				/* ADD IDENTITY */
 	AT_SetIdentity,				/* SET identity column options */
 	AT_DropIdentity,			/* DROP IDENTITY */
diff --git a/src/include/parser/kwlist.h b/src/include/parser/kwlist.h
index a4af3f717a..90e8cddf8b 100644
--- a/src/include/parser/kwlist.h
+++ b/src/include/parser/kwlist.h
@@ -337,6 +337,7 @@ PG_KEYWORD("parameter", PARAMETER, UNRESERVED_KEYWORD, BARE_LABEL)
 PG_KEYWORD("parser", PARSER, UNRESERVED_KEYWORD, BARE_LABEL)
 PG_KEYWORD("partial", PARTIAL, UNRESERVED_KEYWORD, BARE_LABEL)
 PG_KEYWORD("partition", PARTITION, UNRESERVED_KEYWORD, BARE_LABEL)
+PG_KEYWORD("partitions", PARTITIONS, UNRESERVED_KEYWORD, BARE_LABEL)
 PG_KEYWORD("passing", PASSING, UNRESERVED_KEYWORD, BARE_LABEL)
 PG_KEYWORD("password", PASSWORD, UNRESERVED_KEYWORD, BARE_LABEL)
 PG_KEYWORD("path", PATH, UNRESERVED_KEYWORD, BARE_LABEL)
diff --git a/src/include/partitioning/partbounds.h b/src/include/partitioning/partbounds.h
index 65f161f718..690d259619 100644
--- a/src/include/partitioning/partbounds.h
+++ b/src/include/partitioning/partbounds.h
@@ -143,4 +143,10 @@ extern int	partition_range_datum_bsearch(FmgrInfo *partsupfunc,
 extern int	partition_hash_bsearch(PartitionBoundInfo boundinfo,
 								   int modulus, int remainder);
 
+extern void calculate_partition_bound_for_merge(Relation parent,
+												List *partNames,
+												List *partOids,
+												PartitionBoundSpec *spec,
+												ParseState *pstate);
+
 #endif							/* PARTBOUNDS_H */
diff --git a/src/test/isolation/expected/partition-merge.out b/src/test/isolation/expected/partition-merge.out
new file mode 100644
index 0000000000..98446aaab5
--- /dev/null
+++ b/src/test/isolation/expected/partition-merge.out
@@ -0,0 +1,199 @@
+Parsed test spec with 2 sessions
+
+starting permutation: s2b s2i s2c s1b s1merg s2b s2u s1c s2c s2s
+step s2b: BEGIN;
+step s2i: INSERT INTO tpart VALUES (1, 'text01');
+step s2c: COMMIT;
+step s1b: BEGIN;
+step s1merg: ALTER TABLE tpart MERGE PARTITIONS (tpart_00_10, tpart_10_20) INTO tpart_00_20;
+step s2b: BEGIN;
+step s2u: UPDATE tpart SET t = 'text01modif' where i = 1; <waiting ...>
+step s1c: COMMIT;
+step s2u: <... completed>
+step s2c: COMMIT;
+step s2s: SELECT * FROM tpart;
+ i|t          
+--+-----------
+ 5|text05     
+15|text15     
+ 1|text01modif
+25|text25     
+35|text35     
+(5 rows)
+
+
+starting permutation: s2b s2i s2c s1brr s1merg s2b s2u s1c s2c s2s
+step s2b: BEGIN;
+step s2i: INSERT INTO tpart VALUES (1, 'text01');
+step s2c: COMMIT;
+step s1brr: BEGIN ISOLATION LEVEL REPEATABLE READ;
+step s1merg: ALTER TABLE tpart MERGE PARTITIONS (tpart_00_10, tpart_10_20) INTO tpart_00_20;
+step s2b: BEGIN;
+step s2u: UPDATE tpart SET t = 'text01modif' where i = 1; <waiting ...>
+step s1c: COMMIT;
+step s2u: <... completed>
+step s2c: COMMIT;
+step s2s: SELECT * FROM tpart;
+ i|t          
+--+-----------
+ 5|text05     
+15|text15     
+ 1|text01modif
+25|text25     
+35|text35     
+(5 rows)
+
+
+starting permutation: s2b s2i s2c s1bs s1merg s2b s2u s1c s2c s2s
+step s2b: BEGIN;
+step s2i: INSERT INTO tpart VALUES (1, 'text01');
+step s2c: COMMIT;
+step s1bs: BEGIN ISOLATION LEVEL SERIALIZABLE;
+step s1merg: ALTER TABLE tpart MERGE PARTITIONS (tpart_00_10, tpart_10_20) INTO tpart_00_20;
+step s2b: BEGIN;
+step s2u: UPDATE tpart SET t = 'text01modif' where i = 1; <waiting ...>
+step s1c: COMMIT;
+step s2u: <... completed>
+step s2c: COMMIT;
+step s2s: SELECT * FROM tpart;
+ i|t          
+--+-----------
+ 5|text05     
+15|text15     
+ 1|text01modif
+25|text25     
+35|text35     
+(5 rows)
+
+
+starting permutation: s2brr s2i s2c s1b s1merg s2b s2u s1c s2c s2s
+step s2brr: BEGIN ISOLATION LEVEL REPEATABLE READ;
+step s2i: INSERT INTO tpart VALUES (1, 'text01');
+step s2c: COMMIT;
+step s1b: BEGIN;
+step s1merg: ALTER TABLE tpart MERGE PARTITIONS (tpart_00_10, tpart_10_20) INTO tpart_00_20;
+step s2b: BEGIN;
+step s2u: UPDATE tpart SET t = 'text01modif' where i = 1; <waiting ...>
+step s1c: COMMIT;
+step s2u: <... completed>
+step s2c: COMMIT;
+step s2s: SELECT * FROM tpart;
+ i|t          
+--+-----------
+ 5|text05     
+15|text15     
+ 1|text01modif
+25|text25     
+35|text35     
+(5 rows)
+
+
+starting permutation: s2brr s2i s2c s1brr s1merg s2b s2u s1c s2c s2s
+step s2brr: BEGIN ISOLATION LEVEL REPEATABLE READ;
+step s2i: INSERT INTO tpart VALUES (1, 'text01');
+step s2c: COMMIT;
+step s1brr: BEGIN ISOLATION LEVEL REPEATABLE READ;
+step s1merg: ALTER TABLE tpart MERGE PARTITIONS (tpart_00_10, tpart_10_20) INTO tpart_00_20;
+step s2b: BEGIN;
+step s2u: UPDATE tpart SET t = 'text01modif' where i = 1; <waiting ...>
+step s1c: COMMIT;
+step s2u: <... completed>
+step s2c: COMMIT;
+step s2s: SELECT * FROM tpart;
+ i|t          
+--+-----------
+ 5|text05     
+15|text15     
+ 1|text01modif
+25|text25     
+35|text35     
+(5 rows)
+
+
+starting permutation: s2brr s2i s2c s1bs s1merg s2b s2u s1c s2c s2s
+step s2brr: BEGIN ISOLATION LEVEL REPEATABLE READ;
+step s2i: INSERT INTO tpart VALUES (1, 'text01');
+step s2c: COMMIT;
+step s1bs: BEGIN ISOLATION LEVEL SERIALIZABLE;
+step s1merg: ALTER TABLE tpart MERGE PARTITIONS (tpart_00_10, tpart_10_20) INTO tpart_00_20;
+step s2b: BEGIN;
+step s2u: UPDATE tpart SET t = 'text01modif' where i = 1; <waiting ...>
+step s1c: COMMIT;
+step s2u: <... completed>
+step s2c: COMMIT;
+step s2s: SELECT * FROM tpart;
+ i|t          
+--+-----------
+ 5|text05     
+15|text15     
+ 1|text01modif
+25|text25     
+35|text35     
+(5 rows)
+
+
+starting permutation: s2bs s2i s2c s1b s1merg s2b s2u s1c s2c s2s
+step s2bs: BEGIN ISOLATION LEVEL SERIALIZABLE;
+step s2i: INSERT INTO tpart VALUES (1, 'text01');
+step s2c: COMMIT;
+step s1b: BEGIN;
+step s1merg: ALTER TABLE tpart MERGE PARTITIONS (tpart_00_10, tpart_10_20) INTO tpart_00_20;
+step s2b: BEGIN;
+step s2u: UPDATE tpart SET t = 'text01modif' where i = 1; <waiting ...>
+step s1c: COMMIT;
+step s2u: <... completed>
+step s2c: COMMIT;
+step s2s: SELECT * FROM tpart;
+ i|t          
+--+-----------
+ 5|text05     
+15|text15     
+ 1|text01modif
+25|text25     
+35|text35     
+(5 rows)
+
+
+starting permutation: s2bs s2i s2c s1brr s1merg s2b s2u s1c s2c s2s
+step s2bs: BEGIN ISOLATION LEVEL SERIALIZABLE;
+step s2i: INSERT INTO tpart VALUES (1, 'text01');
+step s2c: COMMIT;
+step s1brr: BEGIN ISOLATION LEVEL REPEATABLE READ;
+step s1merg: ALTER TABLE tpart MERGE PARTITIONS (tpart_00_10, tpart_10_20) INTO tpart_00_20;
+step s2b: BEGIN;
+step s2u: UPDATE tpart SET t = 'text01modif' where i = 1; <waiting ...>
+step s1c: COMMIT;
+step s2u: <... completed>
+step s2c: COMMIT;
+step s2s: SELECT * FROM tpart;
+ i|t          
+--+-----------
+ 5|text05     
+15|text15     
+ 1|text01modif
+25|text25     
+35|text35     
+(5 rows)
+
+
+starting permutation: s2bs s2i s2c s1bs s1merg s2b s2u s1c s2c s2s
+step s2bs: BEGIN ISOLATION LEVEL SERIALIZABLE;
+step s2i: INSERT INTO tpart VALUES (1, 'text01');
+step s2c: COMMIT;
+step s1bs: BEGIN ISOLATION LEVEL SERIALIZABLE;
+step s1merg: ALTER TABLE tpart MERGE PARTITIONS (tpart_00_10, tpart_10_20) INTO tpart_00_20;
+step s2b: BEGIN;
+step s2u: UPDATE tpart SET t = 'text01modif' where i = 1; <waiting ...>
+step s1c: COMMIT;
+step s2u: <... completed>
+step s2c: COMMIT;
+step s2s: SELECT * FROM tpart;
+ i|t          
+--+-----------
+ 5|text05     
+15|text15     
+ 1|text01modif
+25|text25     
+35|text35     
+(5 rows)
+
diff --git a/src/test/isolation/isolation_schedule b/src/test/isolation/isolation_schedule
index e3c669a29c..0dca684955 100644
--- a/src/test/isolation/isolation_schedule
+++ b/src/test/isolation/isolation_schedule
@@ -107,6 +107,7 @@ test: partition-key-update-1
 test: partition-key-update-2
 test: partition-key-update-3
 test: partition-key-update-4
+test: partition-merge
 test: plpgsql-toast
 test: cluster-conflict
 test: cluster-conflict-partition
diff --git a/src/test/isolation/specs/partition-merge.spec b/src/test/isolation/specs/partition-merge.spec
new file mode 100644
index 0000000000..dc2b9d3445
--- /dev/null
+++ b/src/test/isolation/specs/partition-merge.spec
@@ -0,0 +1,54 @@
+# Verify that MERGE operation locks DML operations with partitioned table
+
+setup
+{
+  DROP TABLE IF EXISTS tpart;
+  CREATE TABLE tpart(i int, t text) partition by range(i);
+  CREATE TABLE tpart_00_10 PARTITION OF tpart FOR VALUES FROM (0) TO (10);
+  CREATE TABLE tpart_10_20 PARTITION OF tpart FOR VALUES FROM (10) TO (20);
+  CREATE TABLE tpart_20_30 PARTITION OF tpart FOR VALUES FROM (20) TO (30);
+  CREATE TABLE tpart_default PARTITION OF tpart DEFAULT;
+  INSERT INTO tpart VALUES (5, 'text05');
+  INSERT INTO tpart VALUES (15, 'text15');
+  INSERT INTO tpart VALUES (25, 'text25');
+  INSERT INTO tpart VALUES (35, 'text35');
+}
+
+teardown
+{
+  DROP TABLE tpart;
+}
+
+session s1
+step s1b	{ BEGIN; }
+step s1brr	{ BEGIN ISOLATION LEVEL REPEATABLE READ; }
+step s1bs	{ BEGIN ISOLATION LEVEL SERIALIZABLE; }
+step s1merg	{ ALTER TABLE tpart MERGE PARTITIONS (tpart_00_10, tpart_10_20) INTO tpart_00_20; }
+step s1c	{ COMMIT; }
+
+
+session s2
+step s2b	{ BEGIN; }
+step s2brr	{ BEGIN ISOLATION LEVEL REPEATABLE READ; }
+step s2bs	{ BEGIN ISOLATION LEVEL SERIALIZABLE; }
+step s2i	{ INSERT INTO tpart VALUES (1, 'text01'); }
+step s2u	{ UPDATE tpart SET t = 'text01modif' where i = 1; }
+step s2c	{ COMMIT; }
+step s2s	{ SELECT * FROM tpart; }
+
+
+# s2 inserts row into table. s1 starts MERGE PARTITIONS then
+# s2 is trying to update inserted row and waits until s1 finishes
+# MERGE operation.
+
+permutation s2b s2i s2c s1b s1merg s2b s2u s1c s2c s2s
+permutation s2b s2i s2c s1brr s1merg s2b s2u s1c s2c s2s
+permutation s2b s2i s2c s1bs s1merg s2b s2u s1c s2c s2s
+
+permutation s2brr s2i s2c s1b s1merg s2b s2u s1c s2c s2s
+permutation s2brr s2i s2c s1brr s1merg s2b s2u s1c s2c s2s
+permutation s2brr s2i s2c s1bs s1merg s2b s2u s1c s2c s2s
+
+permutation s2bs s2i s2c s1b s1merg s2b s2u s1c s2c s2s
+permutation s2bs s2i s2c s1brr s1merg s2b s2u s1c s2c s2s
+permutation s2bs s2i s2c s1bs s1merg s2b s2u s1c s2c s2s
diff --git a/src/test/modules/test_ddl_deparse/test_ddl_deparse.c b/src/test/modules/test_ddl_deparse/test_ddl_deparse.c
index 193669f2bc..7de5ddb878 100644
--- a/src/test/modules/test_ddl_deparse/test_ddl_deparse.c
+++ b/src/test/modules/test_ddl_deparse/test_ddl_deparse.c
@@ -296,6 +296,9 @@ get_altertable_subcmdinfo(PG_FUNCTION_ARGS)
 			case AT_DetachPartitionFinalize:
 				strtype = "DETACH PARTITION ... FINALIZE";
 				break;
+			case AT_MergePartitions:
+				strtype = "MERGE PARTITIONS";
+				break;
 			case AT_AddIdentity:
 				strtype = "ADD IDENTITY";
 				break;
diff --git a/src/test/regress/expected/partition_merge.out b/src/test/regress/expected/partition_merge.out
new file mode 100644
index 0000000000..531f2021aa
--- /dev/null
+++ b/src/test/regress/expected/partition_merge.out
@@ -0,0 +1,1105 @@
+--
+-- PARTITIONS_MERGE
+-- Tests for "ALTER TABLE ... MERGE PARTITIONS ..." command
+--
+CREATE SCHEMA partitions_merge_schema;
+CREATE SCHEMA partitions_merge_schema2;
+SET search_path = partitions_merge_schema, public;
+--
+-- BY RANGE partitioning
+--
+--
+-- Test for error codes
+--
+CREATE TABLE sales_range (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date DATE) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_dec2021 PARTITION OF sales_range FOR VALUES FROM ('2021-12-01') TO ('2021-12-31');
+CREATE TABLE sales_jan2022 PARTITION OF sales_range FOR VALUES FROM ('2022-01-01') TO ('2022-02-01');
+CREATE TABLE sales_feb2022 PARTITION OF sales_range FOR VALUES FROM ('2022-02-01') TO ('2022-03-01');
+CREATE TABLE sales_mar2022 PARTITION OF sales_range FOR VALUES FROM ('2022-03-01') TO ('2022-04-01');
+CREATE TABLE sales_apr2022 (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date DATE) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_apr_1 PARTITION OF sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-04-15');
+CREATE TABLE sales_apr_2 PARTITION OF sales_apr2022 FOR VALUES FROM ('2022-04-15') TO ('2022-05-01');
+ALTER TABLE sales_range ATTACH PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01');
+CREATE TABLE sales_others PARTITION OF sales_range DEFAULT;
+-- ERROR:  partition with name "sales_feb2022" is already used
+ALTER TABLE sales_range MERGE PARTITIONS (sales_feb2022, sales_mar2022, sales_feb2022) INTO sales_feb_mar_apr2022;
+ERROR:  partition with name "sales_feb2022" is already used
+LINE 1: ...e MERGE PARTITIONS (sales_feb2022, sales_mar2022, sales_feb2...
+                                                             ^
+-- ERROR:  "sales_apr2022" is not a table
+ALTER TABLE sales_range MERGE PARTITIONS (sales_feb2022, sales_mar2022, sales_apr2022) INTO sales_feb_mar_apr2022;
+ERROR:  "sales_apr2022" is not a table
+HINT:  ALTER TABLE ... MERGE PARTITIONS can only merge partitions don't have sub-partitions
+-- ERROR:  lower bound of partition "sales_mar2022" is not equal to the upper bound of partition "sales_jan2022"
+-- (space between sections sales_jan2022 and sales_mar2022)
+ALTER TABLE sales_range MERGE PARTITIONS (sales_jan2022, sales_mar2022) INTO sales_jan_mar2022;
+ERROR:  lower bound of partition "sales_mar2022" is not equal to the upper bound of partition "sales_jan2022"
+HINT:  ALTER TABLE ... MERGE PARTITIONS requires the partition bounds to be adjacent.
+-- ERROR:  lower bound of partition "sales_jan2022" is not equal to the upper bound of partition "sales_dec2021"
+-- (space between sections sales_dec2021 and sales_jan2022)
+ALTER TABLE sales_range MERGE PARTITIONS (sales_dec2021, sales_jan2022, sales_feb2022) INTO sales_dec_jan_feb2022;
+ERROR:  lower bound of partition "sales_jan2022" is not equal to the upper bound of partition "sales_dec2021"
+HINT:  ALTER TABLE ... MERGE PARTITIONS requires the partition bounds to be adjacent.
+-- ERROR:  partition with name "sales_feb2022" is already used
+ALTER TABLE sales_range MERGE PARTITIONS (sales_feb2022, sales_mar2022, partitions_merge_schema.sales_feb2022) INTO sales_feb_mar_apr2022;
+ERROR:  partition with name "sales_feb2022" is already used
+LINE 1: ...e MERGE PARTITIONS (sales_feb2022, sales_mar2022, partitions...
+                                                             ^
+--ERROR, sales_apr_2 already exists
+ALTER TABLE sales_range MERGE PARTITIONS (sales_feb2022, sales_mar2022, sales_jan2022) INTO sales_apr_2;
+ERROR:  relation "sales_apr_2" already exists
+CREATE VIEW jan2022v as SELECT * FROM sales_jan2022;
+ALTER TABLE sales_range MERGE PARTITIONS (sales_jan2022, sales_feb2022) INTO sales_dec_jan_feb2022;
+ERROR:  cannot drop table sales_jan2022 because other objects depend on it
+DETAIL:  view jan2022v depends on table sales_jan2022
+HINT:  Use DROP ... CASCADE to drop the dependent objects too.
+DROP VIEW jan2022v;
+-- NO ERROR: test for custom partitions order, source partitions not in the search_path
+SET search_path = partitions_merge_schema2, public;
+ALTER TABLE partitions_merge_schema.sales_range MERGE PARTITIONS (
+  partitions_merge_schema.sales_feb2022,
+  partitions_merge_schema.sales_mar2022,
+  partitions_merge_schema.sales_jan2022) INTO sales_jan_feb_mar2022;
+SET search_path = partitions_merge_schema, public;
+PREPARE get_partition_info(regclass[]) AS
+SELECT  c.oid::pg_catalog.regclass,
+        c.relpersistence,
+        c.relkind,
+        i.inhdetachpending,
+        pg_catalog.pg_get_expr(c.relpartbound, c.oid)
+FROM    pg_catalog.pg_class c, pg_catalog.pg_inherits i
+WHERE   c.oid = i.inhrelid AND i.inhparent = ANY($1)
+ORDER BY pg_catalog.pg_get_expr(c.relpartbound, c.oid) = 'DEFAULT',
+         c.oid::regclass::text COLLATE "C";
+EXECUTE get_partition_info('{sales_range}');
+                      oid                       | relpersistence | relkind | inhdetachpending |                   pg_get_expr                    
+------------------------------------------------+----------------+---------+------------------+--------------------------------------------------
+ partitions_merge_schema2.sales_jan_feb_mar2022 | p              | r       | f                | FOR VALUES FROM ('01-01-2022') TO ('04-01-2022')
+ sales_apr2022                                  | p              | p       | f                | FOR VALUES FROM ('04-01-2022') TO ('05-01-2022')
+ sales_dec2021                                  | p              | r       | f                | FOR VALUES FROM ('12-01-2021') TO ('12-31-2021')
+ sales_others                                   | p              | r       | f                | DEFAULT
+(4 rows)
+
+DROP TABLE sales_range;
+--
+-- Add rows into partitioned table, then merge partitions
+--
+CREATE TABLE sales_range (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date DATE) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_jan2022 PARTITION OF sales_range FOR VALUES FROM ('2022-01-01') TO ('2022-02-01');
+CREATE TABLE sales_feb2022 PARTITION OF sales_range FOR VALUES FROM ('2022-02-01') TO ('2022-03-01');
+CREATE TABLE sales_mar2022 PARTITION OF sales_range FOR VALUES FROM ('2022-03-01') TO ('2022-04-01');
+CREATE TABLE sales_apr2022 PARTITION OF sales_range FOR VALUES FROM ('2022-04-01') TO ('2022-05-01');
+CREATE TABLE sales_others PARTITION OF sales_range DEFAULT;
+CREATE INDEX sales_range_sales_date_idx ON sales_range USING btree (sales_date);
+INSERT INTO sales_range VALUES
+  (1,  'May',      1000, '2022-01-31'),
+  (2,  'Smirnoff', 500,  '2022-02-10'),
+  (3,  'Ford',     2000, '2022-04-30'),
+  (4,  'Ivanov',   750,  '2022-04-13'),
+  (5,  'Deev',     250,  '2022-04-07'),
+  (6,  'Poirot',   150,  '2022-02-11'),
+  (7,  'Li',       175,  '2022-03-08'),
+  (8,  'Ericsson', 185,  '2022-02-23'),
+  (9,  'Muller',   250,  '2022-03-11'),
+  (10, 'Halder',   350,  '2022-01-28'),
+  (11, 'Trump',    380,  '2022-04-06'),
+  (12, 'Plato',    350,  '2022-03-19'),
+  (13, 'Gandi',    377,  '2022-01-09'),
+  (14, 'Smith',    510,  '2022-05-04');
+SELECT pg_catalog.pg_get_partkeydef('sales_range'::regclass);
+ pg_get_partkeydef  
+--------------------
+ RANGE (sales_date)
+(1 row)
+
+-- show partitions with conditions:
+EXECUTE get_partition_info('{sales_range}');
+      oid      | relpersistence | relkind | inhdetachpending |                   pg_get_expr                    
+---------------+----------------+---------+------------------+--------------------------------------------------
+ sales_apr2022 | p              | r       | f                | FOR VALUES FROM ('04-01-2022') TO ('05-01-2022')
+ sales_feb2022 | p              | r       | f                | FOR VALUES FROM ('02-01-2022') TO ('03-01-2022')
+ sales_jan2022 | p              | r       | f                | FOR VALUES FROM ('01-01-2022') TO ('02-01-2022')
+ sales_mar2022 | p              | r       | f                | FOR VALUES FROM ('03-01-2022') TO ('04-01-2022')
+ sales_others  | p              | r       | f                | DEFAULT
+(5 rows)
+
+-- check schema-qualified name of the new partition
+ALTER TABLE sales_range MERGE PARTITIONS (sales_feb2022, sales_mar2022, sales_apr2022) INTO partitions_merge_schema2.sales_feb_mar_apr2022;
+-- show partitions with conditions:
+EXECUTE get_partition_info('{sales_range}');
+                      oid                       | relpersistence | relkind | inhdetachpending |                   pg_get_expr                    
+------------------------------------------------+----------------+---------+------------------+--------------------------------------------------
+ partitions_merge_schema2.sales_feb_mar_apr2022 | p              | r       | f                | FOR VALUES FROM ('02-01-2022') TO ('05-01-2022')
+ sales_jan2022                                  | p              | r       | f                | FOR VALUES FROM ('01-01-2022') TO ('02-01-2022')
+ sales_others                                   | p              | r       | f                | DEFAULT
+(3 rows)
+
+SELECT * FROM pg_indexes WHERE tablename = 'sales_feb_mar_apr2022' and schemaname = 'partitions_merge_schema2';
+        schemaname        |       tablename       |              indexname               | tablespace |                                                           indexdef                                                           
+--------------------------+-----------------------+--------------------------------------+------------+------------------------------------------------------------------------------------------------------------------------------
+ partitions_merge_schema2 | sales_feb_mar_apr2022 | sales_feb_mar_apr2022_sales_date_idx |            | CREATE INDEX sales_feb_mar_apr2022_sales_date_idx ON partitions_merge_schema2.sales_feb_mar_apr2022 USING btree (sales_date)
+(1 row)
+
+SELECT tableoid::regclass, * FROM sales_range ORDER BY tableoid, salesperson_id;
+                    tableoid                    | salesperson_id | salesperson_name | sales_amount | sales_date 
+------------------------------------------------+----------------+------------------+--------------+------------
+ sales_jan2022                                  |              1 | May              |         1000 | 01-31-2022
+ sales_jan2022                                  |             10 | Halder           |          350 | 01-28-2022
+ sales_jan2022                                  |             13 | Gandi            |          377 | 01-09-2022
+ sales_others                                   |             14 | Smith            |          510 | 05-04-2022
+ partitions_merge_schema2.sales_feb_mar_apr2022 |              2 | Smirnoff         |          500 | 02-10-2022
+ partitions_merge_schema2.sales_feb_mar_apr2022 |              3 | Ford             |         2000 | 04-30-2022
+ partitions_merge_schema2.sales_feb_mar_apr2022 |              4 | Ivanov           |          750 | 04-13-2022
+ partitions_merge_schema2.sales_feb_mar_apr2022 |              5 | Deev             |          250 | 04-07-2022
+ partitions_merge_schema2.sales_feb_mar_apr2022 |              6 | Poirot           |          150 | 02-11-2022
+ partitions_merge_schema2.sales_feb_mar_apr2022 |              7 | Li               |          175 | 03-08-2022
+ partitions_merge_schema2.sales_feb_mar_apr2022 |              8 | Ericsson         |          185 | 02-23-2022
+ partitions_merge_schema2.sales_feb_mar_apr2022 |              9 | Muller           |          250 | 03-11-2022
+ partitions_merge_schema2.sales_feb_mar_apr2022 |             11 | Trump            |          380 | 04-06-2022
+ partitions_merge_schema2.sales_feb_mar_apr2022 |             12 | Plato            |          350 | 03-19-2022
+(14 rows)
+
+-- Use indexscan for testing indexes
+SET enable_seqscan = OFF;
+SELECT * FROM partitions_merge_schema2.sales_feb_mar_apr2022 where sales_date > '2022-01-01';
+ salesperson_id | salesperson_name | sales_amount | sales_date 
+----------------+------------------+--------------+------------
+              2 | Smirnoff         |          500 | 02-10-2022
+              6 | Poirot           |          150 | 02-11-2022
+              8 | Ericsson         |          185 | 02-23-2022
+              7 | Li               |          175 | 03-08-2022
+              9 | Muller           |          250 | 03-11-2022
+             12 | Plato            |          350 | 03-19-2022
+             11 | Trump            |          380 | 04-06-2022
+              5 | Deev             |          250 | 04-07-2022
+              4 | Ivanov           |          750 | 04-13-2022
+              3 | Ford             |         2000 | 04-30-2022
+(10 rows)
+
+RESET enable_seqscan;
+DROP TABLE sales_range;
+--
+-- Merge some partitions into DEFAULT partition
+--
+CREATE TABLE sales_range (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date DATE) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_jan2022 PARTITION OF sales_range FOR VALUES FROM ('2022-01-01') TO ('2022-02-01');
+CREATE TABLE sales_feb2022 PARTITION OF sales_range FOR VALUES FROM ('2022-02-01') TO ('2022-03-01');
+CREATE TABLE sales_mar2022 PARTITION OF sales_range FOR VALUES FROM ('2022-03-01') TO ('2022-04-01');
+CREATE TABLE sales_apr2022 PARTITION OF sales_range FOR VALUES FROM ('2022-04-01') TO ('2022-05-01');
+CREATE TABLE sales_others PARTITION OF sales_range DEFAULT;
+CREATE INDEX sales_range_sales_date_idx ON sales_range USING btree (sales_date);
+INSERT INTO sales_range VALUES
+  (1,  'May',      1000, '2022-01-31'),
+  (2,  'Smirnoff', 500,  '2022-02-10'),
+  (3,  'Ford',     2000, '2022-04-30'),
+  (4,  'Ivanov',   750,  '2022-04-13'),
+  (5,  'Deev',     250,  '2022-04-07'),
+  (6,  'Poirot',   150,  '2022-02-11'),
+  (7,  'Li',       175,  '2022-03-08'),
+  (8,  'Ericsson', 185,  '2022-02-23'),
+  (9,  'Muller',   250,  '2022-03-11'),
+  (10, 'Halder',   350,  '2022-01-28'),
+  (11, 'Trump',    380,  '2022-04-06'),
+  (12, 'Plato',    350,  '2022-03-19'),
+  (13, 'Gandi',    377,  '2022-01-09'),
+  (14, 'Smith',    510,  '2022-05-04');
+-- Merge partitions (include DEFAULT partition) into partition with the same
+-- name
+ALTER TABLE sales_range MERGE PARTITIONS
+  (sales_jan2022, sales_mar2022, partitions_merge_schema.sales_others) INTO sales_others;
+SELECT * FROM sales_others ORDER BY salesperson_id;
+ salesperson_id | salesperson_name | sales_amount | sales_date 
+----------------+------------------+--------------+------------
+              1 | May              |         1000 | 01-31-2022
+              7 | Li               |          175 | 03-08-2022
+              9 | Muller           |          250 | 03-11-2022
+             10 | Halder           |          350 | 01-28-2022
+             12 | Plato            |          350 | 03-19-2022
+             13 | Gandi            |          377 | 01-09-2022
+             14 | Smith            |          510 | 05-04-2022
+(7 rows)
+
+-- show partitions with conditions:
+EXECUTE get_partition_info('{sales_range}');
+      oid      | relpersistence | relkind | inhdetachpending |                   pg_get_expr                    
+---------------+----------------+---------+------------------+--------------------------------------------------
+ sales_apr2022 | p              | r       | f                | FOR VALUES FROM ('04-01-2022') TO ('05-01-2022')
+ sales_feb2022 | p              | r       | f                | FOR VALUES FROM ('02-01-2022') TO ('03-01-2022')
+ sales_others  | p              | r       | f                | DEFAULT
+(3 rows)
+
+DROP TABLE sales_range;
+--
+-- Test for:
+--   * composite partition key;
+--   * GENERATED column;
+--   * column with DEFAULT value.
+--
+CREATE TABLE sales_date (salesperson_name VARCHAR(30), sales_year INT, sales_month INT, sales_day INT,
+  sales_date VARCHAR(10) GENERATED ALWAYS AS
+    (LPAD(sales_year::text, 4, '0') || '.' || LPAD(sales_month::text, 2, '0') || '.' || LPAD(sales_day::text, 2, '0')) STORED,
+  sales_department VARCHAR(30) DEFAULT 'Sales department')
+  PARTITION BY RANGE (sales_year, sales_month, sales_day);
+CREATE TABLE sales_dec2022 PARTITION OF sales_date FOR VALUES FROM (2021, 12, 1) TO (2022, 1, 1);
+CREATE TABLE sales_jan2022 PARTITION OF sales_date FOR VALUES FROM (2022, 1, 1) TO (2022, 2, 1);
+CREATE TABLE sales_feb2022 PARTITION OF sales_date FOR VALUES FROM (2022, 2, 1) TO (2022, 3, 1);
+CREATE TABLE sales_other PARTITION OF sales_date FOR VALUES FROM (2022, 3, 1) TO (MAXVALUE, MAXVALUE, MAXVALUE);
+INSERT INTO sales_date(salesperson_name, sales_year, sales_month, sales_day) VALUES
+  ('Manager1', 2021, 12, 7),
+  ('Manager2', 2021, 12, 8),
+  ('Manager3', 2022, 1, 1),
+  ('Manager1', 2022, 2, 4),
+  ('Manager2', 2022, 1, 2),
+  ('Manager3', 2022, 2, 1),
+  ('Manager1', 2022, 3, 3),
+  ('Manager2', 2022, 3, 4),
+  ('Manager3', 2022, 5, 1);
+SELECT * FROM sales_date;
+ salesperson_name | sales_year | sales_month | sales_day | sales_date | sales_department 
+------------------+------------+-------------+-----------+------------+------------------
+ Manager1         |       2021 |          12 |         7 | 2021.12.07 | Sales department
+ Manager2         |       2021 |          12 |         8 | 2021.12.08 | Sales department
+ Manager3         |       2022 |           1 |         1 | 2022.01.01 | Sales department
+ Manager2         |       2022 |           1 |         2 | 2022.01.02 | Sales department
+ Manager1         |       2022 |           2 |         4 | 2022.02.04 | Sales department
+ Manager3         |       2022 |           2 |         1 | 2022.02.01 | Sales department
+ Manager1         |       2022 |           3 |         3 | 2022.03.03 | Sales department
+ Manager2         |       2022 |           3 |         4 | 2022.03.04 | Sales department
+ Manager3         |       2022 |           5 |         1 | 2022.05.01 | Sales department
+(9 rows)
+
+SELECT * FROM sales_dec2022;
+ salesperson_name | sales_year | sales_month | sales_day | sales_date | sales_department 
+------------------+------------+-------------+-----------+------------+------------------
+ Manager1         |       2021 |          12 |         7 | 2021.12.07 | Sales department
+ Manager2         |       2021 |          12 |         8 | 2021.12.08 | Sales department
+(2 rows)
+
+SELECT * FROM sales_jan2022;
+ salesperson_name | sales_year | sales_month | sales_day | sales_date | sales_department 
+------------------+------------+-------------+-----------+------------+------------------
+ Manager3         |       2022 |           1 |         1 | 2022.01.01 | Sales department
+ Manager2         |       2022 |           1 |         2 | 2022.01.02 | Sales department
+(2 rows)
+
+SELECT * FROM sales_feb2022;
+ salesperson_name | sales_year | sales_month | sales_day | sales_date | sales_department 
+------------------+------------+-------------+-----------+------------+------------------
+ Manager1         |       2022 |           2 |         4 | 2022.02.04 | Sales department
+ Manager3         |       2022 |           2 |         1 | 2022.02.01 | Sales department
+(2 rows)
+
+SELECT * FROM sales_other;
+ salesperson_name | sales_year | sales_month | sales_day | sales_date | sales_department 
+------------------+------------+-------------+-----------+------------+------------------
+ Manager1         |       2022 |           3 |         3 | 2022.03.03 | Sales department
+ Manager2         |       2022 |           3 |         4 | 2022.03.04 | Sales department
+ Manager3         |       2022 |           5 |         1 | 2022.05.01 | Sales department
+(3 rows)
+
+ALTER TABLE sales_date MERGE PARTITIONS (sales_jan2022, sales_feb2022) INTO sales_jan_feb2022;
+INSERT INTO sales_date(salesperson_name, sales_year, sales_month, sales_day) VALUES
+  ('Manager1', 2022, 1, 10),
+  ('Manager2', 2022, 2, 10);
+SELECT * FROM sales_date;
+ salesperson_name | sales_year | sales_month | sales_day | sales_date | sales_department 
+------------------+------------+-------------+-----------+------------+------------------
+ Manager1         |       2021 |          12 |         7 | 2021.12.07 | Sales department
+ Manager2         |       2021 |          12 |         8 | 2021.12.08 | Sales department
+ Manager3         |       2022 |           1 |         1 | 2022.01.01 | Sales department
+ Manager2         |       2022 |           1 |         2 | 2022.01.02 | Sales department
+ Manager1         |       2022 |           2 |         4 | 2022.02.04 | Sales department
+ Manager3         |       2022 |           2 |         1 | 2022.02.01 | Sales department
+ Manager1         |       2022 |           1 |        10 | 2022.01.10 | Sales department
+ Manager2         |       2022 |           2 |        10 | 2022.02.10 | Sales department
+ Manager1         |       2022 |           3 |         3 | 2022.03.03 | Sales department
+ Manager2         |       2022 |           3 |         4 | 2022.03.04 | Sales department
+ Manager3         |       2022 |           5 |         1 | 2022.05.01 | Sales department
+(11 rows)
+
+SELECT * FROM sales_dec2022;
+ salesperson_name | sales_year | sales_month | sales_day | sales_date | sales_department 
+------------------+------------+-------------+-----------+------------+------------------
+ Manager1         |       2021 |          12 |         7 | 2021.12.07 | Sales department
+ Manager2         |       2021 |          12 |         8 | 2021.12.08 | Sales department
+(2 rows)
+
+SELECT * FROM sales_jan_feb2022;
+ salesperson_name | sales_year | sales_month | sales_day | sales_date | sales_department 
+------------------+------------+-------------+-----------+------------+------------------
+ Manager3         |       2022 |           1 |         1 | 2022.01.01 | Sales department
+ Manager2         |       2022 |           1 |         2 | 2022.01.02 | Sales department
+ Manager1         |       2022 |           2 |         4 | 2022.02.04 | Sales department
+ Manager3         |       2022 |           2 |         1 | 2022.02.01 | Sales department
+ Manager1         |       2022 |           1 |        10 | 2022.01.10 | Sales department
+ Manager2         |       2022 |           2 |        10 | 2022.02.10 | Sales department
+(6 rows)
+
+SELECT * FROM sales_other;
+ salesperson_name | sales_year | sales_month | sales_day | sales_date | sales_department 
+------------------+------------+-------------+-----------+------------+------------------
+ Manager1         |       2022 |           3 |         3 | 2022.03.03 | Sales department
+ Manager2         |       2022 |           3 |         4 | 2022.03.04 | Sales department
+ Manager3         |       2022 |           5 |         1 | 2022.05.01 | Sales department
+(3 rows)
+
+DROP TABLE sales_date;
+--
+-- Test: merge partitions of partitioned table with triggers
+--
+CREATE TABLE salespeople(salesperson_id INT PRIMARY KEY, salesperson_name VARCHAR(30)) PARTITION BY RANGE (salesperson_id);
+CREATE TABLE salespeople01_10 PARTITION OF salespeople FOR VALUES FROM (1) TO (10);
+CREATE TABLE salespeople10_20 PARTITION OF salespeople FOR VALUES FROM (10) TO (20);
+CREATE TABLE salespeople20_30 PARTITION OF salespeople FOR VALUES FROM (20) TO (30);
+CREATE TABLE salespeople30_40 PARTITION OF salespeople FOR VALUES FROM (30) TO (40);
+INSERT INTO salespeople VALUES (1,  'Poirot');
+CREATE OR REPLACE FUNCTION after_insert_row_trigger() RETURNS trigger LANGUAGE 'plpgsql' AS $BODY$
+BEGIN
+    RAISE NOTICE 'trigger(%) called: action = %, when = %, level = %', TG_ARGV[0], TG_OP, TG_WHEN, TG_LEVEL;
+    RETURN NULL;
+END;
+$BODY$;
+CREATE TRIGGER salespeople_after_insert_statement_trigger
+    AFTER INSERT
+    ON salespeople
+    FOR EACH STATEMENT
+    EXECUTE PROCEDURE after_insert_row_trigger('salespeople');
+CREATE TRIGGER salespeople_after_insert_row_trigger
+    AFTER INSERT
+    ON salespeople
+    FOR EACH ROW
+    EXECUTE PROCEDURE after_insert_row_trigger('salespeople');
+-- 2 triggers should fire here (row + statement):
+INSERT INTO salespeople VALUES (10, 'May');
+NOTICE:  trigger(salespeople) called: action = INSERT, when = AFTER, level = ROW
+NOTICE:  trigger(salespeople) called: action = INSERT, when = AFTER, level = STATEMENT
+-- 1 trigger should fire here (row):
+INSERT INTO salespeople10_20 VALUES (19, 'Ivanov');
+NOTICE:  trigger(salespeople) called: action = INSERT, when = AFTER, level = ROW
+ALTER TABLE salespeople MERGE PARTITIONS (salespeople10_20, salespeople20_30, salespeople30_40) INTO salespeople10_40;
+-- 2 triggers should fire here (row + statement):
+INSERT INTO salespeople VALUES (20, 'Smirnoff');
+NOTICE:  trigger(salespeople) called: action = INSERT, when = AFTER, level = ROW
+NOTICE:  trigger(salespeople) called: action = INSERT, when = AFTER, level = STATEMENT
+-- 1 trigger should fire here (row):
+INSERT INTO salespeople10_40 VALUES (30, 'Ford');
+NOTICE:  trigger(salespeople) called: action = INSERT, when = AFTER, level = ROW
+SELECT * FROM salespeople01_10;
+ salesperson_id | salesperson_name 
+----------------+------------------
+              1 | Poirot
+(1 row)
+
+SELECT * FROM salespeople10_40;
+ salesperson_id | salesperson_name 
+----------------+------------------
+             10 | May
+             19 | Ivanov
+             20 | Smirnoff
+             30 | Ford
+(4 rows)
+
+DROP TABLE salespeople;
+DROP FUNCTION after_insert_row_trigger();
+--
+-- Test: merge partitions with deleted columns
+--
+CREATE TABLE salespeople(salesperson_id INT PRIMARY KEY, salesperson_name VARCHAR(30)) PARTITION BY RANGE (salesperson_id);
+CREATE TABLE salespeople01_10 PARTITION OF salespeople FOR VALUES FROM (1) TO (10);
+-- Create partitions with some deleted columns:
+CREATE TABLE salespeople10_20(d1 VARCHAR(30), salesperson_id INT PRIMARY KEY, salesperson_name VARCHAR(30));
+CREATE TABLE salespeople20_30(salesperson_id INT PRIMARY KEY, d2 INT,  salesperson_name VARCHAR(30));
+CREATE TABLE salespeople30_40(salesperson_id INT PRIMARY KEY, d3 DATE, salesperson_name VARCHAR(30));
+INSERT INTO salespeople10_20 VALUES ('dummy value 1', 19, 'Ivanov');
+INSERT INTO salespeople20_30 VALUES (20, 101, 'Smirnoff');
+INSERT INTO salespeople30_40 VALUES (31, now(), 'Popov');
+ALTER TABLE salespeople10_20 DROP COLUMN d1;
+ALTER TABLE salespeople20_30 DROP COLUMN d2;
+ALTER TABLE salespeople30_40 DROP COLUMN d3;
+ALTER TABLE salespeople ATTACH PARTITION salespeople10_20 FOR VALUES FROM (10) TO (20);
+ALTER TABLE salespeople ATTACH PARTITION salespeople20_30 FOR VALUES FROM (20) TO (30);
+ALTER TABLE salespeople ATTACH PARTITION salespeople30_40 FOR VALUES FROM (30) TO (40);
+INSERT INTO salespeople VALUES
+  (1, 'Poirot'),
+  (10, 'May'),
+  (30, 'Ford');
+ALTER TABLE salespeople MERGE PARTITIONS (salespeople10_20, salespeople20_30, salespeople30_40) INTO salespeople10_40;
+select * from salespeople;
+ salesperson_id | salesperson_name 
+----------------+------------------
+              1 | Poirot
+             19 | Ivanov
+             10 | May
+             20 | Smirnoff
+             31 | Popov
+             30 | Ford
+(6 rows)
+
+select * from salespeople01_10;
+ salesperson_id | salesperson_name 
+----------------+------------------
+              1 | Poirot
+(1 row)
+
+select * from salespeople10_40;
+ salesperson_id | salesperson_name 
+----------------+------------------
+             19 | Ivanov
+             10 | May
+             20 | Smirnoff
+             31 | Popov
+             30 | Ford
+(5 rows)
+
+DROP TABLE salespeople;
+--
+-- Test: merge sub-partitions
+--
+CREATE TABLE sales_range (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date DATE) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_jan2022 PARTITION OF sales_range FOR VALUES FROM ('2022-01-01') TO ('2022-02-01');
+CREATE TABLE sales_feb2022 PARTITION OF sales_range FOR VALUES FROM ('2022-02-01') TO ('2022-03-01');
+CREATE TABLE sales_mar2022 PARTITION OF sales_range FOR VALUES FROM ('2022-03-01') TO ('2022-04-01');
+CREATE TABLE sales_apr2022 (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date DATE) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_apr2022_01_10 PARTITION OF sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-04-10');
+CREATE TABLE sales_apr2022_10_20 PARTITION OF sales_apr2022 FOR VALUES FROM ('2022-04-10') TO ('2022-04-20');
+CREATE TABLE sales_apr2022_20_30 PARTITION OF sales_apr2022 FOR VALUES FROM ('2022-04-20') TO ('2022-05-01');
+ALTER TABLE sales_range ATTACH PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01');
+CREATE TABLE sales_others PARTITION OF sales_range DEFAULT;
+CREATE INDEX sales_range_sales_date_idx ON sales_range USING btree (sales_date);
+INSERT INTO sales_range VALUES
+  (1,  'May',      1000, '2022-01-31'),
+  (2,  'Smirnoff', 500,  '2022-02-10'),
+  (3,  'Ford',     2000, '2022-04-30'),
+  (4,  'Ivanov',   750,  '2022-04-13'),
+  (5,  'Deev',     250,  '2022-04-07'),
+  (6,  'Poirot',   150,  '2022-02-11'),
+  (7,  'Li',       175,  '2022-03-08'),
+  (8,  'Ericsson', 185,  '2022-02-23'),
+  (9,  'Muller',   250,  '2022-03-11'),
+  (10, 'Halder',   350,  '2022-01-28'),
+  (11, 'Trump',    380,  '2022-04-06'),
+  (12, 'Plato',    350,  '2022-03-19'),
+  (13, 'Gandi',    377,  '2022-01-09'),
+  (14, 'Smith',    510,  '2022-05-04');
+SELECT tableoid::regclass, * FROM sales_apr2022 ORDER BY tableoid, salesperson_id;
+      tableoid       | salesperson_id | salesperson_name | sales_amount | sales_date 
+---------------------+----------------+------------------+--------------+------------
+ sales_apr2022_01_10 |              5 | Deev             |          250 | 04-07-2022
+ sales_apr2022_01_10 |             11 | Trump            |          380 | 04-06-2022
+ sales_apr2022_10_20 |              4 | Ivanov           |          750 | 04-13-2022
+ sales_apr2022_20_30 |              3 | Ford             |         2000 | 04-30-2022
+(4 rows)
+
+ALTER TABLE sales_apr2022 MERGE PARTITIONS (sales_apr2022_01_10, sales_apr2022_10_20, sales_apr2022_20_30) INTO sales_apr_all;
+SELECT tableoid::regclass, * FROM sales_apr2022 ORDER BY tableoid, salesperson_id;
+   tableoid    | salesperson_id | salesperson_name | sales_amount | sales_date 
+---------------+----------------+------------------+--------------+------------
+ sales_apr_all |              3 | Ford             |         2000 | 04-30-2022
+ sales_apr_all |              4 | Ivanov           |          750 | 04-13-2022
+ sales_apr_all |              5 | Deev             |          250 | 04-07-2022
+ sales_apr_all |             11 | Trump            |          380 | 04-06-2022
+(4 rows)
+
+DROP TABLE sales_range;
+--
+-- BY LIST partitioning
+--
+--
+-- Test: specific errors for BY LIST partitioning
+--
+CREATE TABLE sales_list
+(salesperson_id INT GENERATED ALWAYS AS IDENTITY,
+ salesperson_name VARCHAR(30),
+ sales_state VARCHAR(20),
+ sales_amount INT,
+ sales_date DATE)
+PARTITION BY LIST (sales_state);
+CREATE TABLE sales_nord PARTITION OF sales_list FOR VALUES IN ('Oslo', 'St. Petersburg', 'Helsinki');
+CREATE TABLE sales_west PARTITION OF sales_list FOR VALUES IN ('Lisbon', 'New York', 'Madrid');
+CREATE TABLE sales_east PARTITION OF sales_list FOR VALUES IN ('Bejing', 'Delhi', 'Vladivostok');
+CREATE TABLE sales_central PARTITION OF sales_list FOR VALUES IN ('Warsaw', 'Berlin', 'Kyiv');
+CREATE TABLE sales_others PARTITION OF sales_list DEFAULT;
+CREATE TABLE sales_list2 (LIKE sales_list) PARTITION BY LIST (sales_state);
+CREATE TABLE sales_nord2 PARTITION OF sales_list2 FOR VALUES IN ('Oslo', 'St. Petersburg', 'Helsinki');
+CREATE TABLE sales_others2 PARTITION OF sales_list2 DEFAULT;
+CREATE TABLE sales_external (LIKE sales_list);
+CREATE TABLE sales_external2 (vch VARCHAR(5));
+-- ERROR:  "sales_external" is not a partition of partitioned table "sales_list"
+ALTER TABLE sales_list MERGE PARTITIONS (sales_west, sales_east, sales_external) INTO sales_all;
+ERROR:  "sales_external" is not a partition of partitioned table "sales_list"
+HINT:  ALTER TABLE ... MERGE PARTITIONS can only merge partitions don't have sub-partitions
+-- ERROR:  "sales_external2" is not a partition of partitioned table "sales_list"
+ALTER TABLE sales_list MERGE PARTITIONS (sales_west, sales_east, sales_external2) INTO sales_all;
+ERROR:  "sales_external2" is not a partition of partitioned table "sales_list"
+HINT:  ALTER TABLE ... MERGE PARTITIONS can only merge partitions don't have sub-partitions
+-- ERROR:  relation "sales_nord2" is not a partition of relation "sales_list"
+ALTER TABLE sales_list MERGE PARTITIONS (sales_west, sales_nord2, sales_east) INTO sales_all;
+ERROR:  relation "sales_nord2" is not a partition of relation "sales_list"
+HINT:  ALTER TABLE ... MERGE PARTITIONS can only merge partitions don't have sub-partitions
+DROP TABLE sales_external2;
+DROP TABLE sales_external;
+DROP TABLE sales_list2;
+DROP TABLE sales_list;
+--
+-- Test: BY LIST partitioning, MERGE PARTITIONS with data
+--
+CREATE TABLE sales_list
+(salesperson_id INT GENERATED ALWAYS AS IDENTITY,
+ salesperson_name VARCHAR(30),
+ sales_state VARCHAR(20),
+ sales_amount INT,
+ sales_date DATE)
+PARTITION BY LIST (sales_state);
+CREATE INDEX sales_list_salesperson_name_idx ON sales_list USING btree (salesperson_name);
+CREATE INDEX sales_list_sales_state_idx ON sales_list USING btree (sales_state);
+CREATE TABLE sales_nord PARTITION OF sales_list FOR VALUES IN ('Oslo', 'St. Petersburg', 'Helsinki');
+CREATE TABLE sales_west PARTITION OF sales_list FOR VALUES IN ('Lisbon', 'New York', 'Madrid');
+CREATE TABLE sales_east PARTITION OF sales_list FOR VALUES IN ('Bejing', 'Delhi', 'Vladivostok');
+CREATE TABLE sales_central PARTITION OF sales_list FOR VALUES IN ('Warsaw', 'Berlin', 'Kyiv');
+CREATE TABLE sales_others PARTITION OF sales_list DEFAULT;
+INSERT INTO sales_list (salesperson_name, sales_state, sales_amount, sales_date) VALUES
+  ('Trump',    'Bejing',         1000, '2022-03-01'),
+  ('Smirnoff', 'New York',        500, '2022-03-03'),
+  ('Ford',     'St. Petersburg', 2000, '2022-03-05'),
+  ('Ivanov',   'Warsaw',          750, '2022-03-04'),
+  ('Deev',     'Lisbon',          250, '2022-03-07'),
+  ('Poirot',   'Berlin',         1000, '2022-03-01'),
+  ('May',      'Helsinki',       1200, '2022-03-06'),
+  ('Li',       'Vladivostok',    1150, '2022-03-09'),
+  ('May',      'Helsinki',       1200, '2022-03-11'),
+  ('Halder',   'Oslo',            800, '2022-03-02'),
+  ('Muller',   'Madrid',          650, '2022-03-05'),
+  ('Smith',    'Kyiv',            350, '2022-03-10'),
+  ('Gandi',    'Warsaw',          150, '2022-03-08'),
+  ('Plato',    'Lisbon',          950, '2022-03-05');
+-- show partitions with conditions:
+EXECUTE get_partition_info('{sales_list}');
+      oid      | relpersistence | relkind | inhdetachpending |                     pg_get_expr                      
+---------------+----------------+---------+------------------+------------------------------------------------------
+ sales_central | p              | r       | f                | FOR VALUES IN ('Warsaw', 'Berlin', 'Kyiv')
+ sales_east    | p              | r       | f                | FOR VALUES IN ('Bejing', 'Delhi', 'Vladivostok')
+ sales_nord    | p              | r       | f                | FOR VALUES IN ('Oslo', 'St. Petersburg', 'Helsinki')
+ sales_west    | p              | r       | f                | FOR VALUES IN ('Lisbon', 'New York', 'Madrid')
+ sales_others  | p              | r       | f                | DEFAULT
+(5 rows)
+
+ALTER TABLE sales_list MERGE PARTITIONS (sales_west, sales_east, sales_central) INTO sales_all;
+-- show partitions with conditions:
+EXECUTE get_partition_info('{sales_list}');
+     oid      | relpersistence | relkind | inhdetachpending |                                                 pg_get_expr                                                  
+--------------+----------------+---------+------------------+--------------------------------------------------------------------------------------------------------------
+ sales_all    | p              | r       | f                | FOR VALUES IN ('Lisbon', 'New York', 'Madrid', 'Bejing', 'Delhi', 'Vladivostok', 'Warsaw', 'Berlin', 'Kyiv')
+ sales_nord   | p              | r       | f                | FOR VALUES IN ('Oslo', 'St. Petersburg', 'Helsinki')
+ sales_others | p              | r       | f                | DEFAULT
+(3 rows)
+
+SELECT tableoid::regclass, * FROM sales_list ORDER BY tableoid, salesperson_id;
+  tableoid  | salesperson_id | salesperson_name |  sales_state   | sales_amount | sales_date 
+------------+----------------+------------------+----------------+--------------+------------
+ sales_nord |              3 | Ford             | St. Petersburg |         2000 | 03-05-2022
+ sales_nord |              7 | May              | Helsinki       |         1200 | 03-06-2022
+ sales_nord |              9 | May              | Helsinki       |         1200 | 03-11-2022
+ sales_nord |             10 | Halder           | Oslo           |          800 | 03-02-2022
+ sales_all  |              1 | Trump            | Bejing         |         1000 | 03-01-2022
+ sales_all  |              2 | Smirnoff         | New York       |          500 | 03-03-2022
+ sales_all  |              4 | Ivanov           | Warsaw         |          750 | 03-04-2022
+ sales_all  |              5 | Deev             | Lisbon         |          250 | 03-07-2022
+ sales_all  |              6 | Poirot           | Berlin         |         1000 | 03-01-2022
+ sales_all  |              8 | Li               | Vladivostok    |         1150 | 03-09-2022
+ sales_all  |             11 | Muller           | Madrid         |          650 | 03-05-2022
+ sales_all  |             12 | Smith            | Kyiv           |          350 | 03-10-2022
+ sales_all  |             13 | Gandi            | Warsaw         |          150 | 03-08-2022
+ sales_all  |             14 | Plato            | Lisbon         |          950 | 03-05-2022
+(14 rows)
+
+-- Use indexscan for testing indexes after merging partitions
+SET enable_seqscan = OFF;
+SELECT * FROM sales_all WHERE sales_state = 'Warsaw';
+ salesperson_id | salesperson_name | sales_state | sales_amount | sales_date 
+----------------+------------------+-------------+--------------+------------
+              4 | Ivanov           | Warsaw      |          750 | 03-04-2022
+             13 | Gandi            | Warsaw      |          150 | 03-08-2022
+(2 rows)
+
+SELECT * FROM sales_list WHERE sales_state = 'Warsaw';
+ salesperson_id | salesperson_name | sales_state | sales_amount | sales_date 
+----------------+------------------+-------------+--------------+------------
+              4 | Ivanov           | Warsaw      |          750 | 03-04-2022
+             13 | Gandi            | Warsaw      |          150 | 03-08-2022
+(2 rows)
+
+SELECT * FROM sales_list WHERE salesperson_name = 'Ivanov';
+ salesperson_id | salesperson_name | sales_state | sales_amount | sales_date 
+----------------+------------------+-------------+--------------+------------
+              4 | Ivanov           | Warsaw      |          750 | 03-04-2022
+(1 row)
+
+RESET enable_seqscan;
+DROP TABLE sales_list;
+--
+-- Try to MERGE partitions of another table.
+--
+CREATE TABLE t1 (i int, a int, b int, c int) PARTITION BY RANGE (a, b);
+CREATE TABLE t1p1 PARTITION OF t1 FOR VALUES FROM (1, 1) TO (1, 2);
+CREATE TABLE t2 (i int, t text) PARTITION BY RANGE (t);
+CREATE TABLE t2pa PARTITION OF t2 FOR VALUES FROM ('A') TO ('C');
+CREATE TABLE t3 (i int, t text);
+-- ERROR:  relation "t1p1" is not a partition of relation "t2"
+ALTER TABLE t2 MERGE PARTITIONS (t1p1, t2pa) INTO t2p;
+ERROR:  relation "t1p1" is not a partition of relation "t2"
+HINT:  ALTER TABLE ... MERGE PARTITIONS can only merge partitions don't have sub-partitions
+-- ERROR:  "t3" is not a partition of partitioned table "t2"
+ALTER TABLE t2 MERGE PARTITIONS (t2pa, t3) INTO t2p;
+ERROR:  "t3" is not a partition of partitioned table "t2"
+HINT:  ALTER TABLE ... MERGE PARTITIONS can only merge partitions don't have sub-partitions
+DROP TABLE t3;
+DROP TABLE t2;
+DROP TABLE t1;
+--
+-- Try to MERGE partitions of temporary table.
+--
+CREATE TEMP TABLE t (i int) PARTITION BY RANGE (i);
+CREATE TEMP TABLE tp_0_1 PARTITION OF t FOR VALUES FROM (0) TO (1);
+CREATE TEMP TABLE tp_1_2 PARTITION OF t FOR VALUES FROM (1) TO (2);
+EXECUTE get_partition_info('{t}');
+  oid   | relpersistence | relkind | inhdetachpending |        pg_get_expr         
+--------+----------------+---------+------------------+----------------------------
+ tp_0_1 | t              | r       | f                | FOR VALUES FROM (0) TO (1)
+ tp_1_2 | t              | r       | f                | FOR VALUES FROM (1) TO (2)
+(2 rows)
+
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO tp_0_2;
+-- Partition should be temporary.
+EXECUTE get_partition_info('{t}');
+  oid   | relpersistence | relkind | inhdetachpending |        pg_get_expr         
+--------+----------------+---------+------------------+----------------------------
+ tp_0_2 | t              | r       | f                | FOR VALUES FROM (0) TO (2)
+(1 row)
+
+DROP TABLE t;
+--
+-- Check the partition index name if the partition name is the same as one
+-- of the merged partitions.
+--
+CREATE TABLE t (i int, PRIMARY KEY(i)) PARTITION BY RANGE (i);
+CREATE TABLE tp_0_1 PARTITION OF t FOR VALUES FROM (0) TO (1);
+CREATE TABLE tp_1_2 PARTITION OF t FOR VALUES FROM (1) TO (2);
+CREATE INDEX tidx ON t(i);
+ALTER TABLE t MERGE PARTITIONS (tp_1_2, tp_0_1) INTO tp_1_2;
+-- Indexname values should be 'tp_1_2_pkey' and 'tp_1_2_i_idx'.
+-- Not-null constraint name should be 'tp_1_2_i_not_null'.
+\d+ tp_1_2
+                          Table "partitions_merge_schema.tp_1_2"
+ Column |  Type   | Collation | Nullable | Default | Storage | Stats target | Description 
+--------+---------+-----------+----------+---------+---------+--------------+-------------
+ i      | integer |           | not null |         | plain   |              | 
+Partition of: t FOR VALUES FROM (0) TO (2)
+Partition constraint: ((i IS NOT NULL) AND (i >= 0) AND (i < 2))
+Indexes:
+    "tp_1_2_pkey" PRIMARY KEY, btree (i)
+    "tp_1_2_i_idx" btree (i)
+Not-null constraints:
+    "t_i_not_null" NOT NULL "i" (inherited)
+
+DROP TABLE t;
+--
+-- Try mixing permanent and temporary partitions.
+--
+SET search_path = partitions_merge_schema, pg_temp, public;
+CREATE TABLE t (i int) PARTITION BY RANGE (i);
+CREATE TABLE tp_0_1 PARTITION OF t FOR VALUES FROM (0) TO (1);
+CREATE TABLE tp_1_2 PARTITION OF t FOR VALUES FROM (1) TO (2);
+SELECT c.oid::pg_catalog.regclass, c.relpersistence FROM pg_catalog.pg_class c WHERE c.oid = 't'::regclass;
+ oid | relpersistence 
+-----+----------------
+ t   | p
+(1 row)
+
+EXECUTE get_partition_info('{t}');
+  oid   | relpersistence | relkind | inhdetachpending |        pg_get_expr         
+--------+----------------+---------+------------------+----------------------------
+ tp_0_1 | p              | r       | f                | FOR VALUES FROM (0) TO (1)
+ tp_1_2 | p              | r       | f                | FOR VALUES FROM (1) TO (2)
+(2 rows)
+
+SET search_path = pg_temp, partitions_merge_schema, public;
+-- Can't merge persistent partitions into a temporary partition
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO tp_0_2;
+ERROR:  cannot create a temporary relation as partition of permanent relation "t"
+SET search_path = partitions_merge_schema, public;
+-- Can't merge persistent partitions into a temporary partition
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO pg_temp.tp_0_2;
+ERROR:  cannot create a temporary relation as partition of permanent relation "t"
+DROP TABLE t;
+SET search_path = pg_temp, partitions_merge_schema, public;
+BEGIN;
+CREATE TABLE t (i int) PARTITION BY RANGE (i);
+CREATE TABLE tp_0_1 PARTITION OF t FOR VALUES FROM (0) TO (1);
+CREATE TABLE tp_1_2 PARTITION OF t FOR VALUES FROM (1) TO (2);
+SELECT c.oid::pg_catalog.regclass, c.relpersistence FROM pg_catalog.pg_class c WHERE c.oid = 't'::regclass;
+ oid | relpersistence 
+-----+----------------
+ t   | t
+(1 row)
+
+EXECUTE get_partition_info('{t}');
+  oid   | relpersistence | relkind | inhdetachpending |        pg_get_expr         
+--------+----------------+---------+------------------+----------------------------
+ tp_0_1 | t              | r       | f                | FOR VALUES FROM (0) TO (1)
+ tp_1_2 | t              | r       | f                | FOR VALUES FROM (1) TO (2)
+(2 rows)
+
+DEALLOCATE get_partition_info;
+SET search_path = partitions_merge_schema, pg_temp, public;
+-- Can't merge temporary partitions into a persistent partition
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO tp_0_2;
+ROLLBACK;
+-- Check the new partition inherits parent's tablespace
+SET search_path = partitions_merge_schema, public;
+CREATE TABLE t (i int PRIMARY KEY USING INDEX TABLESPACE regress_tblspace)
+  PARTITION BY RANGE (i) TABLESPACE regress_tblspace;
+CREATE TABLE tp_0_1 PARTITION OF t FOR VALUES FROM (0) TO (1);
+CREATE TABLE tp_1_2 PARTITION OF t FOR VALUES FROM (1) TO (2);
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO tp_0_2;
+SELECT tablename, tablespace FROM pg_tables
+  WHERE tablename IN ('t', 'tp_0_2') AND schemaname = 'partitions_merge_schema'
+  ORDER BY tablename, tablespace;
+ tablename |    tablespace    
+-----------+------------------
+ t         | regress_tblspace
+ tp_0_2    | regress_tblspace
+(2 rows)
+
+SELECT tablename, indexname, tablespace FROM pg_indexes
+  WHERE tablename IN ('t', 'tp_0_2') AND schemaname = 'partitions_merge_schema'
+  ORDER BY tablename, indexname, tablespace;
+ tablename |  indexname  |    tablespace    
+-----------+-------------+------------------
+ t         | t_pkey      | regress_tblspace
+ tp_0_2    | tp_0_2_pkey | regress_tblspace
+(2 rows)
+
+DROP TABLE t;
+-- Check the new partition inherits parent's table access method
+SET search_path = partitions_merge_schema, public;
+CREATE ACCESS METHOD partitions_merge_heap TYPE TABLE HANDLER heap_tableam_handler;
+CREATE TABLE t (i int) PARTITION BY RANGE (i) USING partitions_merge_heap;
+CREATE TABLE tp_0_1 PARTITION OF t FOR VALUES FROM (0) TO (1);
+CREATE TABLE tp_1_2 PARTITION OF t FOR VALUES FROM (1) TO (2);
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO tp_0_2;
+SELECT c.relname, a.amname
+FROM pg_class c JOIN pg_am a ON c.relam = a.oid
+WHERE c.oid IN ('t'::regclass, 'tp_0_2'::regclass)
+ORDER BY c.relname;
+ relname |        amname         
+---------+-----------------------
+ t       | partitions_merge_heap
+ tp_0_2  | partitions_merge_heap
+(2 rows)
+
+DROP TABLE t;
+DROP ACCESS METHOD partitions_merge_heap;
+-- Test permission checks.  The user needs to own the parent table and all
+-- the merging partitions to do the merge.
+CREATE ROLE regress_partition_merge_alice;
+CREATE ROLE regress_partition_merge_bob;
+GRANT ALL ON SCHEMA partitions_merge_schema TO regress_partition_merge_alice;
+GRANT ALL ON SCHEMA partitions_merge_schema TO regress_partition_merge_bob;
+SET SESSION AUTHORIZATION regress_partition_merge_alice;
+CREATE TABLE t (i int) PARTITION BY RANGE (i);
+CREATE TABLE tp_0_1 PARTITION OF t FOR VALUES FROM (0) TO (1);
+CREATE TABLE tp_1_2 PARTITION OF t FOR VALUES FROM (1) TO (2);
+SET SESSION AUTHORIZATION regress_partition_merge_bob;
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO tp_0_2;
+ERROR:  must be owner of table t
+RESET SESSION AUTHORIZATION;
+ALTER TABLE t OWNER TO regress_partition_merge_bob;
+SET SESSION AUTHORIZATION regress_partition_merge_bob;
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO tp_0_2;
+ERROR:  must be owner of table tp_0_1
+RESET SESSION AUTHORIZATION;
+ALTER TABLE tp_0_1 OWNER TO regress_partition_merge_bob;
+SET SESSION AUTHORIZATION regress_partition_merge_bob;
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO tp_0_2;
+ERROR:  must be owner of table tp_1_2
+RESET SESSION AUTHORIZATION;
+ALTER TABLE tp_1_2 OWNER TO regress_partition_merge_bob;
+SET SESSION AUTHORIZATION regress_partition_merge_bob;
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO tp_0_2;
+RESET SESSION AUTHORIZATION;
+DROP TABLE t;
+REVOKE ALL ON SCHEMA partitions_merge_schema FROM regress_partition_merge_alice;
+REVOKE ALL ON SCHEMA partitions_merge_schema FROM regress_partition_merge_bob;
+DROP ROLE regress_partition_merge_alice;
+DROP ROLE regress_partition_merge_bob;
+-- Test: we can't merge partitions with different owners
+CREATE ROLE regress_partitions_merge_alice;
+CREATE ROLE regress_partitions_merge_bob;
+GRANT ALL ON SCHEMA partitions_merge_schema TO regress_partitions_merge_alice;
+GRANT ALL ON SCHEMA partitions_merge_schema TO regress_partitions_merge_bob;
+SET SESSION AUTHORIZATION regress_partitions_merge_alice;
+CREATE TABLE tp_0_1(i int);
+RESET SESSION AUTHORIZATION;
+SET SESSION AUTHORIZATION regress_partitions_merge_bob;
+CREATE TABLE tp_1_2(i int);
+RESET SESSION AUTHORIZATION;
+CREATE TABLE t (i int) PARTITION BY RANGE (i);
+ALTER TABLE t ATTACH PARTITION tp_0_1 FOR VALUES FROM (0) TO (1);
+ALTER TABLE t ATTACH PARTITION tp_1_2 FOR VALUES FROM (1) TO (2);
+-- Owner is 'regress_partitions_merge_alice':
+\dt tp_0_1
+                              List of tables
+         Schema          |  Name  | Type  |             Owner              
+-------------------------+--------+-------+--------------------------------
+ partitions_merge_schema | tp_0_1 | table | regress_partitions_merge_alice
+(1 row)
+
+-- Owner is 'regress_partitions_merge_bob':
+\dt tp_1_2
+                             List of tables
+         Schema          |  Name  | Type  |            Owner             
+-------------------------+--------+-------+------------------------------
+ partitions_merge_schema | tp_1_2 | table | regress_partitions_merge_bob
+(1 row)
+
+-- ERROR:  partitions being merged have different owners
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO tp_0_2;
+ERROR:  partitions being merged have different owners
+DROP TABLE t;
+REVOKE ALL ON SCHEMA partitions_merge_schema FROM regress_partitions_merge_alice;
+REVOKE ALL ON SCHEMA partitions_merge_schema FROM regress_partitions_merge_bob;
+DROP ROLE regress_partitions_merge_alice;
+DROP ROLE regress_partitions_merge_bob;
+-- Test for hash partitioned table
+CREATE TABLE t (i int) PARTITION BY HASH(i);
+CREATE TABLE tp1 PARTITION OF t FOR VALUES WITH (MODULUS 2, REMAINDER 0);
+CREATE TABLE tp2 PARTITION OF t FOR VALUES WITH (MODULUS 2, REMAINDER 1);
+-- ERROR:  partition of hash-partitioned table cannot be merged
+ALTER TABLE t MERGE PARTITIONS (tp1, tp2) INTO tp3;
+ERROR:  partition of hash-partitioned table cannot be merged
+-- ERROR:  list of new partitions should contain at least two items
+ALTER TABLE t MERGE PARTITIONS (tp1) INTO tp3;
+ERROR:  list of new partitions should contain at least two items
+DROP TABLE t;
+-- Test for merged partition properties:
+-- * STATISTICS is empty
+-- * COMMENT is empty
+-- * DEFAULTS are the same as DEFAULTS for partitioned table
+-- * STORAGE is the same as STORAGE for partitioned table
+-- * GENERATED and CONSTRAINTS are the same as GENERATED and CONSTRAINTS for partitioned table
+-- * TRIGGERS are the same as TRIGGERS for partitioned table
+CREATE TABLE t
+(i int NOT NULL,
+ t text STORAGE EXTENDED COMPRESSION pglz DEFAULT 'default_t',
+ b bigint,
+ d date GENERATED ALWAYS as ('2022-01-01') STORED) PARTITION BY RANGE (abs(i));
+COMMENT ON COLUMN t.i IS 't1.i';
+CREATE TABLE tp_0_1
+(i int NOT NULL,
+ t text STORAGE MAIN DEFAULT 'default_tp_0_1',
+ b bigint,
+ d date GENERATED ALWAYS as ('2022-02-02') STORED);
+ALTER TABLE t ATTACH PARTITION tp_0_1 FOR VALUES FROM (0) TO (1);
+COMMENT ON COLUMN tp_0_1.i IS 'tp_0_1.i';
+CREATE TABLE tp_1_2
+(i int NOT NULL,
+ t text STORAGE MAIN DEFAULT 'default_tp_1_2',
+ b bigint,
+ d date GENERATED ALWAYS as ('2022-03-03') STORED);
+ALTER TABLE t ATTACH PARTITION tp_1_2 FOR VALUES FROM (1) TO (2);
+COMMENT ON COLUMN tp_1_2.i IS 'tp_1_2.i';
+CREATE STATISTICS t_stat (DEPENDENCIES) on i, b from t;
+CREATE STATISTICS tp_0_1_stat (DEPENDENCIES) on i, b from tp_0_1;
+CREATE STATISTICS tp_1_2_stat (DEPENDENCIES) on i, b from tp_1_2;
+ALTER TABLE t ADD CONSTRAINT t_b_check CHECK (b > 0);
+ALTER TABLE t ADD CONSTRAINT t_b_check1 CHECK (b > 0) NOT ENFORCED;
+ALTER TABLE t ADD CONSTRAINT t_b_check2 CHECK (b > 0) NOT VALID;
+ALTER TABLE t ADD CONSTRAINT t_b_nn NOT NULL b NOT VALID;
+INSERT INTO tp_0_1(i, t, b) VALUES(0, DEFAULT, 1);
+INSERT INTO tp_1_2(i, t, b) VALUES(1, DEFAULT, 2);
+CREATE OR REPLACE FUNCTION trigger_function() RETURNS trigger LANGUAGE 'plpgsql' AS
+$BODY$
+BEGIN
+  RAISE NOTICE 'trigger(%) called: action = %, when = %, level = %', TG_ARGV[0], TG_OP, TG_WHEN, TG_LEVEL;
+  RETURN new;
+END;
+$BODY$;
+CREATE TRIGGER t_before_insert_row_trigger BEFORE INSERT ON t FOR EACH ROW
+  EXECUTE PROCEDURE trigger_function('t');
+CREATE TRIGGER tp_0_1_before_insert_row_trigger BEFORE INSERT ON tp_0_1 FOR EACH ROW
+  EXECUTE PROCEDURE trigger_function('tp_0_1');
+CREATE TRIGGER tp_1_2_before_insert_row_trigger BEFORE INSERT ON tp_1_2 FOR EACH ROW
+  EXECUTE PROCEDURE trigger_function('tp_1_2');
+\d+ tp_0_1
+                                              Table "partitions_merge_schema.tp_0_1"
+ Column |  Type   | Collation | Nullable |                     Default                     | Storage | Stats target | Description 
+--------+---------+-----------+----------+-------------------------------------------------+---------+--------------+-------------
+ i      | integer |           | not null |                                                 | plain   |              | tp_0_1.i
+ t      | text    |           |          | 'default_tp_0_1'::text                          | main    |              | 
+ b      | bigint  |           | not null |                                                 | plain   |              | 
+ d      | date    |           |          | generated always as ('02-02-2022'::date) stored | plain   |              | 
+Partition of: t FOR VALUES FROM (0) TO (1)
+Partition constraint: ((abs(i) IS NOT NULL) AND (abs(i) >= 0) AND (abs(i) < 1))
+Check constraints:
+    "t_b_check" CHECK (b > 0)
+    "t_b_check1" CHECK (b > 0) NOT ENFORCED
+    "t_b_check2" CHECK (b > 0) NOT VALID
+Statistics objects:
+    "partitions_merge_schema.tp_0_1_stat" (dependencies) ON i, b FROM tp_0_1
+Not-null constraints:
+    "tp_0_1_i_not_null" NOT NULL "i" (inherited)
+    "t_b_nn" NOT NULL "b" (inherited) NOT VALID
+Triggers:
+    t_before_insert_row_trigger BEFORE INSERT ON tp_0_1 FOR EACH ROW EXECUTE FUNCTION trigger_function('t'), ON TABLE t
+    tp_0_1_before_insert_row_trigger BEFORE INSERT ON tp_0_1 FOR EACH ROW EXECUTE FUNCTION trigger_function('tp_0_1')
+
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO tp_0_1;
+\d+ tp_0_1
+                                              Table "partitions_merge_schema.tp_0_1"
+ Column |  Type   | Collation | Nullable |                     Default                     | Storage  | Stats target | Description 
+--------+---------+-----------+----------+-------------------------------------------------+----------+--------------+-------------
+ i      | integer |           | not null |                                                 | plain    |              | 
+ t      | text    |           |          | 'default_t'::text                               | extended |              | 
+ b      | bigint  |           | not null |                                                 | plain    |              | 
+ d      | date    |           |          | generated always as ('01-01-2022'::date) stored | plain    |              | 
+Partition of: t FOR VALUES FROM (0) TO (2)
+Partition constraint: ((abs(i) IS NOT NULL) AND (abs(i) >= 0) AND (abs(i) < 2))
+Check constraints:
+    "t_b_check" CHECK (b > 0)
+    "t_b_check1" CHECK (b > 0) NOT ENFORCED
+    "t_b_check2" CHECK (b > 0) NOT VALID
+Not-null constraints:
+    "t_i_not_null" NOT NULL "i" (inherited)
+    "t_b_nn" NOT NULL "b" (inherited) NOT VALID
+Triggers:
+    t_before_insert_row_trigger BEFORE INSERT ON tp_0_1 FOR EACH ROW EXECUTE FUNCTION trigger_function('t'), ON TABLE t
+
+INSERT INTO t(i, t, b) VALUES(1, DEFAULT, 3);
+NOTICE:  trigger(t) called: action = INSERT, when = BEFORE, level = ROW
+SELECT tableoid::regclass, * FROM t ORDER BY b;
+ tableoid | i |       t        | b |     d      
+----------+---+----------------+---+------------
+ tp_0_1   | 0 | default_tp_0_1 | 1 | 01-01-2022
+ tp_0_1   | 1 | default_tp_1_2 | 2 | 01-01-2022
+ tp_0_1   | 1 | default_t      | 3 | 01-01-2022
+(3 rows)
+
+DROP TABLE t;
+DROP FUNCTION trigger_function();
+-- Test MERGE PARTITIONS with not valid foreign key constraint
+CREATE TABLE t (i INT PRIMARY KEY) PARTITION BY RANGE (i);
+CREATE TABLE tp_0_1 PARTITION OF t FOR VALUES FROM (0) TO (1);
+CREATE TABLE tp_1_2 PARTITION OF t FOR VALUES FROM (1) TO (2);
+INSERT INTO t VALUES (0), (1);
+CREATE TABLE t_fk (i INT);
+INSERT INTO t_fk VALUES (1), (2);
+ALTER TABLE t_fk ADD CONSTRAINT t_fk_i_fkey FOREIGN KEY (i) REFERENCES t NOT VALID;
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO tp_0_2;
+-- Should be NOT VALID FOREIGN KEY
+\d tp_0_2
+      Table "partitions_merge_schema.tp_0_2"
+ Column |  Type   | Collation | Nullable | Default 
+--------+---------+-----------+----------+---------
+ i      | integer |           | not null | 
+Partition of: t FOR VALUES FROM (0) TO (2)
+Indexes:
+    "tp_0_2_pkey" PRIMARY KEY, btree (i)
+Referenced by:
+    TABLE "t_fk" CONSTRAINT "t_fk_i_fkey" FOREIGN KEY (i) REFERENCES t(i) NOT VALID
+
+-- ERROR:  insert or update on table "t_fk" violates foreign key constraint "t_fk_i_fkey"
+ALTER TABLE t_fk VALIDATE CONSTRAINT t_fk_i_fkey;
+ERROR:  insert or update on table "t_fk" violates foreign key constraint "t_fk_i_fkey"
+DETAIL:  Key (i)=(2) is not present in table "t".
+DROP TABLE t_fk;
+DROP TABLE t;
+-- Test MERGE PARTITIONS with not enforced foreign key constraint
+CREATE TABLE t (i INT PRIMARY KEY) PARTITION BY RANGE (i);
+CREATE TABLE tp_0_1 PARTITION OF t FOR VALUES FROM (0) TO (1);
+CREATE TABLE tp_1_2 PARTITION OF t FOR VALUES FROM (1) TO (2);
+INSERT INTO t VALUES (0), (1);
+CREATE TABLE t_fk (i INT);
+INSERT INTO t_fk VALUES (1), (2);
+ALTER TABLE t_fk ADD CONSTRAINT t_fk_i_fkey FOREIGN KEY (i) REFERENCES t NOT ENFORCED;
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO tp_0_2;
+-- Should be NOT ENFORCED FOREIGN KEY
+\d tp_0_2
+      Table "partitions_merge_schema.tp_0_2"
+ Column |  Type   | Collation | Nullable | Default 
+--------+---------+-----------+----------+---------
+ i      | integer |           | not null | 
+Partition of: t FOR VALUES FROM (0) TO (2)
+Indexes:
+    "tp_0_2_pkey" PRIMARY KEY, btree (i)
+Referenced by:
+    TABLE "t_fk" CONSTRAINT "t_fk_i_fkey" FOREIGN KEY (i) REFERENCES t(i) NOT ENFORCED
+
+-- ERROR:  insert or update on table "t_fk" violates foreign key constraint "t_fk_i_fkey"
+ALTER TABLE t_fk ALTER CONSTRAINT t_fk_i_fkey ENFORCED;
+ERROR:  insert or update on table "t_fk" violates foreign key constraint "t_fk_i_fkey"
+DETAIL:  Key (i)=(2) is not present in table "t".
+DROP TABLE t_fk;
+DROP TABLE t;
+-- Test for recomputation of stored generated columns.
+CREATE TABLE t (i int, tab_id int generated always as (tableoid) stored) PARTITION BY RANGE (i);
+CREATE TABLE tp_0_1 PARTITION OF t FOR VALUES FROM (0) TO (1);
+CREATE TABLE tp_1_2 PARTITION OF t FOR VALUES FROM (1) TO (2);
+ALTER TABLE t ADD CONSTRAINT cc CHECK(tableoid <> 123456789);
+INSERT INTO t VALUES (0), (1);
+-- Should be 0 because partition identifier for row with i=0 is different from
+-- partition identifier for row with i=1.
+SELECT count(*) FROM t WHERE i = 0 AND tab_id IN (SELECT tab_id FROM t WHERE i = 1);
+ count 
+-------
+     0
+(1 row)
+
+-- "tab_id" column (stored generated column) with "tableoid" attribute requires
+-- recomputation here.
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO tp_0_2;
+-- Should be 1 because partition identifier for row with i=0 is the same as
+-- partition identifier for row with i=1.
+SELECT count(*) FROM t WHERE i = 0 AND tab_id IN (SELECT tab_id FROM t WHERE i = 1);
+ count 
+-------
+     1
+(1 row)
+
+DROP TABLE t;
+-- Test for generated columns (different order of columns in partitioned table
+-- and partitions).
+CREATE TABLE t (i int, g int GENERATED ALWAYS AS (i + tableoid::int)) PARTITION BY RANGE (i);
+CREATE TABLE tp_1 (g int GENERATED ALWAYS AS (i + tableoid::int), i int);
+CREATE TABLE tp_2 (g int GENERATED ALWAYS AS (i + tableoid::int), i int);
+ALTER TABLE t ATTACH PARTITION tp_1 FOR VALUES FROM (-1) TO (10);
+ALTER TABLE t ATTACH PARTITION tp_2 FOR VALUES FROM (10) TO (20);
+ALTER TABLE t ADD CHECK (g > 0);
+ALTER TABLE t ADD CHECK (i > 0);
+INSERT INTO t VALUES (5), (15);
+ALTER TABLE t MERGE PARTITIONS (tp_1, tp_2) INTO tp_12;
+INSERT INTO t VALUES (16);
+-- ERROR:  new row for relation "tp_12" violates check constraint "t_i_check"
+INSERT INTO t VALUES (0);
+ERROR:  new row for relation "tp_12" violates check constraint "t_i_check"
+DETAIL:  Failing row contains (0, virtual).
+-- Should be 3 rows: (5), (15), (16):
+SELECT i FROM t ORDER BY i;
+ i  
+----
+  5
+ 15
+ 16
+(3 rows)
+
+-- Should be 1 because for the same tableoid (15 + tableoid) = (5 + tableoid) + 10:
+SELECT count(*) FROM t WHERE i = 15 AND g IN (SELECT g + 10 FROM t WHERE i = 5);
+ count 
+-------
+     1
+(1 row)
+
+DROP TABLE t;
+RESET search_path;
+--
+DROP SCHEMA partitions_merge_schema;
+DROP SCHEMA partitions_merge_schema2;
diff --git a/src/test/regress/parallel_schedule b/src/test/regress/parallel_schedule
index a424be2a6b..6464a238ac 100644
--- a/src/test/regress/parallel_schedule
+++ b/src/test/regress/parallel_schedule
@@ -123,7 +123,7 @@ test: plancache limit plpgsql copy2 temp domain rangefuncs prepare conversion tr
 # The stats test resets stats, so nothing else needing stats access can be in
 # this group.
 # ----------
-test: partition_join partition_prune reloptions hash_part indexing partition_aggregate partition_info tuplesort explain compression memoize stats predicate numa
+test: partition_merge partition_join partition_prune reloptions hash_part indexing partition_aggregate partition_info tuplesort explain compression memoize stats predicate numa
 
 # event_trigger depends on create_am and cannot run concurrently with
 # any test that runs DDL
diff --git a/src/test/regress/sql/partition_merge.sql b/src/test/regress/sql/partition_merge.sql
new file mode 100644
index 0000000000..bf8acc5136
--- /dev/null
+++ b/src/test/regress/sql/partition_merge.sql
@@ -0,0 +1,796 @@
+--
+-- PARTITIONS_MERGE
+-- Tests for "ALTER TABLE ... MERGE PARTITIONS ..." command
+--
+
+CREATE SCHEMA partitions_merge_schema;
+CREATE SCHEMA partitions_merge_schema2;
+SET search_path = partitions_merge_schema, public;
+
+--
+-- BY RANGE partitioning
+--
+
+--
+-- Test for error codes
+--
+CREATE TABLE sales_range (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date DATE) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_dec2021 PARTITION OF sales_range FOR VALUES FROM ('2021-12-01') TO ('2021-12-31');
+CREATE TABLE sales_jan2022 PARTITION OF sales_range FOR VALUES FROM ('2022-01-01') TO ('2022-02-01');
+CREATE TABLE sales_feb2022 PARTITION OF sales_range FOR VALUES FROM ('2022-02-01') TO ('2022-03-01');
+CREATE TABLE sales_mar2022 PARTITION OF sales_range FOR VALUES FROM ('2022-03-01') TO ('2022-04-01');
+
+CREATE TABLE sales_apr2022 (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date DATE) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_apr_1 PARTITION OF sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-04-15');
+CREATE TABLE sales_apr_2 PARTITION OF sales_apr2022 FOR VALUES FROM ('2022-04-15') TO ('2022-05-01');
+ALTER TABLE sales_range ATTACH PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01');
+
+CREATE TABLE sales_others PARTITION OF sales_range DEFAULT;
+
+-- ERROR:  partition with name "sales_feb2022" is already used
+ALTER TABLE sales_range MERGE PARTITIONS (sales_feb2022, sales_mar2022, sales_feb2022) INTO sales_feb_mar_apr2022;
+-- ERROR:  "sales_apr2022" is not a table
+ALTER TABLE sales_range MERGE PARTITIONS (sales_feb2022, sales_mar2022, sales_apr2022) INTO sales_feb_mar_apr2022;
+-- ERROR:  lower bound of partition "sales_mar2022" is not equal to the upper bound of partition "sales_jan2022"
+-- (space between sections sales_jan2022 and sales_mar2022)
+ALTER TABLE sales_range MERGE PARTITIONS (sales_jan2022, sales_mar2022) INTO sales_jan_mar2022;
+-- ERROR:  lower bound of partition "sales_jan2022" is not equal to the upper bound of partition "sales_dec2021"
+-- (space between sections sales_dec2021 and sales_jan2022)
+ALTER TABLE sales_range MERGE PARTITIONS (sales_dec2021, sales_jan2022, sales_feb2022) INTO sales_dec_jan_feb2022;
+-- ERROR:  partition with name "sales_feb2022" is already used
+ALTER TABLE sales_range MERGE PARTITIONS (sales_feb2022, sales_mar2022, partitions_merge_schema.sales_feb2022) INTO sales_feb_mar_apr2022;
+--ERROR, sales_apr_2 already exists
+ALTER TABLE sales_range MERGE PARTITIONS (sales_feb2022, sales_mar2022, sales_jan2022) INTO sales_apr_2;
+
+CREATE VIEW jan2022v as SELECT * FROM sales_jan2022;
+ALTER TABLE sales_range MERGE PARTITIONS (sales_jan2022, sales_feb2022) INTO sales_dec_jan_feb2022;
+DROP VIEW jan2022v;
+
+-- NO ERROR: test for custom partitions order, source partitions not in the search_path
+SET search_path = partitions_merge_schema2, public;
+ALTER TABLE partitions_merge_schema.sales_range MERGE PARTITIONS (
+  partitions_merge_schema.sales_feb2022,
+  partitions_merge_schema.sales_mar2022,
+  partitions_merge_schema.sales_jan2022) INTO sales_jan_feb_mar2022;
+SET search_path = partitions_merge_schema, public;
+
+PREPARE get_partition_info(regclass[]) AS
+SELECT  c.oid::pg_catalog.regclass,
+        c.relpersistence,
+        c.relkind,
+        i.inhdetachpending,
+        pg_catalog.pg_get_expr(c.relpartbound, c.oid)
+FROM    pg_catalog.pg_class c, pg_catalog.pg_inherits i
+WHERE   c.oid = i.inhrelid AND i.inhparent = ANY($1)
+ORDER BY pg_catalog.pg_get_expr(c.relpartbound, c.oid) = 'DEFAULT',
+         c.oid::regclass::text COLLATE "C";
+
+EXECUTE get_partition_info('{sales_range}');
+
+DROP TABLE sales_range;
+
+--
+-- Add rows into partitioned table, then merge partitions
+--
+CREATE TABLE sales_range (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date DATE) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_jan2022 PARTITION OF sales_range FOR VALUES FROM ('2022-01-01') TO ('2022-02-01');
+CREATE TABLE sales_feb2022 PARTITION OF sales_range FOR VALUES FROM ('2022-02-01') TO ('2022-03-01');
+CREATE TABLE sales_mar2022 PARTITION OF sales_range FOR VALUES FROM ('2022-03-01') TO ('2022-04-01');
+CREATE TABLE sales_apr2022 PARTITION OF sales_range FOR VALUES FROM ('2022-04-01') TO ('2022-05-01');
+CREATE TABLE sales_others PARTITION OF sales_range DEFAULT;
+CREATE INDEX sales_range_sales_date_idx ON sales_range USING btree (sales_date);
+
+INSERT INTO sales_range VALUES
+  (1,  'May',      1000, '2022-01-31'),
+  (2,  'Smirnoff', 500,  '2022-02-10'),
+  (3,  'Ford',     2000, '2022-04-30'),
+  (4,  'Ivanov',   750,  '2022-04-13'),
+  (5,  'Deev',     250,  '2022-04-07'),
+  (6,  'Poirot',   150,  '2022-02-11'),
+  (7,  'Li',       175,  '2022-03-08'),
+  (8,  'Ericsson', 185,  '2022-02-23'),
+  (9,  'Muller',   250,  '2022-03-11'),
+  (10, 'Halder',   350,  '2022-01-28'),
+  (11, 'Trump',    380,  '2022-04-06'),
+  (12, 'Plato',    350,  '2022-03-19'),
+  (13, 'Gandi',    377,  '2022-01-09'),
+  (14, 'Smith',    510,  '2022-05-04');
+
+SELECT pg_catalog.pg_get_partkeydef('sales_range'::regclass);
+
+-- show partitions with conditions:
+EXECUTE get_partition_info('{sales_range}');
+
+-- check schema-qualified name of the new partition
+ALTER TABLE sales_range MERGE PARTITIONS (sales_feb2022, sales_mar2022, sales_apr2022) INTO partitions_merge_schema2.sales_feb_mar_apr2022;
+
+-- show partitions with conditions:
+EXECUTE get_partition_info('{sales_range}');
+
+SELECT * FROM pg_indexes WHERE tablename = 'sales_feb_mar_apr2022' and schemaname = 'partitions_merge_schema2';
+
+SELECT tableoid::regclass, * FROM sales_range ORDER BY tableoid, salesperson_id;
+
+-- Use indexscan for testing indexes
+SET enable_seqscan = OFF;
+
+SELECT * FROM partitions_merge_schema2.sales_feb_mar_apr2022 where sales_date > '2022-01-01';
+
+RESET enable_seqscan;
+
+DROP TABLE sales_range;
+
+--
+-- Merge some partitions into DEFAULT partition
+--
+CREATE TABLE sales_range (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date DATE) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_jan2022 PARTITION OF sales_range FOR VALUES FROM ('2022-01-01') TO ('2022-02-01');
+CREATE TABLE sales_feb2022 PARTITION OF sales_range FOR VALUES FROM ('2022-02-01') TO ('2022-03-01');
+CREATE TABLE sales_mar2022 PARTITION OF sales_range FOR VALUES FROM ('2022-03-01') TO ('2022-04-01');
+CREATE TABLE sales_apr2022 PARTITION OF sales_range FOR VALUES FROM ('2022-04-01') TO ('2022-05-01');
+CREATE TABLE sales_others PARTITION OF sales_range DEFAULT;
+CREATE INDEX sales_range_sales_date_idx ON sales_range USING btree (sales_date);
+
+INSERT INTO sales_range VALUES
+  (1,  'May',      1000, '2022-01-31'),
+  (2,  'Smirnoff', 500,  '2022-02-10'),
+  (3,  'Ford',     2000, '2022-04-30'),
+  (4,  'Ivanov',   750,  '2022-04-13'),
+  (5,  'Deev',     250,  '2022-04-07'),
+  (6,  'Poirot',   150,  '2022-02-11'),
+  (7,  'Li',       175,  '2022-03-08'),
+  (8,  'Ericsson', 185,  '2022-02-23'),
+  (9,  'Muller',   250,  '2022-03-11'),
+  (10, 'Halder',   350,  '2022-01-28'),
+  (11, 'Trump',    380,  '2022-04-06'),
+  (12, 'Plato',    350,  '2022-03-19'),
+  (13, 'Gandi',    377,  '2022-01-09'),
+  (14, 'Smith',    510,  '2022-05-04');
+
+-- Merge partitions (include DEFAULT partition) into partition with the same
+-- name
+ALTER TABLE sales_range MERGE PARTITIONS
+  (sales_jan2022, sales_mar2022, partitions_merge_schema.sales_others) INTO sales_others;
+
+SELECT * FROM sales_others ORDER BY salesperson_id;
+
+-- show partitions with conditions:
+EXECUTE get_partition_info('{sales_range}');
+
+DROP TABLE sales_range;
+
+--
+-- Test for:
+--   * composite partition key;
+--   * GENERATED column;
+--   * column with DEFAULT value.
+--
+CREATE TABLE sales_date (salesperson_name VARCHAR(30), sales_year INT, sales_month INT, sales_day INT,
+  sales_date VARCHAR(10) GENERATED ALWAYS AS
+    (LPAD(sales_year::text, 4, '0') || '.' || LPAD(sales_month::text, 2, '0') || '.' || LPAD(sales_day::text, 2, '0')) STORED,
+  sales_department VARCHAR(30) DEFAULT 'Sales department')
+  PARTITION BY RANGE (sales_year, sales_month, sales_day);
+
+CREATE TABLE sales_dec2022 PARTITION OF sales_date FOR VALUES FROM (2021, 12, 1) TO (2022, 1, 1);
+CREATE TABLE sales_jan2022 PARTITION OF sales_date FOR VALUES FROM (2022, 1, 1) TO (2022, 2, 1);
+CREATE TABLE sales_feb2022 PARTITION OF sales_date FOR VALUES FROM (2022, 2, 1) TO (2022, 3, 1);
+CREATE TABLE sales_other PARTITION OF sales_date FOR VALUES FROM (2022, 3, 1) TO (MAXVALUE, MAXVALUE, MAXVALUE);
+
+INSERT INTO sales_date(salesperson_name, sales_year, sales_month, sales_day) VALUES
+  ('Manager1', 2021, 12, 7),
+  ('Manager2', 2021, 12, 8),
+  ('Manager3', 2022, 1, 1),
+  ('Manager1', 2022, 2, 4),
+  ('Manager2', 2022, 1, 2),
+  ('Manager3', 2022, 2, 1),
+  ('Manager1', 2022, 3, 3),
+  ('Manager2', 2022, 3, 4),
+  ('Manager3', 2022, 5, 1);
+
+SELECT * FROM sales_date;
+SELECT * FROM sales_dec2022;
+SELECT * FROM sales_jan2022;
+SELECT * FROM sales_feb2022;
+SELECT * FROM sales_other;
+
+ALTER TABLE sales_date MERGE PARTITIONS (sales_jan2022, sales_feb2022) INTO sales_jan_feb2022;
+
+INSERT INTO sales_date(salesperson_name, sales_year, sales_month, sales_day) VALUES
+  ('Manager1', 2022, 1, 10),
+  ('Manager2', 2022, 2, 10);
+
+SELECT * FROM sales_date;
+SELECT * FROM sales_dec2022;
+SELECT * FROM sales_jan_feb2022;
+SELECT * FROM sales_other;
+
+DROP TABLE sales_date;
+
+--
+-- Test: merge partitions of partitioned table with triggers
+--
+CREATE TABLE salespeople(salesperson_id INT PRIMARY KEY, salesperson_name VARCHAR(30)) PARTITION BY RANGE (salesperson_id);
+
+CREATE TABLE salespeople01_10 PARTITION OF salespeople FOR VALUES FROM (1) TO (10);
+CREATE TABLE salespeople10_20 PARTITION OF salespeople FOR VALUES FROM (10) TO (20);
+CREATE TABLE salespeople20_30 PARTITION OF salespeople FOR VALUES FROM (20) TO (30);
+CREATE TABLE salespeople30_40 PARTITION OF salespeople FOR VALUES FROM (30) TO (40);
+
+INSERT INTO salespeople VALUES (1,  'Poirot');
+
+CREATE OR REPLACE FUNCTION after_insert_row_trigger() RETURNS trigger LANGUAGE 'plpgsql' AS $BODY$
+BEGIN
+    RAISE NOTICE 'trigger(%) called: action = %, when = %, level = %', TG_ARGV[0], TG_OP, TG_WHEN, TG_LEVEL;
+    RETURN NULL;
+END;
+$BODY$;
+
+CREATE TRIGGER salespeople_after_insert_statement_trigger
+    AFTER INSERT
+    ON salespeople
+    FOR EACH STATEMENT
+    EXECUTE PROCEDURE after_insert_row_trigger('salespeople');
+
+CREATE TRIGGER salespeople_after_insert_row_trigger
+    AFTER INSERT
+    ON salespeople
+    FOR EACH ROW
+    EXECUTE PROCEDURE after_insert_row_trigger('salespeople');
+
+-- 2 triggers should fire here (row + statement):
+INSERT INTO salespeople VALUES (10, 'May');
+-- 1 trigger should fire here (row):
+INSERT INTO salespeople10_20 VALUES (19, 'Ivanov');
+
+ALTER TABLE salespeople MERGE PARTITIONS (salespeople10_20, salespeople20_30, salespeople30_40) INTO salespeople10_40;
+
+-- 2 triggers should fire here (row + statement):
+INSERT INTO salespeople VALUES (20, 'Smirnoff');
+-- 1 trigger should fire here (row):
+INSERT INTO salespeople10_40 VALUES (30, 'Ford');
+
+SELECT * FROM salespeople01_10;
+SELECT * FROM salespeople10_40;
+
+DROP TABLE salespeople;
+DROP FUNCTION after_insert_row_trigger();
+
+--
+-- Test: merge partitions with deleted columns
+--
+CREATE TABLE salespeople(salesperson_id INT PRIMARY KEY, salesperson_name VARCHAR(30)) PARTITION BY RANGE (salesperson_id);
+
+CREATE TABLE salespeople01_10 PARTITION OF salespeople FOR VALUES FROM (1) TO (10);
+-- Create partitions with some deleted columns:
+CREATE TABLE salespeople10_20(d1 VARCHAR(30), salesperson_id INT PRIMARY KEY, salesperson_name VARCHAR(30));
+CREATE TABLE salespeople20_30(salesperson_id INT PRIMARY KEY, d2 INT,  salesperson_name VARCHAR(30));
+CREATE TABLE salespeople30_40(salesperson_id INT PRIMARY KEY, d3 DATE, salesperson_name VARCHAR(30));
+
+INSERT INTO salespeople10_20 VALUES ('dummy value 1', 19, 'Ivanov');
+INSERT INTO salespeople20_30 VALUES (20, 101, 'Smirnoff');
+INSERT INTO salespeople30_40 VALUES (31, now(), 'Popov');
+
+ALTER TABLE salespeople10_20 DROP COLUMN d1;
+ALTER TABLE salespeople20_30 DROP COLUMN d2;
+ALTER TABLE salespeople30_40 DROP COLUMN d3;
+
+ALTER TABLE salespeople ATTACH PARTITION salespeople10_20 FOR VALUES FROM (10) TO (20);
+ALTER TABLE salespeople ATTACH PARTITION salespeople20_30 FOR VALUES FROM (20) TO (30);
+ALTER TABLE salespeople ATTACH PARTITION salespeople30_40 FOR VALUES FROM (30) TO (40);
+
+INSERT INTO salespeople VALUES
+  (1, 'Poirot'),
+  (10, 'May'),
+  (30, 'Ford');
+
+ALTER TABLE salespeople MERGE PARTITIONS (salespeople10_20, salespeople20_30, salespeople30_40) INTO salespeople10_40;
+
+select * from salespeople;
+select * from salespeople01_10;
+select * from salespeople10_40;
+
+DROP TABLE salespeople;
+
+--
+-- Test: merge sub-partitions
+--
+CREATE TABLE sales_range (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date DATE) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_jan2022 PARTITION OF sales_range FOR VALUES FROM ('2022-01-01') TO ('2022-02-01');
+CREATE TABLE sales_feb2022 PARTITION OF sales_range FOR VALUES FROM ('2022-02-01') TO ('2022-03-01');
+CREATE TABLE sales_mar2022 PARTITION OF sales_range FOR VALUES FROM ('2022-03-01') TO ('2022-04-01');
+
+CREATE TABLE sales_apr2022 (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date DATE) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_apr2022_01_10 PARTITION OF sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-04-10');
+CREATE TABLE sales_apr2022_10_20 PARTITION OF sales_apr2022 FOR VALUES FROM ('2022-04-10') TO ('2022-04-20');
+CREATE TABLE sales_apr2022_20_30 PARTITION OF sales_apr2022 FOR VALUES FROM ('2022-04-20') TO ('2022-05-01');
+ALTER TABLE sales_range ATTACH PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01');
+
+CREATE TABLE sales_others PARTITION OF sales_range DEFAULT;
+
+CREATE INDEX sales_range_sales_date_idx ON sales_range USING btree (sales_date);
+
+INSERT INTO sales_range VALUES
+  (1,  'May',      1000, '2022-01-31'),
+  (2,  'Smirnoff', 500,  '2022-02-10'),
+  (3,  'Ford',     2000, '2022-04-30'),
+  (4,  'Ivanov',   750,  '2022-04-13'),
+  (5,  'Deev',     250,  '2022-04-07'),
+  (6,  'Poirot',   150,  '2022-02-11'),
+  (7,  'Li',       175,  '2022-03-08'),
+  (8,  'Ericsson', 185,  '2022-02-23'),
+  (9,  'Muller',   250,  '2022-03-11'),
+  (10, 'Halder',   350,  '2022-01-28'),
+  (11, 'Trump',    380,  '2022-04-06'),
+  (12, 'Plato',    350,  '2022-03-19'),
+  (13, 'Gandi',    377,  '2022-01-09'),
+  (14, 'Smith',    510,  '2022-05-04');
+
+SELECT tableoid::regclass, * FROM sales_apr2022 ORDER BY tableoid, salesperson_id;
+
+ALTER TABLE sales_apr2022 MERGE PARTITIONS (sales_apr2022_01_10, sales_apr2022_10_20, sales_apr2022_20_30) INTO sales_apr_all;
+
+SELECT tableoid::regclass, * FROM sales_apr2022 ORDER BY tableoid, salesperson_id;
+
+DROP TABLE sales_range;
+
+--
+-- BY LIST partitioning
+--
+
+--
+-- Test: specific errors for BY LIST partitioning
+--
+CREATE TABLE sales_list
+(salesperson_id INT GENERATED ALWAYS AS IDENTITY,
+ salesperson_name VARCHAR(30),
+ sales_state VARCHAR(20),
+ sales_amount INT,
+ sales_date DATE)
+PARTITION BY LIST (sales_state);
+CREATE TABLE sales_nord PARTITION OF sales_list FOR VALUES IN ('Oslo', 'St. Petersburg', 'Helsinki');
+CREATE TABLE sales_west PARTITION OF sales_list FOR VALUES IN ('Lisbon', 'New York', 'Madrid');
+CREATE TABLE sales_east PARTITION OF sales_list FOR VALUES IN ('Bejing', 'Delhi', 'Vladivostok');
+CREATE TABLE sales_central PARTITION OF sales_list FOR VALUES IN ('Warsaw', 'Berlin', 'Kyiv');
+CREATE TABLE sales_others PARTITION OF sales_list DEFAULT;
+
+
+CREATE TABLE sales_list2 (LIKE sales_list) PARTITION BY LIST (sales_state);
+CREATE TABLE sales_nord2 PARTITION OF sales_list2 FOR VALUES IN ('Oslo', 'St. Petersburg', 'Helsinki');
+CREATE TABLE sales_others2 PARTITION OF sales_list2 DEFAULT;
+
+
+CREATE TABLE sales_external (LIKE sales_list);
+CREATE TABLE sales_external2 (vch VARCHAR(5));
+
+-- ERROR:  "sales_external" is not a partition of partitioned table "sales_list"
+ALTER TABLE sales_list MERGE PARTITIONS (sales_west, sales_east, sales_external) INTO sales_all;
+-- ERROR:  "sales_external2" is not a partition of partitioned table "sales_list"
+ALTER TABLE sales_list MERGE PARTITIONS (sales_west, sales_east, sales_external2) INTO sales_all;
+-- ERROR:  relation "sales_nord2" is not a partition of relation "sales_list"
+ALTER TABLE sales_list MERGE PARTITIONS (sales_west, sales_nord2, sales_east) INTO sales_all;
+
+DROP TABLE sales_external2;
+DROP TABLE sales_external;
+DROP TABLE sales_list2;
+DROP TABLE sales_list;
+
+--
+-- Test: BY LIST partitioning, MERGE PARTITIONS with data
+--
+CREATE TABLE sales_list
+(salesperson_id INT GENERATED ALWAYS AS IDENTITY,
+ salesperson_name VARCHAR(30),
+ sales_state VARCHAR(20),
+ sales_amount INT,
+ sales_date DATE)
+PARTITION BY LIST (sales_state);
+
+CREATE INDEX sales_list_salesperson_name_idx ON sales_list USING btree (salesperson_name);
+CREATE INDEX sales_list_sales_state_idx ON sales_list USING btree (sales_state);
+
+CREATE TABLE sales_nord PARTITION OF sales_list FOR VALUES IN ('Oslo', 'St. Petersburg', 'Helsinki');
+CREATE TABLE sales_west PARTITION OF sales_list FOR VALUES IN ('Lisbon', 'New York', 'Madrid');
+CREATE TABLE sales_east PARTITION OF sales_list FOR VALUES IN ('Bejing', 'Delhi', 'Vladivostok');
+CREATE TABLE sales_central PARTITION OF sales_list FOR VALUES IN ('Warsaw', 'Berlin', 'Kyiv');
+CREATE TABLE sales_others PARTITION OF sales_list DEFAULT;
+
+INSERT INTO sales_list (salesperson_name, sales_state, sales_amount, sales_date) VALUES
+  ('Trump',    'Bejing',         1000, '2022-03-01'),
+  ('Smirnoff', 'New York',        500, '2022-03-03'),
+  ('Ford',     'St. Petersburg', 2000, '2022-03-05'),
+  ('Ivanov',   'Warsaw',          750, '2022-03-04'),
+  ('Deev',     'Lisbon',          250, '2022-03-07'),
+  ('Poirot',   'Berlin',         1000, '2022-03-01'),
+  ('May',      'Helsinki',       1200, '2022-03-06'),
+  ('Li',       'Vladivostok',    1150, '2022-03-09'),
+  ('May',      'Helsinki',       1200, '2022-03-11'),
+  ('Halder',   'Oslo',            800, '2022-03-02'),
+  ('Muller',   'Madrid',          650, '2022-03-05'),
+  ('Smith',    'Kyiv',            350, '2022-03-10'),
+  ('Gandi',    'Warsaw',          150, '2022-03-08'),
+  ('Plato',    'Lisbon',          950, '2022-03-05');
+
+-- show partitions with conditions:
+EXECUTE get_partition_info('{sales_list}');
+
+ALTER TABLE sales_list MERGE PARTITIONS (sales_west, sales_east, sales_central) INTO sales_all;
+
+-- show partitions with conditions:
+EXECUTE get_partition_info('{sales_list}');
+
+SELECT tableoid::regclass, * FROM sales_list ORDER BY tableoid, salesperson_id;
+
+-- Use indexscan for testing indexes after merging partitions
+SET enable_seqscan = OFF;
+
+SELECT * FROM sales_all WHERE sales_state = 'Warsaw';
+SELECT * FROM sales_list WHERE sales_state = 'Warsaw';
+SELECT * FROM sales_list WHERE salesperson_name = 'Ivanov';
+
+RESET enable_seqscan;
+
+DROP TABLE sales_list;
+
+--
+-- Try to MERGE partitions of another table.
+--
+CREATE TABLE t1 (i int, a int, b int, c int) PARTITION BY RANGE (a, b);
+CREATE TABLE t1p1 PARTITION OF t1 FOR VALUES FROM (1, 1) TO (1, 2);
+CREATE TABLE t2 (i int, t text) PARTITION BY RANGE (t);
+CREATE TABLE t2pa PARTITION OF t2 FOR VALUES FROM ('A') TO ('C');
+CREATE TABLE t3 (i int, t text);
+
+-- ERROR:  relation "t1p1" is not a partition of relation "t2"
+ALTER TABLE t2 MERGE PARTITIONS (t1p1, t2pa) INTO t2p;
+-- ERROR:  "t3" is not a partition of partitioned table "t2"
+ALTER TABLE t2 MERGE PARTITIONS (t2pa, t3) INTO t2p;
+
+DROP TABLE t3;
+DROP TABLE t2;
+DROP TABLE t1;
+
+--
+-- Try to MERGE partitions of temporary table.
+--
+CREATE TEMP TABLE t (i int) PARTITION BY RANGE (i);
+CREATE TEMP TABLE tp_0_1 PARTITION OF t FOR VALUES FROM (0) TO (1);
+CREATE TEMP TABLE tp_1_2 PARTITION OF t FOR VALUES FROM (1) TO (2);
+
+EXECUTE get_partition_info('{t}');
+
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO tp_0_2;
+
+-- Partition should be temporary.
+EXECUTE get_partition_info('{t}');
+
+DROP TABLE t;
+
+--
+-- Check the partition index name if the partition name is the same as one
+-- of the merged partitions.
+--
+CREATE TABLE t (i int, PRIMARY KEY(i)) PARTITION BY RANGE (i);
+
+CREATE TABLE tp_0_1 PARTITION OF t FOR VALUES FROM (0) TO (1);
+CREATE TABLE tp_1_2 PARTITION OF t FOR VALUES FROM (1) TO (2);
+
+CREATE INDEX tidx ON t(i);
+ALTER TABLE t MERGE PARTITIONS (tp_1_2, tp_0_1) INTO tp_1_2;
+
+-- Indexname values should be 'tp_1_2_pkey' and 'tp_1_2_i_idx'.
+-- Not-null constraint name should be 'tp_1_2_i_not_null'.
+\d+ tp_1_2
+
+DROP TABLE t;
+
+--
+-- Try mixing permanent and temporary partitions.
+--
+SET search_path = partitions_merge_schema, pg_temp, public;
+CREATE TABLE t (i int) PARTITION BY RANGE (i);
+CREATE TABLE tp_0_1 PARTITION OF t FOR VALUES FROM (0) TO (1);
+CREATE TABLE tp_1_2 PARTITION OF t FOR VALUES FROM (1) TO (2);
+
+SELECT c.oid::pg_catalog.regclass, c.relpersistence FROM pg_catalog.pg_class c WHERE c.oid = 't'::regclass;
+
+EXECUTE get_partition_info('{t}');
+
+SET search_path = pg_temp, partitions_merge_schema, public;
+
+-- Can't merge persistent partitions into a temporary partition
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO tp_0_2;
+
+SET search_path = partitions_merge_schema, public;
+
+-- Can't merge persistent partitions into a temporary partition
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO pg_temp.tp_0_2;
+DROP TABLE t;
+
+SET search_path = pg_temp, partitions_merge_schema, public;
+
+BEGIN;
+CREATE TABLE t (i int) PARTITION BY RANGE (i);
+CREATE TABLE tp_0_1 PARTITION OF t FOR VALUES FROM (0) TO (1);
+CREATE TABLE tp_1_2 PARTITION OF t FOR VALUES FROM (1) TO (2);
+
+SELECT c.oid::pg_catalog.regclass, c.relpersistence FROM pg_catalog.pg_class c WHERE c.oid = 't'::regclass;
+
+EXECUTE get_partition_info('{t}');
+
+DEALLOCATE get_partition_info;
+
+SET search_path = partitions_merge_schema, pg_temp, public;
+
+-- Can't merge temporary partitions into a persistent partition
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO tp_0_2;
+ROLLBACK;
+
+-- Check the new partition inherits parent's tablespace
+SET search_path = partitions_merge_schema, public;
+CREATE TABLE t (i int PRIMARY KEY USING INDEX TABLESPACE regress_tblspace)
+  PARTITION BY RANGE (i) TABLESPACE regress_tblspace;
+CREATE TABLE tp_0_1 PARTITION OF t FOR VALUES FROM (0) TO (1);
+CREATE TABLE tp_1_2 PARTITION OF t FOR VALUES FROM (1) TO (2);
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO tp_0_2;
+SELECT tablename, tablespace FROM pg_tables
+  WHERE tablename IN ('t', 'tp_0_2') AND schemaname = 'partitions_merge_schema'
+  ORDER BY tablename, tablespace;
+SELECT tablename, indexname, tablespace FROM pg_indexes
+  WHERE tablename IN ('t', 'tp_0_2') AND schemaname = 'partitions_merge_schema'
+  ORDER BY tablename, indexname, tablespace;
+DROP TABLE t;
+
+-- Check the new partition inherits parent's table access method
+SET search_path = partitions_merge_schema, public;
+CREATE ACCESS METHOD partitions_merge_heap TYPE TABLE HANDLER heap_tableam_handler;
+CREATE TABLE t (i int) PARTITION BY RANGE (i) USING partitions_merge_heap;
+CREATE TABLE tp_0_1 PARTITION OF t FOR VALUES FROM (0) TO (1);
+CREATE TABLE tp_1_2 PARTITION OF t FOR VALUES FROM (1) TO (2);
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO tp_0_2;
+SELECT c.relname, a.amname
+FROM pg_class c JOIN pg_am a ON c.relam = a.oid
+WHERE c.oid IN ('t'::regclass, 'tp_0_2'::regclass)
+ORDER BY c.relname;
+DROP TABLE t;
+DROP ACCESS METHOD partitions_merge_heap;
+
+-- Test permission checks.  The user needs to own the parent table and all
+-- the merging partitions to do the merge.
+CREATE ROLE regress_partition_merge_alice;
+CREATE ROLE regress_partition_merge_bob;
+GRANT ALL ON SCHEMA partitions_merge_schema TO regress_partition_merge_alice;
+GRANT ALL ON SCHEMA partitions_merge_schema TO regress_partition_merge_bob;
+
+SET SESSION AUTHORIZATION regress_partition_merge_alice;
+CREATE TABLE t (i int) PARTITION BY RANGE (i);
+CREATE TABLE tp_0_1 PARTITION OF t FOR VALUES FROM (0) TO (1);
+CREATE TABLE tp_1_2 PARTITION OF t FOR VALUES FROM (1) TO (2);
+
+SET SESSION AUTHORIZATION regress_partition_merge_bob;
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO tp_0_2;
+RESET SESSION AUTHORIZATION;
+
+ALTER TABLE t OWNER TO regress_partition_merge_bob;
+SET SESSION AUTHORIZATION regress_partition_merge_bob;
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO tp_0_2;
+RESET SESSION AUTHORIZATION;
+
+ALTER TABLE tp_0_1 OWNER TO regress_partition_merge_bob;
+SET SESSION AUTHORIZATION regress_partition_merge_bob;
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO tp_0_2;
+RESET SESSION AUTHORIZATION;
+
+ALTER TABLE tp_1_2 OWNER TO regress_partition_merge_bob;
+SET SESSION AUTHORIZATION regress_partition_merge_bob;
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO tp_0_2;
+RESET SESSION AUTHORIZATION;
+
+DROP TABLE t;
+REVOKE ALL ON SCHEMA partitions_merge_schema FROM regress_partition_merge_alice;
+REVOKE ALL ON SCHEMA partitions_merge_schema FROM regress_partition_merge_bob;
+DROP ROLE regress_partition_merge_alice;
+DROP ROLE regress_partition_merge_bob;
+
+
+-- Test: we can't merge partitions with different owners
+CREATE ROLE regress_partitions_merge_alice;
+CREATE ROLE regress_partitions_merge_bob;
+GRANT ALL ON SCHEMA partitions_merge_schema TO regress_partitions_merge_alice;
+GRANT ALL ON SCHEMA partitions_merge_schema TO regress_partitions_merge_bob;
+SET SESSION AUTHORIZATION regress_partitions_merge_alice;
+CREATE TABLE tp_0_1(i int);
+RESET SESSION AUTHORIZATION;
+SET SESSION AUTHORIZATION regress_partitions_merge_bob;
+CREATE TABLE tp_1_2(i int);
+RESET SESSION AUTHORIZATION;
+
+CREATE TABLE t (i int) PARTITION BY RANGE (i);
+
+ALTER TABLE t ATTACH PARTITION tp_0_1 FOR VALUES FROM (0) TO (1);
+ALTER TABLE t ATTACH PARTITION tp_1_2 FOR VALUES FROM (1) TO (2);
+
+-- Owner is 'regress_partitions_merge_alice':
+\dt tp_0_1
+-- Owner is 'regress_partitions_merge_bob':
+\dt tp_1_2
+
+-- ERROR:  partitions being merged have different owners
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO tp_0_2;
+
+DROP TABLE t;
+REVOKE ALL ON SCHEMA partitions_merge_schema FROM regress_partitions_merge_alice;
+REVOKE ALL ON SCHEMA partitions_merge_schema FROM regress_partitions_merge_bob;
+DROP ROLE regress_partitions_merge_alice;
+DROP ROLE regress_partitions_merge_bob;
+
+
+-- Test for hash partitioned table
+CREATE TABLE t (i int) PARTITION BY HASH(i);
+CREATE TABLE tp1 PARTITION OF t FOR VALUES WITH (MODULUS 2, REMAINDER 0);
+CREATE TABLE tp2 PARTITION OF t FOR VALUES WITH (MODULUS 2, REMAINDER 1);
+
+-- ERROR:  partition of hash-partitioned table cannot be merged
+ALTER TABLE t MERGE PARTITIONS (tp1, tp2) INTO tp3;
+
+-- ERROR:  list of new partitions should contain at least two items
+ALTER TABLE t MERGE PARTITIONS (tp1) INTO tp3;
+
+DROP TABLE t;
+
+
+-- Test for merged partition properties:
+-- * STATISTICS is empty
+-- * COMMENT is empty
+-- * DEFAULTS are the same as DEFAULTS for partitioned table
+-- * STORAGE is the same as STORAGE for partitioned table
+-- * GENERATED and CONSTRAINTS are the same as GENERATED and CONSTRAINTS for partitioned table
+-- * TRIGGERS are the same as TRIGGERS for partitioned table
+
+CREATE TABLE t
+(i int NOT NULL,
+ t text STORAGE EXTENDED COMPRESSION pglz DEFAULT 'default_t',
+ b bigint,
+ d date GENERATED ALWAYS as ('2022-01-01') STORED) PARTITION BY RANGE (abs(i));
+COMMENT ON COLUMN t.i IS 't1.i';
+
+CREATE TABLE tp_0_1
+(i int NOT NULL,
+ t text STORAGE MAIN DEFAULT 'default_tp_0_1',
+ b bigint,
+ d date GENERATED ALWAYS as ('2022-02-02') STORED);
+ALTER TABLE t ATTACH PARTITION tp_0_1 FOR VALUES FROM (0) TO (1);
+COMMENT ON COLUMN tp_0_1.i IS 'tp_0_1.i';
+
+CREATE TABLE tp_1_2
+(i int NOT NULL,
+ t text STORAGE MAIN DEFAULT 'default_tp_1_2',
+ b bigint,
+ d date GENERATED ALWAYS as ('2022-03-03') STORED);
+ALTER TABLE t ATTACH PARTITION tp_1_2 FOR VALUES FROM (1) TO (2);
+COMMENT ON COLUMN tp_1_2.i IS 'tp_1_2.i';
+
+CREATE STATISTICS t_stat (DEPENDENCIES) on i, b from t;
+CREATE STATISTICS tp_0_1_stat (DEPENDENCIES) on i, b from tp_0_1;
+CREATE STATISTICS tp_1_2_stat (DEPENDENCIES) on i, b from tp_1_2;
+
+ALTER TABLE t ADD CONSTRAINT t_b_check CHECK (b > 0);
+ALTER TABLE t ADD CONSTRAINT t_b_check1 CHECK (b > 0) NOT ENFORCED;
+ALTER TABLE t ADD CONSTRAINT t_b_check2 CHECK (b > 0) NOT VALID;
+ALTER TABLE t ADD CONSTRAINT t_b_nn NOT NULL b NOT VALID;
+
+INSERT INTO tp_0_1(i, t, b) VALUES(0, DEFAULT, 1);
+INSERT INTO tp_1_2(i, t, b) VALUES(1, DEFAULT, 2);
+CREATE OR REPLACE FUNCTION trigger_function() RETURNS trigger LANGUAGE 'plpgsql' AS
+$BODY$
+BEGIN
+  RAISE NOTICE 'trigger(%) called: action = %, when = %, level = %', TG_ARGV[0], TG_OP, TG_WHEN, TG_LEVEL;
+  RETURN new;
+END;
+$BODY$;
+
+CREATE TRIGGER t_before_insert_row_trigger BEFORE INSERT ON t FOR EACH ROW
+  EXECUTE PROCEDURE trigger_function('t');
+CREATE TRIGGER tp_0_1_before_insert_row_trigger BEFORE INSERT ON tp_0_1 FOR EACH ROW
+  EXECUTE PROCEDURE trigger_function('tp_0_1');
+CREATE TRIGGER tp_1_2_before_insert_row_trigger BEFORE INSERT ON tp_1_2 FOR EACH ROW
+  EXECUTE PROCEDURE trigger_function('tp_1_2');
+
+\d+ tp_0_1
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO tp_0_1;
+\d+ tp_0_1
+
+INSERT INTO t(i, t, b) VALUES(1, DEFAULT, 3);
+SELECT tableoid::regclass, * FROM t ORDER BY b;
+DROP TABLE t;
+DROP FUNCTION trigger_function();
+
+
+-- Test MERGE PARTITIONS with not valid foreign key constraint
+CREATE TABLE t (i INT PRIMARY KEY) PARTITION BY RANGE (i);
+CREATE TABLE tp_0_1 PARTITION OF t FOR VALUES FROM (0) TO (1);
+CREATE TABLE tp_1_2 PARTITION OF t FOR VALUES FROM (1) TO (2);
+INSERT INTO t VALUES (0), (1);
+CREATE TABLE t_fk (i INT);
+INSERT INTO t_fk VALUES (1), (2);
+ALTER TABLE t_fk ADD CONSTRAINT t_fk_i_fkey FOREIGN KEY (i) REFERENCES t NOT VALID;
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO tp_0_2;
+
+-- Should be NOT VALID FOREIGN KEY
+\d tp_0_2
+-- ERROR:  insert or update on table "t_fk" violates foreign key constraint "t_fk_i_fkey"
+ALTER TABLE t_fk VALIDATE CONSTRAINT t_fk_i_fkey;
+
+DROP TABLE t_fk;
+DROP TABLE t;
+
+-- Test MERGE PARTITIONS with not enforced foreign key constraint
+CREATE TABLE t (i INT PRIMARY KEY) PARTITION BY RANGE (i);
+CREATE TABLE tp_0_1 PARTITION OF t FOR VALUES FROM (0) TO (1);
+CREATE TABLE tp_1_2 PARTITION OF t FOR VALUES FROM (1) TO (2);
+INSERT INTO t VALUES (0), (1);
+CREATE TABLE t_fk (i INT);
+INSERT INTO t_fk VALUES (1), (2);
+
+ALTER TABLE t_fk ADD CONSTRAINT t_fk_i_fkey FOREIGN KEY (i) REFERENCES t NOT ENFORCED;
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO tp_0_2;
+
+-- Should be NOT ENFORCED FOREIGN KEY
+\d tp_0_2
+-- ERROR:  insert or update on table "t_fk" violates foreign key constraint "t_fk_i_fkey"
+ALTER TABLE t_fk ALTER CONSTRAINT t_fk_i_fkey ENFORCED;
+
+DROP TABLE t_fk;
+DROP TABLE t;
+
+
+-- Test for recomputation of stored generated columns.
+CREATE TABLE t (i int, tab_id int generated always as (tableoid) stored) PARTITION BY RANGE (i);
+CREATE TABLE tp_0_1 PARTITION OF t FOR VALUES FROM (0) TO (1);
+CREATE TABLE tp_1_2 PARTITION OF t FOR VALUES FROM (1) TO (2);
+ALTER TABLE t ADD CONSTRAINT cc CHECK(tableoid <> 123456789);
+INSERT INTO t VALUES (0), (1);
+
+-- Should be 0 because partition identifier for row with i=0 is different from
+-- partition identifier for row with i=1.
+SELECT count(*) FROM t WHERE i = 0 AND tab_id IN (SELECT tab_id FROM t WHERE i = 1);
+
+-- "tab_id" column (stored generated column) with "tableoid" attribute requires
+-- recomputation here.
+ALTER TABLE t MERGE PARTITIONS (tp_0_1, tp_1_2) INTO tp_0_2;
+
+-- Should be 1 because partition identifier for row with i=0 is the same as
+-- partition identifier for row with i=1.
+SELECT count(*) FROM t WHERE i = 0 AND tab_id IN (SELECT tab_id FROM t WHERE i = 1);
+
+DROP TABLE t;
+
+
+-- Test for generated columns (different order of columns in partitioned table
+-- and partitions).
+CREATE TABLE t (i int, g int GENERATED ALWAYS AS (i + tableoid::int)) PARTITION BY RANGE (i);
+CREATE TABLE tp_1 (g int GENERATED ALWAYS AS (i + tableoid::int), i int);
+CREATE TABLE tp_2 (g int GENERATED ALWAYS AS (i + tableoid::int), i int);
+ALTER TABLE t ATTACH PARTITION tp_1 FOR VALUES FROM (-1) TO (10);
+ALTER TABLE t ATTACH PARTITION tp_2 FOR VALUES FROM (10) TO (20);
+ALTER TABLE t ADD CHECK (g > 0);
+ALTER TABLE t ADD CHECK (i > 0);
+INSERT INTO t VALUES (5), (15);
+
+ALTER TABLE t MERGE PARTITIONS (tp_1, tp_2) INTO tp_12;
+
+INSERT INTO t VALUES (16);
+-- ERROR:  new row for relation "tp_12" violates check constraint "t_i_check"
+INSERT INTO t VALUES (0);
+-- Should be 3 rows: (5), (15), (16):
+SELECT i FROM t ORDER BY i;
+-- Should be 1 because for the same tableoid (15 + tableoid) = (5 + tableoid) + 10:
+SELECT count(*) FROM t WHERE i = 15 AND g IN (SELECT g + 10 FROM t WHERE i = 5);
+
+DROP TABLE t;
+
+
+RESET search_path;
+
+--
+DROP SCHEMA partitions_merge_schema;
+DROP SCHEMA partitions_merge_schema2;
-- 
2.40.1.windows.1



  [text/plain] v49-0002-Implement-ALTER-TABLE-.-SPLIT-PARTITION-.-comman.patch (219.6K, ../[email protected]/3-v49-0002-Implement-ALTER-TABLE-.-SPLIT-PARTITION-.-comman.patch)
  download | inline diff:
From f8a40867cf3d03899722cab3716d7374e69c65e9 Mon Sep 17 00:00:00 2001
From: Alexander Korotkov <[email protected]>
Date: Sun, 7 Apr 2024 00:58:09 +0300
Subject: [PATCH v49 2/2] Implement ALTER TABLE ... SPLIT PARTITION ... command

This new DDL command splits a single partition into several parititions.
Just like ALTER TABLE ... MERGE PARTITIONS ... command, new patitions are
created using createPartitionTable() function with parent partition as the
template.

This commit comprises quite naive implementation which works in single process
and holds the ACCESS EXCLUSIVE LOCK on the parent table during all the
operations including the tuple routing.  This is why this new DDL command
can't be recommended for large partitioned tables under a high load.  However,
this implementation come in handy in certain cases even as is.
Also, it could be used as a foundation for future implementations with lesser
locking and possibly parallel.

Discussion: https://postgr.es/m/c73a1746-0cd0-6bdd-6b23-3ae0b7c0c582%40postgrespro.ru
Author: Dmitry Koval
Reviewed-by: Matthias van de Meent, Laurenz Albe, Zhihong Yu, Justin Pryzby
Reviewed-by: Alvaro Herrera, Robert Haas, Stephane Tachoires

Fixes (summary information).
Authors: Alexander Korotkov, Tender Wang, Richard Guo, Dagfinn Ilmari Mannsaker
Authors: Fujii Masao
Reviewed-by: Alexander Korotkov, Robert Haas, Justin Pryzby, Pavel Borisov
Reviewed-by: Masahiko Sawada
Reported-by: Alexander Lakhin, Justin Pryzby, Kyotaro Horiguchi
Reported-by: Daniel Gustafsson, Tom Lane, Noah Misch
---
 doc/src/sgml/ddl.sgml                         |   19 +
 doc/src/sgml/ref/alter_table.sgml             |   95 +-
 src/backend/commands/tablecmds.c              |  465 +++++
 src/backend/parser/gram.y                     |   38 +-
 src/backend/parser/parse_utilcmd.c            |   65 +-
 src/backend/partitioning/partbounds.c         |  684 ++++++-
 src/backend/utils/adt/ruleutils.c             |   18 +
 src/bin/psql/tab-complete.in.c                |   10 +-
 src/include/nodes/parsenodes.h                |   16 +-
 src/include/parser/kwlist.h                   |    1 +
 src/include/partitioning/partbounds.h         |    4 +
 src/include/utils/ruleutils.h                 |    2 +
 .../isolation/expected/partition-split.out    |  190 ++
 src/test/isolation/isolation_schedule         |    1 +
 src/test/isolation/specs/partition-split.spec |   54 +
 .../test_ddl_deparse/test_ddl_deparse.c       |    3 +
 src/test/regress/expected/partition_split.out | 1655 +++++++++++++++++
 src/test/regress/parallel_schedule            |    2 +-
 src/test/regress/sql/partition_split.sql      | 1148 ++++++++++++
 src/tools/pgindent/typedefs.list              |    2 +
 20 files changed, 4448 insertions(+), 24 deletions(-)
 create mode 100644 src/test/isolation/expected/partition-split.out
 create mode 100644 src/test/isolation/specs/partition-split.spec
 create mode 100644 src/test/regress/expected/partition_split.out
 create mode 100644 src/test/regress/sql/partition_split.sql

diff --git a/doc/src/sgml/ddl.sgml b/doc/src/sgml/ddl.sgml
index 62c2bb54ea..41e477eddf 100644
--- a/doc/src/sgml/ddl.sgml
+++ b/doc/src/sgml/ddl.sgml
@@ -4461,6 +4461,25 @@ ALTER TABLE measurement
                       measurement_y2006m03) INTO measurement_y2006q1;
 </programlisting>
     </para>
+
+    <para>
+     Similarly to merging multiple table partitions, there is an option for
+     splitting a single partition into multiple using the
+     <link linkend="sql-altertable-split-partition"><command>ALTER TABLE ... SPLIT PARTITION</command></link>.
+     This feature could come in handy when one partition grows too big
+     and needs to be split into multiple.  It's important to note that
+     this operation is not supported for hash-partitioned tables and acquires
+     an <literal>ACCESS EXCLUSIVE</literal> lock, which could impact high-load
+     systems due to the lock's restrictive nature.  For example, we can split
+     the quarter partition back to monthly partitions:
+<programlisting>
+ALTER TABLE measurement SPLIT PARTITION measurement_y2006q1 INTO
+   (PARTITION measurement_y2006m01 FOR VALUES FROM ('2006-01-01') TO ('2006-02-01'),
+    PARTITION measurement_y2006m02 FOR VALUES FROM ('2006-02-01') TO ('2006-03-01'),
+    PARTITION measurement_y2006m03 FOR VALUES FROM ('2006-03-01') TO ('2006-04-01'));
+</programlisting>
+    </para>
+
    </sect3>
 
    <sect3 id="ddl-partitioning-declarative-limitations">
diff --git a/doc/src/sgml/ref/alter_table.sgml b/doc/src/sgml/ref/alter_table.sgml
index dd429c12b1..7b143c6585 100644
--- a/doc/src/sgml/ref/alter_table.sgml
+++ b/doc/src/sgml/ref/alter_table.sgml
@@ -39,6 +39,10 @@ ALTER TABLE [ IF EXISTS ] <replaceable class="parameter">name</replaceable>
     DETACH PARTITION <replaceable class="parameter">partition_name</replaceable> [ CONCURRENTLY | FINALIZE ]
 ALTER TABLE [ IF EXISTS ] <replaceable class="parameter">name</replaceable>
     MERGE PARTITIONS (<replaceable class="parameter">partition_name1</replaceable>, <replaceable class="parameter">partition_name2</replaceable> [, ...]) INTO <replaceable class="parameter">partition_name</replaceable>
+ALTER TABLE [ IF EXISTS ] <replaceable class="parameter">name</replaceable>
+    SPLIT PARTITION <replaceable class="parameter">partition_name</replaceable> INTO
+        (PARTITION <replaceable class="parameter">partition_name1</replaceable> { FOR VALUES <replaceable class="parameter">partition_bound_spec</replaceable> | DEFAULT },
+         PARTITION <replaceable class="parameter">partition_name2</replaceable> { FOR VALUES <replaceable class="parameter">partition_bound_spec</replaceable> | DEFAULT } [, ...])
 
 <phrase>where <replaceable class="parameter">action</replaceable> is one of:</phrase>
 
@@ -1149,6 +1153,71 @@ WITH ( MODULUS <replaceable class="parameter">numeric_literal</replaceable>, REM
     </listitem>
    </varlistentry>
 
+   <varlistentry id="sql-altertable-split-partition">
+    <term><literal>SPLIT PARTITION <replaceable class="parameter">partition_name</replaceable> INTO (PARTITION <replaceable class="parameter">partition_name1</replaceable> { FOR VALUES <replaceable class="parameter">partition_bound_spec</replaceable> | DEFAULT }, PARTITION <replaceable class="parameter">partition_name2</replaceable> { FOR VALUES <replaceable class="parameter">partition_bound_spec</replaceable> | DEFAULT } [, ...])</literal></term>
+
+    <listitem>
+     <para>
+      This form splits a single partition of the target table into a new
+      partitions. Hash-partitioned target table is not supported. Bounds of new
+      partitions should not overlap with new and existing partitions
+      (except <replaceable class="parameter">partition_name</replaceable>).
+      If the split partition is a <literal>DEFAULT</literal> partition, one of
+      the new partitions must be <literal>DEFAULT</literal>.
+      In case one of the new partitions or one of existing partitions is
+      <literal>DEFAULT</literal>, new partitions <replaceable class="parameter">partition_name1</replaceable>,
+      <replaceable class="parameter">partition_name2</replaceable>, ... can
+      have spaces between partitions bounds.  If the partitioned table does not
+      have a <literal>DEFAULT</literal> partition, the <literal>DEFAULT</literal>
+      partition can be defined as one of the new partitions.
+     </para>
+     <para>
+      In case new partitions do not contain a <literal>DEFAULT</literal>
+      partition and the partitioned table does not have a <literal>DEFAULT</literal>
+      partition, the following must be true: sum bounds of new partitions
+      <replaceable class="parameter">partition_name1</replaceable>,
+      <replaceable class="parameter">partition_name2</replaceable>, ... should
+      be equal to bound of split partition <replaceable class="parameter">partition_name</replaceable>.
+      One of the new partitions <replaceable class="parameter">partition_name1</replaceable>,
+      <replaceable class="parameter">partition_name2</replaceable>, ... can have
+      the same name as split partition <replaceable class="parameter">partition_name</replaceable>
+      (this is suitable in case of splitting a <literal>DEFAULT</literal>
+      partition: we split it, but after splitting we have a partition with the
+      same name).  Only simple, non-partitioned partition can be split.
+     </para>
+     <para>
+      New partitions will have the same owner as the parent partition.
+      It is the user's responsibility to setup <acronym>ACL</acronym> on new
+      partitions.
+     </para>
+     <para>
+      The indexes and identity are created later, after moving the data
+      into the new partitions.
+      Extended statistics aren't copied from the parent table, for consistency with
+      <command>CREATE TABLE PARTITION OF</command>.
+      New partitions will inherit the same table access method, persistence
+      type, and tablespace as the parent table.
+     </para>
+     <para>
+      When partition is split, any individual objects belonging to this
+      partition, such as constraints or statistics will be dropped. This ccurs
+      because <command>ALTER TABLE SPLIT PARTITION</command> uses the partitioned table itself
+      as the template to define these objects.
+     </para>
+     <para>
+      If split partition has some objects dependent on it, the command can
+      not be done (<literal>CASCADE</literal> is not used, an error will be returned).
+     </para>
+     <note>
+      <para>
+       Split partition acquires a <literal>ACCESS EXCLUSIVE</literal> lock on
+       the parent table, in addition to the <literal>ACCESS EXCLUSIVE</literal>
+       lock on the table being split.
+      </para>
+     </note>
+    </listitem>
+   </varlistentry>
+
    <varlistentry id="sql-altertable-merge-partitions">
     <term><literal>MERGE PARTITIONS (<replaceable class="parameter">partition_name1</replaceable>, <replaceable class="parameter">partition_name2</replaceable> [, ...]) INTO <replaceable class="parameter">partition_name</replaceable></literal></term>
 
@@ -1243,7 +1312,8 @@ WITH ( MODULUS <replaceable class="parameter">numeric_literal</replaceable>, REM
    All the forms of <command>ALTER TABLE</command> that act on a single table,
    except <literal>RENAME</literal>, <literal>SET SCHEMA</literal>,
    <literal>ATTACH PARTITION</literal>, <literal>DETACH PARTITION</literal>,
-   and <literal>MERGE PARTITIONS</literal> can be combined into
+   <literal>SPLIT PARTITION</literal>, and <literal>MERGE PARTITIONS</literal>
+   can be combined into
    a list of multiple alterations to be applied together.  For example, it
    is possible to add several columns and/or alter the type of several
    columns in a single command.  This is particularly useful with large
@@ -1487,7 +1557,7 @@ WITH ( MODULUS <replaceable class="parameter">numeric_literal</replaceable>, REM
       <listitem>
        <para>
         The name of the table to attach as a new partition or to detach from this table,
-        or the name of the new merged partition.
+        or the name of split partition, or the name of the new merged partition.
        </para>
       </listitem>
      </varlistentry>
@@ -1497,7 +1567,8 @@ WITH ( MODULUS <replaceable class="parameter">numeric_literal</replaceable>, REM
       <term><replaceable class="parameter">partition_name2</replaceable></term>
       <listitem>
        <para>
-        The names of the tables being merged into the new partition.
+        The names of the tables being merged into the new partition or split into
+        new partitions.
        </para>
       </listitem>
      </varlistentry>
@@ -1930,6 +2001,24 @@ ALTER TABLE measurement
     DETACH PARTITION measurement_y2015m12;
 </programlisting></para>
 
+  <para>
+   To split a single partition of the range-partitioned table:
+<programlisting>
+ALTER TABLE sales_range SPLIT PARTITION sales_feb_mar_apr2023 INTO
+   (PARTITION sales_feb2023 FOR VALUES FROM ('2023-02-01') TO ('2023-03-01'),
+    PARTITION sales_mar2023 FOR VALUES FROM ('2023-03-01') TO ('2023-04-01'),
+    PARTITION sales_apr2023 FOR VALUES FROM ('2023-04-01') TO ('2023-05-01'));
+</programlisting></para>
+
+  <para>
+   To split a single partition of the list-partitioned table:
+<programlisting>
+ALTER TABLE sales_list SPLIT PARTITION sales_all INTO
+   (PARTITION sales_west FOR VALUES IN ('Lisbon', 'New York', 'Madrid'),
+    PARTITION sales_east FOR VALUES IN ('Bejing', 'Delhi', 'Vladivostok'),
+    PARTITION sales_central FOR VALUES IN ('Warsaw', 'Berlin', 'Kyiv'));
+</programlisting></para>
+
   <para>
    To merge several partitions into one partition of the target table:
 <programlisting>
diff --git a/src/backend/commands/tablecmds.c b/src/backend/commands/tablecmds.c
index 34858ab509..de73540334 100644
--- a/src/backend/commands/tablecmds.c
+++ b/src/backend/commands/tablecmds.c
@@ -742,6 +742,9 @@ static char GetAttributeStorage(Oid atttypid, const char *storagemode);
 
 static void ATExecMergePartitions(List **wqueue, AlteredTableInfo *tab, Relation rel,
 								  PartitionCmd *cmd, AlterTableUtilityContext *context);
+static void ATExecSplitPartition(List **wqueue, AlteredTableInfo *tab,
+								 Relation rel, PartitionCmd *cmd,
+								 AlterTableUtilityContext *context);
 
 /* ----------------------------------------------------------------
  *		DefineRelation
@@ -4840,6 +4843,10 @@ AlterTableGetLockLevel(List *cmds)
 				cmd_lockmode = AccessExclusiveLock;
 				break;
 
+			case AT_SplitPartition:
+				cmd_lockmode = AccessExclusiveLock;
+				break;
+
 			default:			/* oops */
 				elog(ERROR, "unrecognized alter table type: %d",
 					 (int) cmd->subtype);
@@ -5280,6 +5287,11 @@ ATPrepCmd(List **wqueue, Relation rel, AlterTableCmd *cmd,
 			/* No command-specific prep needed */
 			pass = AT_PASS_MISC;
 			break;
+		case AT_SplitPartition:
+			ATSimplePermissions(cmd->subtype, rel, ATT_PARTITIONED_TABLE);
+			/* No command-specific prep needed */
+			pass = AT_PASS_MISC;
+			break;
 		default:				/* oops */
 			elog(ERROR, "unrecognized alter table type: %d",
 				 (int) cmd->subtype);
@@ -5684,6 +5696,14 @@ ATExecCmd(List **wqueue, AlteredTableInfo *tab,
 			ATExecMergePartitions(wqueue, tab, rel, (PartitionCmd *) cmd->def,
 								  context);
 			break;
+		case AT_SplitPartition:
+			cmd = ATParseTransformCmd(wqueue, tab, rel, cmd, false, lockmode,
+									  cur_pass, context);
+			Assert(cmd != NULL);
+			Assert(rel->rd_rel->relkind == RELKIND_PARTITIONED_TABLE);
+			ATExecSplitPartition(wqueue, tab, rel, (PartitionCmd *) cmd->def,
+								 context);
+			break;
 		default:				/* oops */
 			elog(ERROR, "unrecognized alter table type: %d",
 				 (int) cmd->subtype);
@@ -6726,6 +6746,8 @@ alter_table_type_to_string(AlterTableType cmdtype)
 			return "DETACH PARTITION ... FINALIZE";
 		case AT_MergePartitions:
 			return "MERGE PARTITIONS";
+		case AT_SplitPartition:
+			return "SPLIT PARTITION";
 		case AT_AddIdentity:
 			return "ALTER COLUMN ... ADD IDENTITY";
 		case AT_SetIdentity:
@@ -22909,3 +22931,446 @@ ATExecMergePartitions(List **wqueue, AlteredTableInfo *tab, Relation rel,
 	/* Restore userid and security context. */
 	SetUserIdAndSecContext(save_userid, save_sec_context);
 }
+
+
+/*
+ * Struct with context of new partition for inserting rows from split partition
+ */
+typedef struct SplitPartitionContext
+{
+	ExprState  *partqualstate;	/* expression for checking slot for partition
+								 * (NULL for DEFAULT partition) */
+	BulkInsertState bistate;	/* state of bulk inserts for partition */
+	TupleTableSlot *dstslot;	/* slot for inserting row into partition */
+	AlteredTableInfo *tab;		/* structore with generated column expressions
+								 * and check constraint expresssions. */
+	Relation	partRel;		/* relation for partition */
+} SplitPartitionContext;
+
+/*
+ * createSplitPartitionContext: create context for partition and fill it
+ */
+static SplitPartitionContext *
+createSplitPartitionContext(Relation partRel)
+{
+	SplitPartitionContext *pc;
+
+	pc = (SplitPartitionContext *) palloc0(sizeof(SplitPartitionContext));
+	pc->partRel = partRel;
+
+	/*
+	 * Prepare a BulkInsertState for table_tuple_insert. The FSM is empty, so
+	 * don't bother using it.
+	 */
+	pc->bistate = GetBulkInsertState();
+
+	/* Create tuple slot for new partition. */
+	pc->dstslot = table_slot_create(pc->partRel, NULL);
+
+	return pc;
+}
+
+/*
+ * deleteSplitPartitionContext: delete context for partition
+ */
+static void
+deleteSplitPartitionContext(SplitPartitionContext *pc, List **wqueue, int ti_options)
+{
+	ListCell   *ltab;
+
+	ExecDropSingleTupleTableSlot(pc->dstslot);
+	FreeBulkInsertState(pc->bistate);
+
+	table_finish_bulk_insert(pc->partRel, ti_options);
+
+	/*
+	 * We don't need process this pc->partRel so delete the ALTER TABLE queue
+	 * of it.
+	 */
+	foreach(ltab, *wqueue)
+	{
+		AlteredTableInfo *tab = (AlteredTableInfo *) lfirst(ltab);
+		if (tab->relid == RelationGetRelid(pc->partRel))
+			*wqueue = list_delete_cell(*wqueue, ltab);
+	}
+
+	pfree(pc);
+}
+
+/*
+ * SplitPartitionMoveRows: scan split partition (splitRel) of partitioned table
+ * (rel) and move rows into new partitions.
+ *
+ * New partitions description:
+ * partlist: list of pointers to SinglePartitionSpec structures.
+ * newPartRels: list of Relations.
+ * defaultPartOid: oid of DEFAULT partition, for table rel.
+ */
+static void
+SplitPartitionMoveRows(List **wqueue, Relation rel, Relation splitRel,
+					   List *partlist, List *newPartRels, Oid defaultPartOid)
+{
+	/* The FSM is empty, so don't bother using it. */
+	int			ti_options = TABLE_INSERT_SKIP_FSM;
+	CommandId	mycid;
+	EState	   *estate;
+	ListCell   *listptr,
+			   *listptr2;
+	TupleTableSlot *srcslot;
+	ExprContext *econtext;
+	TableScanDesc scan;
+	Snapshot	snapshot;
+	MemoryContext oldCxt;
+	List	   *partContexts = NIL;
+	TupleConversionMap *tuple_map;
+	SplitPartitionContext *defaultPartCtx = NULL,
+			   *pc;
+	bool		isOldDefaultPart = false;
+
+	mycid = GetCurrentCommandId(true);
+
+	estate = CreateExecutorState();
+
+	forboth(listptr, partlist, listptr2, newPartRels)
+	{
+		SinglePartitionSpec *sps = (SinglePartitionSpec *) lfirst(listptr);
+
+		pc = createSplitPartitionContext((Relation) lfirst(listptr2));
+
+		/* Find the work queue entry for new partition table: newPartRel. */
+		pc->tab = ATGetQueueEntry(wqueue, pc->partRel);
+
+		buildExpressionExecutionStates(pc->tab, pc->partRel, estate);
+
+		if (sps->bound->is_default)
+		{
+			/* We should not create constraint for detached DEFAULT partition. */
+			defaultPartCtx = pc;
+		}
+		else
+		{
+			List	   *partConstraint;
+
+			/* Build expression execution states for partition check quals. */
+			partConstraint = get_qual_from_partbound(rel, sps->bound);
+			partConstraint =
+				(List *) eval_const_expressions(NULL,
+												(Node *) partConstraint);
+			/* Make boolean expression for ExecCheck(). */
+			partConstraint = list_make1(make_ands_explicit(partConstraint));
+
+			/*
+			 * Map the vars in the constraint expression from rel's attnos to
+			 * splitRel's.
+			 */
+			partConstraint = map_partition_varattnos(partConstraint,
+													 1, splitRel, rel);
+
+			pc->partqualstate =
+				ExecPrepareExpr((Expr *) linitial(partConstraint), estate);
+			Assert(pc->partqualstate != NULL);
+		}
+
+		/* Store partition context into list. */
+		partContexts = lappend(partContexts, pc);
+	}
+
+	/*
+	 * Create partition context for DEFAULT partition. We can insert values
+	 * into this partition in case spaces with values between new partitions.
+	 */
+	if (!defaultPartCtx && OidIsValid(defaultPartOid))
+	{
+		/* Indicate that we allocate context for old DEFAULT partition */
+		isOldDefaultPart = true;
+		defaultPartCtx = createSplitPartitionContext(table_open(defaultPartOid, AccessExclusiveLock));
+
+		/* Find the work queue entry for default partition table. */
+		defaultPartCtx->tab = ATGetQueueEntry(wqueue, defaultPartCtx->partRel);
+	}
+
+	econtext = GetPerTupleExprContext(estate);
+
+	/* Create necessary tuple slot. */
+	srcslot = table_slot_create(splitRel, NULL);
+
+	/*
+	 * Map computing for moving attributes of split partition to new partition
+	 * (for first new partition, but other new partitions can use the same
+	 * map).
+	 */
+	pc = (SplitPartitionContext *) lfirst(list_head(partContexts));
+	tuple_map = convert_tuples_by_name(RelationGetDescr(splitRel),
+									   RelationGetDescr(pc->partRel));
+
+	/* Scan through the rows. */
+	snapshot = RegisterSnapshot(GetLatestSnapshot());
+	scan = table_beginscan(splitRel, snapshot, 0, NULL);
+
+	/*
+	 * Switch to per-tuple memory context and reset it for each tuple
+	 * produced, so we don't leak memory.
+	 */
+	oldCxt = MemoryContextSwitchTo(GetPerTupleMemoryContext(estate));
+
+	while (table_scan_getnextslot(scan, ForwardScanDirection, srcslot))
+	{
+		bool		found = false;
+		TupleTableSlot *insertslot;
+
+		CHECK_FOR_INTERRUPTS();
+
+		econtext->ecxt_scantuple = srcslot;
+
+		/* Search partition for current slot srcslot. */
+		foreach(listptr, partContexts)
+		{
+			pc = (SplitPartitionContext *) lfirst(listptr);
+
+			if (pc->partqualstate /* skip DEFAULT partition */ &&
+				ExecCheck(pc->partqualstate, econtext))
+			{
+				found = true;
+				break;
+			}
+			ResetExprContext(econtext);
+		}
+		if (!found)
+		{
+			/* Use DEFAULT partition if it exists. */
+			if (defaultPartCtx)
+				pc = defaultPartCtx;
+			else
+				ereport(ERROR,
+						errcode(ERRCODE_CHECK_VIOLATION),
+						errmsg("can not find partition for split partition row"),
+						errtable(splitRel));
+		}
+
+		if (tuple_map)
+		{
+			/* Need to use map to copy attributes. */
+			insertslot = execute_attr_map_slot(tuple_map->attrMap, srcslot, pc->dstslot);
+		}
+		else
+		{
+			/* Extract data from old tuple. */
+			slot_getallattrs(srcslot);
+
+			/* Copy attributes directly. */
+			insertslot = pc->dstslot;
+
+			ExecClearTuple(insertslot);
+
+			memcpy(insertslot->tts_values, srcslot->tts_values,
+				   sizeof(Datum) * srcslot->tts_nvalid);
+			memcpy(insertslot->tts_isnull, srcslot->tts_isnull,
+				   sizeof(bool) * srcslot->tts_nvalid);
+
+			ExecStoreVirtualTuple(insertslot);
+		}
+
+		/*
+		 * Constraints and GENERATED expressions might reference the tableoid
+		 * column, so fill tts_tableOid with the desired value. (We must do
+		 * this each time, because it gets overwritten with newrel's OID during
+		 * storing.)
+		 */
+		insertslot->tts_tableOid = RelationGetRelid(pc->partRel);
+
+		/*
+		 * Now, evaluate any generated expressions whose inputs come from
+		 * the new tuple.  We assume these columns won't reference each
+		 * other, so that there's no ordering dependency.
+		 */
+		evaluateGeneratedExpressionsAndCheckConstraints(pc->tab, pc->partRel,
+														insertslot, econtext);
+
+		/* Write the tuple out to the new relation. */
+		table_tuple_insert(pc->partRel, insertslot, mycid,
+						   ti_options, pc->bistate);
+
+		ResetExprContext(econtext);
+	}
+
+	MemoryContextSwitchTo(oldCxt);
+
+	table_endscan(scan);
+	UnregisterSnapshot(snapshot);
+
+	if (tuple_map)
+		free_conversion_map(tuple_map);
+
+	ExecDropSingleTupleTableSlot(srcslot);
+
+	FreeExecutorState(estate);
+
+	foreach_ptr(SplitPartitionContext, spc, partContexts)
+		deleteSplitPartitionContext(spc, wqueue, ti_options);
+
+	/* Need to close table and free buffers for DEFAULT partition. */
+	if (isOldDefaultPart)
+	{
+		Relation	defaultPartRel = defaultPartCtx->partRel;
+
+		deleteSplitPartitionContext(defaultPartCtx, wqueue, ti_options);
+		/* Keep the lock until commit. */
+		table_close(defaultPartRel, NoLock);
+	}
+}
+
+/*
+ * ALTER TABLE <name> SPLIT PARTITION <partition-name> INTO <partition-list>
+ */
+static void
+ATExecSplitPartition(List **wqueue, AlteredTableInfo *tab, Relation rel,
+					 PartitionCmd *cmd, AlterTableUtilityContext *context)
+{
+	Relation	splitRel;
+	Oid			splitRelOid;
+	char		relname[NAMEDATALEN];
+	ListCell   *listptr,
+			   *listptr2;
+	bool		isSameName = false;
+	char		tmpRelName[NAMEDATALEN];
+	List	   *newPartRels = NIL;
+	ObjectAddress object;
+	Oid			defaultPartOid;
+	Oid			save_userid;
+	int			save_sec_context;
+	int			save_nestlevel;
+
+	defaultPartOid = get_default_oid_from_partdesc(RelationGetPartitionDesc(rel, true));
+
+	/*
+	 * Partition is already locked in the transformPartitionCmdForSplit
+	 * function.
+	 */
+	splitRel = table_openrv(cmd->name, NoLock);
+
+	splitRelOid = RelationGetRelid(splitRel);
+
+	/* Check descriptions of new partitions. */
+	foreach_node(SinglePartitionSpec, sps, cmd->partlist)
+	{
+		Oid			existingRelid;
+
+		strlcpy(relname, sps->name->relname, NAMEDATALEN);
+
+		/*
+		 * Look up existing relation by new partition name, check we have
+		 * permission to create there, lock it against concurrent drop, and mark
+		 * stmt->relation as RELPERSISTENCE_TEMP if a temporary namespace is
+		 * selected.
+		 */
+		sps->name->relpersistence = rel->rd_rel->relpersistence;
+		RangeVarGetAndCheckCreationNamespace(sps->name, NoLock, &existingRelid);
+
+		/*
+		 * This would fail later on anyway if the relation already exists. But
+		 * by catching it here we can emit a nicer error message.
+		 */
+		if (existingRelid == splitRelOid && !isSameName)
+			/* One new partition can have the same name as split partition. */
+			isSameName = true;
+		else if (OidIsValid(existingRelid))
+			ereport(ERROR,
+					errcode(ERRCODE_DUPLICATE_TABLE),
+					errmsg("relation \"%s\" already exists", relname));
+	}
+
+	/* Detach split partition. */
+	detachPartitionTable(rel, splitRel, defaultPartOid);
+
+	/*
+	 * Perform a preliminary check to determine whether it's safe to drop all
+	 * merging partitions before we actually do so later. After merging rows
+	 * into the new partitions via SplitPartitionMoveRows, all old partitions
+	 * need be dropped. However, since the drop behavior is DROP_RESTRICT and
+	 * the merge process (SplitPartitionMoveRows) can be time-consuming,
+	 * performing an early check on the drop eligibility of old partitions is
+	 * preferable.
+	 */
+	object.objectId = splitRelOid;
+	object.classId = RelationRelationId;
+	object.objectSubId = 0;
+	performDeletionCheck(&object, DROP_RESTRICT, PERFORM_DELETION_INTERNAL);
+
+	/*
+	 * If new partition has the same name as split partition then we should
+	 * rename split partition for reusing name.
+	 */
+	if (isSameName)
+	{
+		/*
+		 * We must bump the command counter to make the split partition tuple
+		 * visible for renaming.
+		 */
+		CommandCounterIncrement();
+		/* Rename partition. */
+		sprintf(tmpRelName, "split-%u-%X-tmp", RelationGetRelid(rel), MyProcPid);
+		RenameRelationInternal(splitRelOid, tmpRelName, true, false);
+
+		/*
+		 * We must bump the command counter to make the split partition tuple
+		 * visible after renaming.
+		 */
+		CommandCounterIncrement();
+	}
+
+	/* Create new partitions (like split partition), without indexes. */
+	foreach_node(SinglePartitionSpec, sps, cmd->partlist)
+	{
+		Relation	newPartRel;
+
+		newPartRel = createPartitionTable(wqueue, sps->name, rel,
+										  splitRel->rd_rel->relowner);
+		newPartRels = lappend(newPartRels, newPartRel);
+	}
+
+	/*
+	 * Switch to the table owner's userid, so that any index functions are run
+	 * as that user.  Also lock down security-restricted operations and
+	 * arrange to make GUC variable changes local to this command.
+	 *
+	 * Need to do it after determine namespace in createPartitionTable call.
+	 */
+	GetUserIdAndSecContext(&save_userid, &save_sec_context);
+	SetUserIdAndSecContext(splitRel->rd_rel->relowner,
+						   save_sec_context | SECURITY_RESTRICTED_OPERATION);
+	save_nestlevel = NewGUCNestLevel();
+	RestrictSearchPath();
+
+	/* Copy data from split partition to new partitions. */
+	SplitPartitionMoveRows(wqueue, rel, splitRel, cmd->partlist, newPartRels, defaultPartOid);
+	/* Keep the lock until commit. */
+	table_close(splitRel, NoLock);
+
+	/* Attach new partitions to partitioned table. */
+	forboth(listptr, cmd->partlist, listptr2, newPartRels)
+	{
+		SinglePartitionSpec *sps = (SinglePartitionSpec *) lfirst(listptr);
+		Relation	newPartRel = (Relation) lfirst(listptr2);
+
+		/*
+		 * wqueue = NULL: verification for each cloned constraint is not
+		 * needed.
+		 */
+		attachPartitionTable(NULL, rel, newPartRel, sps->bound);
+		/* Keep the lock until commit. */
+		table_close(newPartRel, NoLock);
+	}
+
+	/* Drop split partition. */
+	object.classId = RelationRelationId;
+	object.objectId = splitRelOid;
+	object.objectSubId = 0;
+	/* Probably DROP_CASCADE is not needed. */
+	performDeletion(&object, DROP_RESTRICT, 0);
+
+	/* Roll back any GUC changes executed by index functions. */
+	AtEOXact_GUC(false, save_nestlevel);
+
+	/* Restore userid and security context. */
+	SetUserIdAndSecContext(save_userid, save_sec_context);
+}
diff --git a/src/backend/parser/gram.y b/src/backend/parser/gram.y
index 46bbdcbc74..aed79b63da 100644
--- a/src/backend/parser/gram.y
+++ b/src/backend/parser/gram.y
@@ -257,6 +257,7 @@ static Node *makeRecursiveViewSelect(char *relname, List *aliases, Node *query);
 	PartitionElem *partelem;
 	PartitionSpec *partspec;
 	PartitionBoundSpec *partboundspec;
+	SinglePartitionSpec *singlepartspec;
 	RoleSpec   *rolespec;
 	PublicationObjSpec *publicationobjectspec;
 	struct SelectLimit *selectlimit;
@@ -640,6 +641,8 @@ static Node *makeRecursiveViewSelect(char *relname, List *aliases, Node *query);
 %type <partelem>	part_elem
 %type <list>		part_params
 %type <partboundspec> PartitionBoundSpec
+%type <singlepartspec>	SinglePartitionSpec
+%type <list>		partitions_list
 %type <list>		hash_partbound
 %type <defelt>		hash_partbound_elem
 
@@ -770,7 +773,7 @@ static Node *makeRecursiveViewSelect(char *relname, List *aliases, Node *query);
 	SAVEPOINT SCALAR SCHEMA SCHEMAS SCROLL SEARCH SECOND_P SECURITY SELECT
 	SEQUENCE SEQUENCES
 	SERIALIZABLE SERVER SESSION SESSION_USER SET SETS SETOF SHARE SHOW
-	SIMILAR SIMPLE SKIP SMALLINT SNAPSHOT SOME SOURCE SQL_P STABLE STANDALONE_P
+	SIMILAR SIMPLE SKIP SMALLINT SNAPSHOT SOME SPLIT SOURCE SQL_P STABLE STANDALONE_P
 	START STATEMENT STATISTICS STDIN STDOUT STORAGE STORED STRICT_P STRING_P STRIP_P
 	SUBSCRIPTION SUBSTRING SUPPORT SYMMETRIC SYSID SYSTEM_P SYSTEM_USER
 
@@ -2321,6 +2324,23 @@ alter_table_cmds:
 			| alter_table_cmds ',' alter_table_cmd	{ $$ = lappend($1, $3); }
 		;
 
+partitions_list:
+			SinglePartitionSpec							{ $$ = list_make1($1); }
+			| partitions_list ',' SinglePartitionSpec	{ $$ = lappend($1, $3); }
+		;
+
+SinglePartitionSpec:
+			PARTITION qualified_name PartitionBoundSpec
+				{
+					SinglePartitionSpec *n = makeNode(SinglePartitionSpec);
+
+					n->name = $2;
+					n->bound = $3;
+
+					$$ = n;
+				}
+		;
+
 partition_cmd:
 			/* ALTER TABLE <name> ATTACH PARTITION <table_name> FOR VALUES */
 			ATTACH PARTITION qualified_name PartitionBoundSpec
@@ -2365,6 +2385,20 @@ partition_cmd:
 					n->def = (Node *) cmd;
 					$$ = (Node *) n;
 				}
+			/* ALTER TABLE <name> SPLIT PARTITION <partition_name> INTO () */
+			| SPLIT PARTITION qualified_name INTO '(' partitions_list ')'
+				{
+					AlterTableCmd *n = makeNode(AlterTableCmd);
+					PartitionCmd *cmd = makeNode(PartitionCmd);
+
+					n->subtype = AT_SplitPartition;
+					cmd->name = $3;
+					cmd->bound = NULL;
+					cmd->partlist = $6;
+					cmd->concurrent = false;
+					n->def = (Node *) cmd;
+					$$ = (Node *) n;
+				}
 			/* ALTER TABLE <name> MERGE PARTITIONS () INTO <partition_name> */
 			| MERGE PARTITIONS '(' qualified_name_list ')' INTO qualified_name
 				{
@@ -17963,6 +17997,7 @@ unreserved_keyword:
 			| SKIP
 			| SNAPSHOT
 			| SOURCE
+			| SPLIT
 			| SQL_P
 			| STABLE
 			| STANDALONE_P
@@ -18603,6 +18638,7 @@ bare_label_keyword:
 			| SNAPSHOT
 			| SOME
 			| SOURCE
+			| SPLIT
 			| SQL_P
 			| STABLE
 			| STANDALONE_P
diff --git a/src/backend/parser/parse_utilcmd.c b/src/backend/parser/parse_utilcmd.c
index f55ad17528..73315efac8 100644
--- a/src/backend/parser/parse_utilcmd.c
+++ b/src/backend/parser/parse_utilcmd.c
@@ -137,7 +137,7 @@ static void transformConstraintAttrs(CreateStmtContext *cxt,
 									 List *constraintList);
 static void transformColumnType(CreateStmtContext *cxt, ColumnDef *column);
 static void setSchemaName(const char *context_schema, char **stmt_schema_name);
-static void transformPartitionCmd(CreateStmtContext *cxt, PartitionCmd *cmd);
+static void transformPartitionCmd(CreateStmtContext *cxt, PartitionBoundSpec *bound);
 static List *transformPartitionRangeBounds(ParseState *pstate, List *blist,
 										   Relation parent);
 static void validateInfiniteBounds(ParseState *pstate, List *blist);
@@ -3526,6 +3526,46 @@ checkPartition(Relation rel, Oid partRelOid)
 	table_close(partRel, NoLock);
 }
 
+/*
+ * transformPartitionCmdForSplit
+ *		Analyze the ALTER TABLE ... SPLIT PARTITION command
+ *
+ * For each new partition sps->bound is set to the transformed value of bound.
+ * Does checks for bounds of new partitions.
+ */
+static void
+transformPartitionCmdForSplit(CreateStmtContext *cxt, PartitionCmd *partcmd)
+{
+	Relation	parent = cxt->rel;
+	Oid			splitPartOid;
+
+	/* Transform partition bounds for all partitions in the list: */
+	foreach_node(SinglePartitionSpec, sps, partcmd->partlist)
+	{
+		cxt->partbound = NULL;
+		transformPartitionCmd(cxt, sps->bound);
+		/* Assign transformed value of the partition bound. */
+		sps->bound = cxt->partbound;
+	}
+
+	/*
+	 * Open and lock partition, check ownership along the way. We need to use
+	 * AccessExclusiveLock here, because this split partition will be detached
+	 * then dropped in ATExecSplitPartition.
+	 */
+	splitPartOid = RangeVarGetRelidExtended(partcmd->name,
+											AccessExclusiveLock,
+											false,
+											RangeVarCallbackOwnsRelation,
+											NULL);
+
+	checkPartition(parent, splitPartOid);
+
+	/* Then we should check partitions with transformed bounds. */
+	check_partitions_for_split(parent, splitPartOid, partcmd->partlist, cxt->pstate);
+}
+
+
 /*
  * transformPartitionCmdForMerge
  *		Analyze the ALTER TABLE ... MERGE PARTITIONS command
@@ -3892,7 +3932,7 @@ transformAlterTableStmt(Oid relid, AlterTableStmt *stmt,
 				{
 					PartitionCmd *partcmd = (PartitionCmd *) cmd->def;
 
-					transformPartitionCmd(&cxt, partcmd);
+					transformPartitionCmd(&cxt, partcmd->bound);
 					/* assign transformed value of the partition bound */
 					partcmd->bound = cxt.partbound;
 				}
@@ -3900,6 +3940,7 @@ transformAlterTableStmt(Oid relid, AlterTableStmt *stmt,
 				newcmds = lappend(newcmds, cmd);
 				break;
 
+			case AT_SplitPartition:
 			case AT_MergePartitions:
 				{
 					PartitionCmd *partcmd = (PartitionCmd *) cmd->def;
@@ -3908,7 +3949,11 @@ transformAlterTableStmt(Oid relid, AlterTableStmt *stmt,
 						ereport(ERROR,
 								errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
 								errmsg("list of new partitions should contain at least two items"));
-					transformPartitionCmdForMerge(&cxt, partcmd);
+
+					if (cmd->subtype == AT_SplitPartition)
+						transformPartitionCmdForSplit(&cxt, partcmd);
+					else
+						transformPartitionCmdForMerge(&cxt, partcmd);
 					newcmds = lappend(newcmds, cmd);
 					break;
 				}
@@ -4343,13 +4388,13 @@ setSchemaName(const char *context_schema, char **stmt_schema_name)
 
 /*
  * transformPartitionCmd
- *		Analyze the ATTACH/DETACH PARTITION command
+ *		Analyze the ATTACH/DETACH/SPLIT PARTITION command
  *
- * In case of the ATTACH PARTITION command, cxt->partbound is set to the
- * transformed value of cmd->bound.
+ * In case of the ATTACH/SPLIT PARTITION command, cxt->partbound is set to the
+ * transformed value of bound.
  */
 static void
-transformPartitionCmd(CreateStmtContext *cxt, PartitionCmd *cmd)
+transformPartitionCmd(CreateStmtContext *cxt, PartitionBoundSpec *bound)
 {
 	Relation	parentRel = cxt->rel;
 
@@ -4358,9 +4403,9 @@ transformPartitionCmd(CreateStmtContext *cxt, PartitionCmd *cmd)
 		case RELKIND_PARTITIONED_TABLE:
 			/* transform the partition bound, if any */
 			Assert(RelationGetPartitionKey(parentRel) != NULL);
-			if (cmd->bound != NULL)
+			if (bound != NULL)
 				cxt->partbound = transformPartitionBound(cxt->pstate, parentRel,
-														 cmd->bound);
+														 bound);
 			break;
 		case RELKIND_PARTITIONED_INDEX:
 
@@ -4368,7 +4413,7 @@ transformPartitionCmd(CreateStmtContext *cxt, PartitionCmd *cmd)
 			 * A partitioned index cannot have a partition bound set.  ALTER
 			 * INDEX prevents that with its grammar, but not ALTER TABLE.
 			 */
-			if (cmd->bound != NULL)
+			if (bound != NULL)
 				ereport(ERROR,
 						(errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
 						 errmsg("\"%s\" is not a partitioned table",
diff --git a/src/backend/partitioning/partbounds.c b/src/backend/partitioning/partbounds.c
index ea33c15194..e1c1416b1e 100644
--- a/src/backend/partitioning/partbounds.c
+++ b/src/backend/partitioning/partbounds.c
@@ -4983,15 +4983,21 @@ satisfies_hash_partition(PG_FUNCTION_ARGS)
  *
  * (function for BY RANGE partitioning)
  *
- * This is a helper function for calculate_partition_bound_for_merge().
+ * This is a helper function for check_partitions_for_split() and
+ * calculate_partition_bound_for_merge().
  * This function compares upper bound of first_bound and lower bound of
- * second_bound. These bounds should be equal.
+ * second_bound. These bounds should be equal except when
+ * "defaultPart == true" (this means that one of split partitions is DEFAULT).
+ * In this case upper bound of first_bound can be less than lower bound of
+ * second_bound because space between these bounds will be included in
+ * DEFAULT partition.
  *
  * parent:			partitioned table
  * first_name:		name of first partition
  * first_bound:		bound of first partition
  * second_name:		name of second partition
  * second_bound:	bound of second partition
+ * defaultPart:		true if one of split partitions is DEFAULT
  * pstate:			pointer to ParseState struct for determining error position
  */
 static void
@@ -5000,6 +5006,7 @@ check_two_partitions_bounds_range(Relation parent,
 								  PartitionBoundSpec *first_bound,
 								  RangeVar *second_name,
 								  PartitionBoundSpec *second_bound,
+								  bool defaultPart,
 								  ParseState *pstate)
 {
 	PartitionKey key = RelationGetPartitionKey(parent);
@@ -5021,7 +5028,7 @@ check_two_partitions_bounds_range(Relation parent,
 								  key->partcollation,
 								  second_lower->datums, second_lower->kind,
 								  false, first_upper);
-	if (cmpval)
+	if ((!defaultPart && cmpval) || (defaultPart && cmpval < 0))
 	{
 		PartitionRangeDatum *datum = linitial(second_bound->lowerdatums);
 
@@ -5133,7 +5140,7 @@ calculate_partition_bound_for_merge(Relation parent,
 													  (PartitionBoundSpec *) list_nth(bounds, prev_index),
 													  (RangeVar *) list_nth(partNames, index),
 													  (PartitionBoundSpec *) list_nth(bounds, index),
-													  pstate);
+													  false, pstate);
 				}
 
 				/*
@@ -5171,3 +5178,672 @@ calculate_partition_bound_for_merge(Relation parent,
 				 (int) key->strategy);
 	}
 }
+
+/*
+ * check_partitions_not_overlap_list
+ *
+ * (function for BY LIST partitioning)
+ *
+ * This is a helper function for check_partitions_for_split().
+ * Checks that the values of the new partitions do not overlap.
+ *
+ * parent:	partitioned table
+ * parts:	array of SinglePartitionSpec structs with info about split partitions
+ * nparts:	size of array "parts"
+ */
+static void
+check_partitions_not_overlap_list(Relation parent,
+								  SinglePartitionSpec **parts,
+								  int nparts,
+								  ParseState *pstate)
+{
+	PartitionKey key PG_USED_FOR_ASSERTS_ONLY = RelationGetPartitionKey(parent);
+	int			overlap_location = -1;
+	int			i,
+				j;
+	SinglePartitionSpec *sps1,
+			   *sps2;
+	List	   *overlap;
+
+	Assert(key->strategy == PARTITION_STRATEGY_LIST);
+
+	for (i = 0; i < nparts; i++)
+	{
+		sps1 = parts[i];
+
+		for (j = i + 1; j < nparts; j++)
+		{
+			sps2 = parts[j];
+
+			/*
+			 * Calculate intersection between values of two partitions.
+			 */
+			overlap = list_intersection(sps1->bound->listdatums,
+										sps2->bound->listdatums);
+			if (list_length(overlap) > 0)
+			{
+				Const	   *val = (Const *) lfirst(list_head(overlap));
+
+				overlap_location = val->location;
+				ereport(ERROR,
+						errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
+						errmsg("new partition \"%s\" would overlap with another new partition \"%s\"",
+							   sps1->name->relname, sps2->name->relname),
+						parser_errposition(pstate, overlap_location));
+			}
+		}
+	}
+}
+
+/*
+ * check_partition_bounds_for_split_range
+ *
+ * (function for BY RANGE partitioning)
+ *
+ * Checks that bounds of new partition "spec" are inside bounds of split
+ * partition (with Oid splitPartOid). If first=true (this means that "spec" is
+ * the first of new partitions) then lower bound of "spec" should be equal (or
+ * greater than or equal in case defaultPart=true) to lower bound of split
+ * partition. If last=true (this means that "spec" is the last of new
+ * partitions) then upper bound of "spec" should be equal (or less than or
+ * equal in case defaultPart=true) to upper bound of split partition.
+ *
+ * parent:			partitioned table
+ * relname:			name of the new partition
+ * spec:			bounds specification of the new partition
+ * splitPartOid:	split partition Oid
+ * first:			true in case new partition "spec" is first of new partitions
+ * last:			true in case new partition "spec" is last of new partitions
+ * defaultPart:		true in case partitioned table has DEFAULT partition
+ * pstate:			pointer to ParseState struct for determine error position
+ */
+static void
+check_partition_bounds_for_split_range(Relation parent,
+									   char *relname,
+									   PartitionBoundSpec *spec,
+									   Oid splitPartOid,
+									   bool first,
+									   bool last,
+									   bool defaultPart,
+									   ParseState *pstate)
+{
+	PartitionKey key = RelationGetPartitionKey(parent);
+	PartitionRangeBound *lower,
+			   *upper;
+	int			cmpval;
+
+	Assert(key->strategy == PARTITION_STRATEGY_RANGE);
+	Assert(spec->strategy == PARTITION_STRATEGY_RANGE);
+
+	lower = make_one_partition_rbound(key, -1, spec->lowerdatums, true);
+	upper = make_one_partition_rbound(key, -1, spec->upperdatums, false);
+
+	/*
+	 * First check if the resulting range would be empty with specified lower
+	 * and upper bounds.  partition_rbound_cmp cannot return zero here, since
+	 * the lower-bound flags are different.
+	 */
+	cmpval = partition_rbound_cmp(key->partnatts,
+								  key->partsupfunc,
+								  key->partcollation,
+								  lower->datums, lower->kind,
+								  true, upper);
+	Assert(cmpval != 0);
+	if (cmpval > 0)
+	{
+		/* Point to problematic key in the lower datums list. */
+		PartitionRangeDatum *datum = list_nth(spec->lowerdatums, cmpval - 1);
+
+		ereport(ERROR,
+				errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
+				errmsg("empty range bound specified for partition \"%s\"",
+					   relname),
+				errdetail("Specified lower bound %s is greater than or equal to upper bound %s.",
+						  get_range_partbound_string(spec->lowerdatums),
+						  get_range_partbound_string(spec->upperdatums)),
+				parser_errposition(pstate, datum->location));
+	}
+
+	/* Need to check first and last partitions (from set of new partitions) */
+	if (first || last)
+	{
+		PartitionBoundSpec *split_spec = get_partition_bound_spec(splitPartOid);
+		PartitionRangeDatum *datum;
+
+		if (first)
+		{
+			PartitionRangeBound *split_lower;
+
+			split_lower = make_one_partition_rbound(key, -1, split_spec->lowerdatums, true);
+
+			cmpval = partition_rbound_cmp(key->partnatts,
+										  key->partsupfunc,
+										  key->partcollation,
+										  lower->datums, lower->kind,
+										  true, split_lower);
+
+			/*
+			 * Lower bound of "spec" should be equal (or greater than or equal
+			 * in case defaultPart=true) to lower bound of split partition.
+			 */
+			if (!defaultPart)
+			{
+				if (cmpval != 0)
+				{
+					datum = list_nth(spec->lowerdatums, abs(cmpval) - 1);
+					ereport(ERROR,
+							errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
+							errmsg("lower bound of partition \"%s\" is not equal to lower bound of split partition",
+								   relname),
+							parser_errposition(pstate, datum->location));
+				}
+			}
+			else
+			{
+				if (cmpval < 0)
+				{
+					datum = list_nth(spec->lowerdatums, abs(cmpval) - 1);
+					ereport(ERROR,
+							errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
+							errmsg("lower bound of partition \"%s\" is less than lower bound of split partition",
+								   relname),
+							parser_errposition(pstate, datum->location));
+				}
+			}
+		}
+		else
+		{
+			PartitionRangeBound *split_upper;
+
+			split_upper = make_one_partition_rbound(key, -1, split_spec->upperdatums, false);
+
+			cmpval = partition_rbound_cmp(key->partnatts,
+										  key->partsupfunc,
+										  key->partcollation,
+										  upper->datums, upper->kind,
+										  false, split_upper);
+
+			/*
+			 * Upper bound of "spec" should be equal (or less than or equal in
+			 * case defaultPart=true) to upper bound of split partition.
+			 */
+			if (!defaultPart)
+			{
+				if (cmpval != 0)
+				{
+					datum = list_nth(spec->upperdatums, abs(cmpval) - 1);
+					ereport(ERROR,
+							errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
+							errmsg("upper bound of partition \"%s\" is not equal to upper bound of split partition",
+								   relname),
+							parser_errposition(pstate, datum->location));
+				}
+			}
+			else
+			{
+				if (cmpval > 0)
+				{
+					datum = list_nth(spec->upperdatums, abs(cmpval) - 1);
+					ereport(ERROR,
+							errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
+							errmsg("upper bound of partition \"%s\" is greater than upper bound of split partition",
+								   relname),
+							parser_errposition(pstate, datum->location));
+				}
+			}
+		}
+	}
+}
+
+/*
+ * check_partition_bounds_for_split_list
+ *
+ * (function for BY LIST partitioning)
+ *
+ * Checks that bounds of new partition are inside bounds of split partition
+ * (with Oid splitPartOid).
+ *
+ * parent:			partitioned table
+ * relname:			name of the new partition
+ * spec:			bounds specification of the new partition
+ * splitPartOid:	split partition Oid
+ * pstate:			pointer to ParseState struct for determine error position
+ */
+static void
+check_partition_bounds_for_split_list(Relation parent, char *relname,
+									  PartitionBoundSpec *spec,
+									  Oid splitPartOid,
+									  ParseState *pstate)
+{
+	PartitionKey key = RelationGetPartitionKey(parent);
+	PartitionDesc partdesc = RelationGetPartitionDesc(parent, false);
+	PartitionBoundInfo boundinfo = partdesc->boundinfo;
+	int			with = -1;
+	bool		overlap = false;
+	int			overlap_location = -1;
+
+	Assert(key->strategy == PARTITION_STRATEGY_LIST);
+	Assert(spec->strategy == PARTITION_STRATEGY_LIST);
+	Assert(boundinfo && boundinfo->strategy == PARTITION_STRATEGY_LIST);
+
+	/*
+	 * Search each value of new partition "spec" in existing partitions. All
+	 * of them should be in split partition (with Oid splitPartOid).
+	 */
+	foreach_node(Const, val, spec->listdatums)
+	{
+		overlap_location = val->location;
+		if (!val->constisnull)
+		{
+			int			offset;
+			bool		equal;
+
+			offset = partition_list_bsearch(&key->partsupfunc[0],
+											key->partcollation,
+											boundinfo,
+											val->constvalue,
+											&equal);
+			if (offset >= 0 && equal)
+			{
+				with = boundinfo->indexes[offset];
+				if (partdesc->oids[with] != splitPartOid)
+				{
+					overlap = true;
+					break;
+				}
+			}
+			else
+				ereport(ERROR,
+						errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
+						errmsg("new partition \"%s\" cannot have this value because split partition does not have",
+							   relname),
+						parser_errposition(pstate, overlap_location));
+		}
+		else if (partition_bound_accepts_nulls(boundinfo))
+		{
+			with = boundinfo->null_index;
+			if (partdesc->oids[with] != splitPartOid)
+			{
+				overlap = true;
+				break;
+			}
+		}
+		else
+			ereport(ERROR,
+					errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
+					errmsg("new partition \"%s\" cannot have NULL value because split partition does not have",
+						   relname),
+					parser_errposition(pstate, overlap_location));
+	}
+
+	if (overlap)
+	{
+		Assert(with >= 0);
+		ereport(ERROR,
+				errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
+				errmsg("new partition \"%s\" would overlap with another (not split) partition \"%s\"",
+					   relname, get_rel_name(partdesc->oids[with])),
+				parser_errposition(pstate, overlap_location));
+	}
+}
+
+/*
+ * find_value_in_new_partitions_list
+ *
+ * (function for BY LIST partitioning)
+ *
+ * Function returns true in case any of new partitions contains value "value".
+ *
+ * partsupfunc:		information about comparison function associated with the partition key
+ * partcollation:	partitioning collation
+ * parts:			pointer to array with new partitions descriptions
+ * nparts:			number of new partitions
+ * value:			the value that we are looking for
+ * isnull:			true if the value that we are looking for is NULL
+ */
+static bool
+find_value_in_new_partitions_list(FmgrInfo *partsupfunc,
+								  Oid *partcollation,
+								  SinglePartitionSpec **parts,
+								  int nparts,
+								  Datum value,
+								  bool isnull)
+{
+	for (int i = 0; i < nparts; i++)
+	{
+		SinglePartitionSpec *sps = parts[i];
+
+		foreach_node(Const, val, sps->bound->listdatums)
+		{
+			if (isnull && val->constisnull)
+				return true;
+
+			if (!isnull && !val->constisnull)
+			{
+				if (DatumGetInt32(FunctionCall2Coll(&partsupfunc[0],
+													partcollation[0],
+													val->constvalue,
+													value)) == 0)
+					return true;
+			}
+		}
+	}
+	return false;
+}
+
+/*
+ * check_parent_values_in_new_partitions
+ *
+ * (function for BY LIST partitioning)
+ *
+ * Checks that all values of split partition (with Oid partOid) contains in new
+ * partitions.
+ *
+ * parent:	partitioned table
+ * partOid:	split partition Oid
+ * parts:	pointer to array with new partitions descriptions
+ * nparts:	number of new partitions
+ * pstate:	pointer to ParseState struct for determine error position
+ */
+static void
+check_parent_values_in_new_partitions(Relation parent,
+									  Oid partOid,
+									  SinglePartitionSpec **parts,
+									  int nparts,
+									  ParseState *pstate)
+{
+	PartitionKey key = RelationGetPartitionKey(parent);
+	PartitionDesc partdesc = RelationGetPartitionDesc(parent, false);
+	PartitionBoundInfo boundinfo = partdesc->boundinfo;
+	int			i;
+	bool		found = true;
+	bool		searchNull = false;
+	Datum		datum = PointerGetDatum(NULL);
+
+	Assert(key->strategy == PARTITION_STRATEGY_LIST);
+
+	/*
+	 * Special processing for NULL value. Search NULL value if the split
+	 * partition (partOid) contains it.
+	 */
+	if (partition_bound_accepts_nulls(boundinfo) &&
+		partdesc->oids[boundinfo->null_index] == partOid)
+	{
+		if (!find_value_in_new_partitions_list(&key->partsupfunc[0],
+											   key->partcollation, parts, nparts, datum, true))
+		{
+			found = false;
+			searchNull = true;
+		}
+	}
+
+	/*
+	 * Search all values of split partition with partOid in PartitionDesc of
+	 * partitioned table.
+	 */
+	for (i = 0; i < boundinfo->ndatums; i++)
+	{
+		if (partdesc->oids[boundinfo->indexes[i]] == partOid)
+		{
+			/* We found value that split partition contains. */
+			datum = boundinfo->datums[i][0];
+			if (!find_value_in_new_partitions_list(&key->partsupfunc[0],
+												   key->partcollation, parts, nparts, datum, false))
+			{
+				found = false;
+				break;
+			}
+		}
+	}
+
+	if (!found)
+	{
+		Const	   *notFoundVal;
+
+		if (!searchNull)
+
+			/*
+			 * Make Const for getting string representation of not found
+			 * value.
+			 */
+			notFoundVal = makeConst(key->parttypid[0],
+									key->parttypmod[0],
+									key->parttypcoll[0],
+									key->parttyplen[0],
+									datum,
+									false,	/* isnull */
+									key->parttypbyval[0]);
+
+		ereport(ERROR,
+				errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
+				errmsg("new partitions do not have value %s but split partition does",
+					   searchNull ? "NULL" : get_list_partvalue_string(notFoundVal)));
+	}
+}
+
+/*
+ * check_partitions_for_split
+ *
+ * Checks new partitions for SPLIT PARTITIONS command:
+ * 1. DEFAULT partition should be one.
+ * 2. New partitions should have different names
+ *    (with existing partitions too).
+ * 3. Bounds of new partitions should not overlap with new and existing
+ *    partitions.
+ * 4. In case split partition is DEFAULT partition, one of new partitions
+ *    should be DEFAULT.
+ * 5. In case new partitions or existing partitions contains DEFAULT
+ *    partition, new partitions can have any bounds inside split
+ *    partition bound (can be spaces between partitions bounds).
+ * 6. In case partitioned table does not have DEFAULT partition, DEFAULT
+ *    partition can be defined as one of new partition.
+ * 7. In case new partitions not contains DEFAULT partition and
+ *    partitioned table does not have DEFAULT partition the following
+ *    should be true: sum bounds of new partitions should be equal
+ *    to bound of split partition.
+ *
+ * parent:			partitioned table
+ * splitPartOid:	split partition Oid
+ * list:			list of new partitions
+ * pstate:			pointer to ParseState struct for determine error position
+ */
+void
+check_partitions_for_split(Relation parent,
+						   Oid splitPartOid,
+						   List *partlist,
+						   ParseState *pstate)
+{
+	PartitionKey key;
+	char		strategy;
+	Oid			defaultPartOid;
+	bool		isSplitPartDefault;
+	bool		existsDefaultPart;
+	int			default_index = -1;
+	int			i,
+				j;
+	SinglePartitionSpec **new_parts;
+	SinglePartitionSpec *spsPrev = NULL;
+	int			nparts = 0;
+
+	key = RelationGetPartitionKey(parent);
+	strategy = get_partition_strategy(key);
+
+	switch (strategy)
+	{
+		case PARTITION_STRATEGY_LIST:
+		case PARTITION_STRATEGY_RANGE:
+			{
+				/*
+				 * Make array new_parts with new partitions except DEFAULT
+				 * partition.
+				 */
+				new_parts = (SinglePartitionSpec **)
+					palloc0(list_length(partlist) * sizeof(SinglePartitionSpec *));
+				i = 0;
+				foreach_node(SinglePartitionSpec, sps, partlist)
+				{
+					if (sps->bound->is_default)
+					{
+						if (default_index >= 0)
+							ereport(ERROR,
+									errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
+									errmsg("DEFAULT partition should be one"),
+									parser_errposition(pstate, sps->name->location));
+						default_index = i;
+					}
+					else
+					{
+						new_parts[nparts++] = sps;
+					}
+					i++;
+				}
+			}
+			break;
+
+		case PARTITION_STRATEGY_HASH:
+			ereport(ERROR,
+					errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
+					errmsg("partition of hash-partitioned table cannot be split"));
+			break;
+
+		default:
+			elog(ERROR, "unexpected partition strategy: %d",
+				 (int) key->strategy);
+			break;
+	}
+
+	if (strategy == PARTITION_STRATEGY_RANGE)
+	{
+		PartitionRangeBound **lower_bounds;
+		SinglePartitionSpec **tmp_new_parts;
+
+		/*
+		 * For simplify check for ranges of new partitions need to sort all
+		 * partitions in ascending order of them bounds (we compare upper
+		 * bound only).
+		 */
+		lower_bounds = (PartitionRangeBound **)
+			palloc0(nparts * sizeof(PartitionRangeBound *));
+
+		/* Create array of lower bounds. */
+		for (i = 0; i < nparts; i++)
+		{
+			lower_bounds[i] = make_one_partition_rbound(key, i,
+														new_parts[i]->bound->lowerdatums, true);
+		}
+
+		/* Sort array of lower bounds. */
+		qsort_arg(lower_bounds, nparts, sizeof(PartitionRangeBound *),
+				  qsort_partition_rbound_cmp, (void *) key);
+
+		/* Reorder array of partitions. */
+		tmp_new_parts = new_parts;
+		new_parts = (SinglePartitionSpec **)
+			palloc0(nparts * sizeof(SinglePartitionSpec *));
+		for (i = 0; i < nparts; i++)
+			new_parts[i] = tmp_new_parts[lower_bounds[i]->index];
+
+		pfree(tmp_new_parts);
+		pfree(lower_bounds);
+	}
+
+	defaultPartOid =
+		get_default_oid_from_partdesc(RelationGetPartitionDesc(parent, true));
+
+	/* isSplitPartDefault flag: is split partition a DEFAULT partition? */
+	isSplitPartDefault = (defaultPartOid == splitPartOid);
+
+	if (isSplitPartDefault && default_index < 0)
+	{
+		ereport(ERROR,
+				errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
+				errmsg("one partition in the list should be DEFAULT because split partition is DEFAULT"),
+				parser_errposition(pstate, ((SinglePartitionSpec *) linitial(partlist))->name->location));
+	}
+	else if (!isSplitPartDefault && (default_index >= 0) && OidIsValid(defaultPartOid))
+	{
+		SinglePartitionSpec *spsDef =
+			(SinglePartitionSpec *) list_nth(partlist, default_index);
+
+		ereport(ERROR,
+				errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
+				errmsg("new partition cannot be DEFAULT because DEFAULT partition already exists"),
+				parser_errposition(pstate, spsDef->name->location));
+	}
+
+	/* Indicator that partitioned table has (or will have) DEFAULT partition */
+	existsDefaultPart = OidIsValid(defaultPartOid) || (default_index >= 0);
+
+	for (i = 0; i < nparts; i++)
+	{
+		SinglePartitionSpec *sps = new_parts[i];
+
+		if (isSplitPartDefault)
+		{
+			/*
+			 * In case split partition is DEFAULT partition we can use any
+			 * free ranges - as when creating a new partition.
+			 */
+			check_new_partition_bound(sps->name->relname, parent, sps->bound,
+									  pstate);
+		}
+		else
+		{
+			/*
+			 * Checks that bound of current partition is inside bound of split
+			 * partition. For range partitioning: checks that upper bound of
+			 * previous partition is equal to lower bound of current
+			 * partition. For list partitioning: checks that split partition
+			 * contains all values of current partition.
+			 */
+			if (strategy == PARTITION_STRATEGY_RANGE)
+			{
+				bool		first = (i == 0);
+				bool		last = (i == (nparts - 1));
+
+				check_partition_bounds_for_split_range(parent, sps->name->relname, sps->bound,
+													   splitPartOid, first, last,
+													   existsDefaultPart, pstate);
+			}
+			else
+				check_partition_bounds_for_split_list(parent, sps->name->relname,
+													  sps->bound, splitPartOid, pstate);
+		}
+
+		/* Ranges of new partitions should not overlap. */
+		if (strategy == PARTITION_STRATEGY_RANGE && spsPrev)
+			check_two_partitions_bounds_range(parent, spsPrev->name, spsPrev->bound,
+											  sps->name, sps->bound, existsDefaultPart, pstate);
+
+		spsPrev = sps;
+
+		/* Check: new partitions should have different names. */
+		for (j = i + 1; j < nparts; j++)
+		{
+			SinglePartitionSpec *sps2 = new_parts[j];
+
+			if (equal(sps->name, sps2->name))
+				ereport(ERROR,
+						errcode(ERRCODE_DUPLICATE_TABLE),
+						errmsg("name \"%s\" is already used", sps2->name->relname),
+						parser_errposition(pstate, sps2->name->location));
+		}
+	}
+
+	if (strategy == PARTITION_STRATEGY_LIST)
+	{
+		/* Values of new partitions should not overlap. */
+		check_partitions_not_overlap_list(parent, new_parts, nparts,
+										  pstate);
+
+		/*
+		 * Need to check that all values of split partition contains in new
+		 * partitions. Skip this check if DEFAULT partition exists.
+		 */
+		if (!existsDefaultPart)
+			check_parent_values_in_new_partitions(parent, splitPartOid,
+												  new_parts, nparts, pstate);
+	}
+
+	pfree(new_parts);
+}
diff --git a/src/backend/utils/adt/ruleutils.c b/src/backend/utils/adt/ruleutils.c
index 3d6e6bdbfd..3e1689b118 100644
--- a/src/backend/utils/adt/ruleutils.c
+++ b/src/backend/utils/adt/ruleutils.c
@@ -13707,3 +13707,21 @@ get_range_partbound_string(List *bound_datums)
 
 	return buf->data;
 }
+
+/*
+ * get_list_partvalue_string
+ *		A C string representation of one list partition value
+ */
+char *
+get_list_partvalue_string(Const *val)
+{
+	deparse_context context;
+	StringInfo	buf = makeStringInfo();
+
+	memset(&context, 0, sizeof(deparse_context));
+	context.buf = buf;
+
+	get_const_expr(val, &context, -1);
+
+	return buf->data;
+}
diff --git a/src/bin/psql/tab-complete.in.c b/src/bin/psql/tab-complete.in.c
index 1145b9d7ce..e4d3c5c940 100644
--- a/src/bin/psql/tab-complete.in.c
+++ b/src/bin/psql/tab-complete.in.c
@@ -2721,7 +2721,7 @@ match_previous_words(int pattern_id,
 					  "OWNER TO", "SET", "VALIDATE CONSTRAINT",
 					  "REPLICA IDENTITY", "ATTACH PARTITION",
 					  "DETACH PARTITION", "FORCE ROW LEVEL SECURITY",
-					  "MERGE PARTITIONS (",
+					  "SPLIT PARTITION", "MERGE PARTITIONS (",
 					  "OF", "NOT OF");
 	/* ALTER TABLE xxx ADD */
 	else if (Matches("ALTER", "TABLE", MatchAny, "ADD"))
@@ -2977,10 +2977,10 @@ match_previous_words(int pattern_id,
 		COMPLETE_WITH("FROM (", "IN (", "WITH (");
 
 	/*
-	 * If we have ALTER TABLE <foo> DETACH PARTITION, provide a list of
+	 * If we have ALTER TABLE <foo> DETACH|SPLIT PARTITION, provide a list of
 	 * partitions of <foo>.
 	 */
-	else if (Matches("ALTER", "TABLE", MatchAny, "DETACH", "PARTITION"))
+	else if (Matches("ALTER", "TABLE", MatchAny, "DETACH|SPLIT", "PARTITION"))
 	{
 		set_completion_reference(prev3_wd);
 		COMPLETE_WITH_SCHEMA_QUERY(Query_for_partition_of_table);
@@ -2988,6 +2988,10 @@ match_previous_words(int pattern_id,
 	else if (Matches("ALTER", "TABLE", MatchAny, "DETACH", "PARTITION", MatchAny))
 		COMPLETE_WITH("CONCURRENTLY", "FINALIZE");
 
+	/* ALTER TABLE <name> SPLIT PARTITION <name> */
+	else if (Matches("ALTER", "TABLE", MatchAny, "SPLIT", "PARTITION", MatchAny))
+		COMPLETE_WITH("INTO ( PARTITION");
+
 	/* ALTER TABLE <name> MERGE PARTITIONS ( */
 	else if (Matches("ALTER", "TABLE", MatchAny, "MERGE", "PARTITIONS", "("))
 	{
diff --git a/src/include/nodes/parsenodes.h b/src/include/nodes/parsenodes.h
index b8e2a679cd..01aa4b2e64 100644
--- a/src/include/nodes/parsenodes.h
+++ b/src/include/nodes/parsenodes.h
@@ -963,15 +963,26 @@ typedef struct PartitionRangeDatum
 	ParseLoc	location;		/* token location, or -1 if unknown */
 } PartitionRangeDatum;
 
+/*
+ * PartitionDesc - info about single partition for ALTER TABLE SPLIT PARTITION command
+ */
+typedef struct SinglePartitionSpec
+{
+	NodeTag		type;
+
+	RangeVar   *name;			/* name of partition */
+	PartitionBoundSpec *bound;	/* FOR VALUES, if attaching */
+} SinglePartitionSpec;
+
 /*
  * PartitionCmd - info for ALTER TABLE/INDEX ATTACH/DETACH PARTITION commands
  */
 typedef struct PartitionCmd
 {
 	NodeTag		type;
-	RangeVar   *name;			/* name of partition to attach/detach/merge */
+	RangeVar   *name;			/* name of partition to attach/detach/merge/split */
 	PartitionBoundSpec *bound;	/* FOR VALUES, if attaching */
-	List	   *partlist;		/* list of partitions, for MERGE
+	List	   *partlist;		/* list of partitions, for MERGE/SPLIT
 								 * PARTITION command */
 	bool		concurrent;
 } PartitionCmd;
@@ -2475,6 +2486,7 @@ typedef enum AlterTableType
 	AT_AttachPartition,			/* ATTACH PARTITION */
 	AT_DetachPartition,			/* DETACH PARTITION */
 	AT_DetachPartitionFinalize, /* DETACH PARTITION FINALIZE */
+	AT_SplitPartition,			/* SPLIT PARTITION */
 	AT_MergePartitions,			/* MERGE PARTITIONS */
 	AT_AddIdentity,				/* ADD IDENTITY */
 	AT_SetIdentity,				/* SET identity column options */
diff --git a/src/include/parser/kwlist.h b/src/include/parser/kwlist.h
index 90e8cddf8b..66c8876657 100644
--- a/src/include/parser/kwlist.h
+++ b/src/include/parser/kwlist.h
@@ -421,6 +421,7 @@ PG_KEYWORD("smallint", SMALLINT, COL_NAME_KEYWORD, BARE_LABEL)
 PG_KEYWORD("snapshot", SNAPSHOT, UNRESERVED_KEYWORD, BARE_LABEL)
 PG_KEYWORD("some", SOME, RESERVED_KEYWORD, BARE_LABEL)
 PG_KEYWORD("source", SOURCE, UNRESERVED_KEYWORD, BARE_LABEL)
+PG_KEYWORD("split", SPLIT, UNRESERVED_KEYWORD, BARE_LABEL)
 PG_KEYWORD("sql", SQL_P, UNRESERVED_KEYWORD, BARE_LABEL)
 PG_KEYWORD("stable", STABLE, UNRESERVED_KEYWORD, BARE_LABEL)
 PG_KEYWORD("standalone", STANDALONE_P, UNRESERVED_KEYWORD, BARE_LABEL)
diff --git a/src/include/partitioning/partbounds.h b/src/include/partitioning/partbounds.h
index 690d259619..45b1fa1de8 100644
--- a/src/include/partitioning/partbounds.h
+++ b/src/include/partitioning/partbounds.h
@@ -143,6 +143,10 @@ extern int	partition_range_datum_bsearch(FmgrInfo *partsupfunc,
 extern int	partition_hash_bsearch(PartitionBoundInfo boundinfo,
 								   int modulus, int remainder);
 
+extern void check_partitions_for_split(Relation parent,
+									   Oid splitPartOid,
+									   List *partlist,
+									   ParseState *pstate);
 extern void calculate_partition_bound_for_merge(Relation parent,
 												List *partNames,
 												List *partOids,
diff --git a/src/include/utils/ruleutils.h b/src/include/utils/ruleutils.h
index 5f2ea2e4d0..62043d3bf5 100644
--- a/src/include/utils/ruleutils.h
+++ b/src/include/utils/ruleutils.h
@@ -54,4 +54,6 @@ extern char *get_range_partbound_string(List *bound_datums);
 
 extern char *pg_get_statisticsobjdef_string(Oid statextid);
 
+extern char *get_list_partvalue_string(Const *val);
+
 #endif							/* RULEUTILS_H */
diff --git a/src/test/isolation/expected/partition-split.out b/src/test/isolation/expected/partition-split.out
new file mode 100644
index 0000000000..5d9e8b0925
--- /dev/null
+++ b/src/test/isolation/expected/partition-split.out
@@ -0,0 +1,190 @@
+Parsed test spec with 2 sessions
+
+starting permutation: s1b s1splt s2b s2i s1c s2c s2s
+step s1b: BEGIN;
+step s1splt: ALTER TABLE tpart SPLIT PARTITION tpart_10_20 INTO
+			   (PARTITION tpart_10_15 FOR VALUES FROM (10) TO (15),
+			    PARTITION tpart_15_20 FOR VALUES FROM (15) TO (20));
+step s2b: BEGIN;
+step s2i: INSERT INTO tpart VALUES (1, 'text01'); <waiting ...>
+step s1c: COMMIT;
+step s2i: <... completed>
+step s2c: COMMIT;
+step s2s: SELECT * FROM tpart;
+ i|t     
+--+------
+ 5|text05
+ 1|text01
+15|text15
+25|text25
+35|text35
+(5 rows)
+
+
+starting permutation: s1b s1splt s2brr s2i s1c s2c s2s
+step s1b: BEGIN;
+step s1splt: ALTER TABLE tpart SPLIT PARTITION tpart_10_20 INTO
+			   (PARTITION tpart_10_15 FOR VALUES FROM (10) TO (15),
+			    PARTITION tpart_15_20 FOR VALUES FROM (15) TO (20));
+step s2brr: BEGIN ISOLATION LEVEL REPEATABLE READ;
+step s2i: INSERT INTO tpart VALUES (1, 'text01'); <waiting ...>
+step s1c: COMMIT;
+step s2i: <... completed>
+step s2c: COMMIT;
+step s2s: SELECT * FROM tpart;
+ i|t     
+--+------
+ 5|text05
+ 1|text01
+15|text15
+25|text25
+35|text35
+(5 rows)
+
+
+starting permutation: s1b s1splt s2bs s2i s1c s2c s2s
+step s1b: BEGIN;
+step s1splt: ALTER TABLE tpart SPLIT PARTITION tpart_10_20 INTO
+			   (PARTITION tpart_10_15 FOR VALUES FROM (10) TO (15),
+			    PARTITION tpart_15_20 FOR VALUES FROM (15) TO (20));
+step s2bs: BEGIN ISOLATION LEVEL SERIALIZABLE;
+step s2i: INSERT INTO tpart VALUES (1, 'text01'); <waiting ...>
+step s1c: COMMIT;
+step s2i: <... completed>
+step s2c: COMMIT;
+step s2s: SELECT * FROM tpart;
+ i|t     
+--+------
+ 5|text05
+ 1|text01
+15|text15
+25|text25
+35|text35
+(5 rows)
+
+
+starting permutation: s1brr s1splt s2b s2i s1c s2c s2s
+step s1brr: BEGIN ISOLATION LEVEL REPEATABLE READ;
+step s1splt: ALTER TABLE tpart SPLIT PARTITION tpart_10_20 INTO
+			   (PARTITION tpart_10_15 FOR VALUES FROM (10) TO (15),
+			    PARTITION tpart_15_20 FOR VALUES FROM (15) TO (20));
+step s2b: BEGIN;
+step s2i: INSERT INTO tpart VALUES (1, 'text01'); <waiting ...>
+step s1c: COMMIT;
+step s2i: <... completed>
+step s2c: COMMIT;
+step s2s: SELECT * FROM tpart;
+ i|t     
+--+------
+ 5|text05
+ 1|text01
+15|text15
+25|text25
+35|text35
+(5 rows)
+
+
+starting permutation: s1brr s1splt s2brr s2i s1c s2c s2s
+step s1brr: BEGIN ISOLATION LEVEL REPEATABLE READ;
+step s1splt: ALTER TABLE tpart SPLIT PARTITION tpart_10_20 INTO
+			   (PARTITION tpart_10_15 FOR VALUES FROM (10) TO (15),
+			    PARTITION tpart_15_20 FOR VALUES FROM (15) TO (20));
+step s2brr: BEGIN ISOLATION LEVEL REPEATABLE READ;
+step s2i: INSERT INTO tpart VALUES (1, 'text01'); <waiting ...>
+step s1c: COMMIT;
+step s2i: <... completed>
+step s2c: COMMIT;
+step s2s: SELECT * FROM tpart;
+ i|t     
+--+------
+ 5|text05
+ 1|text01
+15|text15
+25|text25
+35|text35
+(5 rows)
+
+
+starting permutation: s1brr s1splt s2bs s2i s1c s2c s2s
+step s1brr: BEGIN ISOLATION LEVEL REPEATABLE READ;
+step s1splt: ALTER TABLE tpart SPLIT PARTITION tpart_10_20 INTO
+			   (PARTITION tpart_10_15 FOR VALUES FROM (10) TO (15),
+			    PARTITION tpart_15_20 FOR VALUES FROM (15) TO (20));
+step s2bs: BEGIN ISOLATION LEVEL SERIALIZABLE;
+step s2i: INSERT INTO tpart VALUES (1, 'text01'); <waiting ...>
+step s1c: COMMIT;
+step s2i: <... completed>
+step s2c: COMMIT;
+step s2s: SELECT * FROM tpart;
+ i|t     
+--+------
+ 5|text05
+ 1|text01
+15|text15
+25|text25
+35|text35
+(5 rows)
+
+
+starting permutation: s1bs s1splt s2b s2i s1c s2c s2s
+step s1bs: BEGIN ISOLATION LEVEL SERIALIZABLE;
+step s1splt: ALTER TABLE tpart SPLIT PARTITION tpart_10_20 INTO
+			   (PARTITION tpart_10_15 FOR VALUES FROM (10) TO (15),
+			    PARTITION tpart_15_20 FOR VALUES FROM (15) TO (20));
+step s2b: BEGIN;
+step s2i: INSERT INTO tpart VALUES (1, 'text01'); <waiting ...>
+step s1c: COMMIT;
+step s2i: <... completed>
+step s2c: COMMIT;
+step s2s: SELECT * FROM tpart;
+ i|t     
+--+------
+ 5|text05
+ 1|text01
+15|text15
+25|text25
+35|text35
+(5 rows)
+
+
+starting permutation: s1bs s1splt s2brr s2i s1c s2c s2s
+step s1bs: BEGIN ISOLATION LEVEL SERIALIZABLE;
+step s1splt: ALTER TABLE tpart SPLIT PARTITION tpart_10_20 INTO
+			   (PARTITION tpart_10_15 FOR VALUES FROM (10) TO (15),
+			    PARTITION tpart_15_20 FOR VALUES FROM (15) TO (20));
+step s2brr: BEGIN ISOLATION LEVEL REPEATABLE READ;
+step s2i: INSERT INTO tpart VALUES (1, 'text01'); <waiting ...>
+step s1c: COMMIT;
+step s2i: <... completed>
+step s2c: COMMIT;
+step s2s: SELECT * FROM tpart;
+ i|t     
+--+------
+ 5|text05
+ 1|text01
+15|text15
+25|text25
+35|text35
+(5 rows)
+
+
+starting permutation: s1bs s1splt s2bs s2i s1c s2c s2s
+step s1bs: BEGIN ISOLATION LEVEL SERIALIZABLE;
+step s1splt: ALTER TABLE tpart SPLIT PARTITION tpart_10_20 INTO
+			   (PARTITION tpart_10_15 FOR VALUES FROM (10) TO (15),
+			    PARTITION tpart_15_20 FOR VALUES FROM (15) TO (20));
+step s2bs: BEGIN ISOLATION LEVEL SERIALIZABLE;
+step s2i: INSERT INTO tpart VALUES (1, 'text01'); <waiting ...>
+step s1c: COMMIT;
+step s2i: <... completed>
+step s2c: COMMIT;
+step s2s: SELECT * FROM tpart;
+ i|t     
+--+------
+ 5|text05
+ 1|text01
+15|text15
+25|text25
+35|text35
+(5 rows)
+
diff --git a/src/test/isolation/isolation_schedule b/src/test/isolation/isolation_schedule
index 0dca684955..404a7fd832 100644
--- a/src/test/isolation/isolation_schedule
+++ b/src/test/isolation/isolation_schedule
@@ -108,6 +108,7 @@ test: partition-key-update-2
 test: partition-key-update-3
 test: partition-key-update-4
 test: partition-merge
+test: partition-split
 test: plpgsql-toast
 test: cluster-conflict
 test: cluster-conflict-partition
diff --git a/src/test/isolation/specs/partition-split.spec b/src/test/isolation/specs/partition-split.spec
new file mode 100644
index 0000000000..087239a4a1
--- /dev/null
+++ b/src/test/isolation/specs/partition-split.spec
@@ -0,0 +1,54 @@
+# Verify that SPLIT operation locks DML operations with partitioned table
+
+setup
+{
+  DROP TABLE IF EXISTS tpart;
+  CREATE TABLE tpart(i int, t text) partition by range(i);
+  CREATE TABLE tpart_00_10 PARTITION OF tpart FOR VALUES FROM (0) TO (10);
+  CREATE TABLE tpart_10_20 PARTITION OF tpart FOR VALUES FROM (10) TO (20);
+  CREATE TABLE tpart_20_30 PARTITION OF tpart FOR VALUES FROM (20) TO (30);
+  CREATE TABLE tpart_default PARTITION OF tpart DEFAULT;
+  INSERT INTO tpart VALUES (5, 'text05');
+  INSERT INTO tpart VALUES (15, 'text15');
+  INSERT INTO tpart VALUES (25, 'text25');
+  INSERT INTO tpart VALUES (35, 'text35');
+}
+
+teardown
+{
+  DROP TABLE tpart;
+}
+
+session s1
+step s1b	{ BEGIN; }
+step s1brr	{ BEGIN ISOLATION LEVEL REPEATABLE READ; }
+step s1bs	{ BEGIN ISOLATION LEVEL SERIALIZABLE; }
+step s1splt	{ ALTER TABLE tpart SPLIT PARTITION tpart_10_20 INTO
+			   (PARTITION tpart_10_15 FOR VALUES FROM (10) TO (15),
+			    PARTITION tpart_15_20 FOR VALUES FROM (15) TO (20)); }
+step s1c	{ COMMIT; }
+
+
+session s2
+step s2b	{ BEGIN; }
+step s2brr	{ BEGIN ISOLATION LEVEL REPEATABLE READ; }
+step s2bs	{ BEGIN ISOLATION LEVEL SERIALIZABLE; }
+step s2i	{ INSERT INTO tpart VALUES (1, 'text01'); }
+step s2c	{ COMMIT; }
+step s2s	{ SELECT * FROM tpart; }
+
+
+# s1 starts SPLIT PARTITION then s2 trying to insert row and
+# waits until s1 finished SPLIT operation.
+
+permutation s1b s1splt s2b s2i s1c s2c s2s
+permutation s1b s1splt s2brr s2i s1c s2c s2s
+permutation s1b s1splt s2bs s2i s1c s2c s2s
+
+permutation s1brr s1splt s2b s2i s1c s2c s2s
+permutation s1brr s1splt s2brr s2i s1c s2c s2s
+permutation s1brr s1splt s2bs s2i s1c s2c s2s
+
+permutation s1bs s1splt s2b s2i s1c s2c s2s
+permutation s1bs s1splt s2brr s2i s1c s2c s2s
+permutation s1bs s1splt s2bs s2i s1c s2c s2s
diff --git a/src/test/modules/test_ddl_deparse/test_ddl_deparse.c b/src/test/modules/test_ddl_deparse/test_ddl_deparse.c
index 7de5ddb878..17d72e412f 100644
--- a/src/test/modules/test_ddl_deparse/test_ddl_deparse.c
+++ b/src/test/modules/test_ddl_deparse/test_ddl_deparse.c
@@ -296,6 +296,9 @@ get_altertable_subcmdinfo(PG_FUNCTION_ARGS)
 			case AT_DetachPartitionFinalize:
 				strtype = "DETACH PARTITION ... FINALIZE";
 				break;
+			case AT_SplitPartition:
+				strtype = "SPLIT PARTITION";
+				break;
 			case AT_MergePartitions:
 				strtype = "MERGE PARTITIONS";
 				break;
diff --git a/src/test/regress/expected/partition_split.out b/src/test/regress/expected/partition_split.out
new file mode 100644
index 0000000000..7d543ab813
--- /dev/null
+++ b/src/test/regress/expected/partition_split.out
@@ -0,0 +1,1655 @@
+--
+-- PARTITION_SPLIT
+-- Tests for "ALTER TABLE ... SPLIT PARTITION ..." command
+--
+CREATE SCHEMA partition_split_schema;
+CREATE SCHEMA partition_split_schema2;
+SET search_path = partition_split_schema, public;
+--
+-- BY RANGE partitioning
+--
+--
+-- Test for error codes
+--
+CREATE TABLE sales_range (salesperson_id int, salesperson_name varchar(30), sales_amount int, sales_date date) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_jan2022 PARTITION OF sales_range FOR VALUES FROM ('2022-01-01') TO ('2022-02-01');
+CREATE TABLE sales_feb_mar_apr2022 PARTITION OF sales_range FOR VALUES FROM ('2022-02-01') TO ('2022-05-01');
+CREATE TABLE sales_others PARTITION OF sales_range DEFAULT;
+-- ERROR:  relation "sales_xxx" does not exist
+ALTER TABLE sales_range SPLIT PARTITION sales_xxx INTO
+  (PARTITION sales_feb2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION sales_mar2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'));
+ERROR:  relation "sales_xxx" does not exist
+-- ERROR:  relation "sales_jan2022" already exists
+ALTER TABLE sales_range SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION sales_jan2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION sales_mar2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'));
+ERROR:  relation "sales_jan2022" already exists
+-- ERROR:  invalid bound specification for a range partition
+ALTER TABLE sales_range SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION sales_jan2022 FOR VALUES IN ('2022-05-01', '2022-06-01'),
+   PARTITION sales_mar2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'));
+ERROR:  invalid bound specification for a range partition
+LINE 2:   (PARTITION sales_jan2022 FOR VALUES IN ('2022-05-01', '202...
+                                              ^
+-- ERROR:  empty range bound specified for partition "sales_mar2022"
+ALTER TABLE sales_range SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION sales_feb2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION sales_mar2022 FOR VALUES FROM ('2022-03-01') TO ('2022-02-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'));
+ERROR:  empty range bound specified for partition "sales_mar2022"
+LINE 3:    PARTITION sales_mar2022 FOR VALUES FROM ('2022-03-01') TO...
+                                                    ^
+DETAIL:  Specified lower bound ('03-01-2022') is greater than or equal to upper bound ('02-01-2022').
+--ERROR:  list of split partitions should contain at least two items
+ALTER TABLE sales_range SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION sales_feb2022 FOR VALUES FROM ('2022-02-01') TO ('2022-10-01'));
+ERROR:  list of new partitions should contain at least two items
+-- ERROR:  lower bound of partition "sales_feb2022" is less than lower bound of split partition
+ALTER TABLE sales_range SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION sales_feb2022 FOR VALUES FROM ('2022-01-01') TO ('2022-03-01'),
+   PARTITION sales_mar2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'));
+ERROR:  lower bound of partition "sales_feb2022" is less than lower bound of split partition
+LINE 2:   (PARTITION sales_feb2022 FOR VALUES FROM ('2022-01-01') TO...
+                                                    ^
+-- ERROR:  name "sales_feb_mar_apr2022" is already used
+-- (We can create partition with the same name as split partition, but can't create two partitions with the same name)
+ALTER TABLE sales_range SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION sales_feb_mar_apr2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION sales_feb_mar_apr2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'));
+ERROR:  name "sales_feb_mar_apr2022" is already used
+LINE 3:    PARTITION sales_feb_mar_apr2022 FOR VALUES FROM ('2022-03...
+                     ^
+-- ERROR:  name "sales_feb2022" is already used
+ALTER TABLE sales_range SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION sales_feb2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION sales_feb2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'));
+ERROR:  name "sales_feb2022" is already used
+LINE 3:    PARTITION sales_feb2022 FOR VALUES FROM ('2022-03-01') TO...
+                     ^
+-- ERROR:  "sales_feb_mar_apr2022" is not a partitioned table
+ALTER TABLE sales_feb_mar_apr2022 SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION sales_jan2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION sales_feb2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'));
+ERROR:  ALTER action SPLIT PARTITION cannot be performed on relation "sales_feb_mar_apr2022"
+DETAIL:  This operation is not supported for tables.
+-- ERROR:  upper bound of partition "sales_apr2022" is greater than upper bound of split partition
+ALTER TABLE sales_range SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION sales_feb2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION sales_mar2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-06-01'));
+ERROR:  upper bound of partition "sales_apr2022" is greater than upper bound of split partition
+LINE 4: ... sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-06-0...
+                                                             ^
+-- ERROR:  lower bound of partition "sales_mar2022" is not equal to the upper bound of partition "sales_feb2022"
+ALTER TABLE sales_range SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION sales_feb2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION sales_mar2022 FOR VALUES FROM ('2022-02-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'));
+ERROR:  lower bound of partition "sales_mar2022" is not equal to the upper bound of partition "sales_feb2022"
+LINE 3:    PARTITION sales_mar2022 FOR VALUES FROM ('2022-02-01') TO...
+                                                    ^
+HINT:  ALTER TABLE ... MERGE PARTITIONS requires the partition bounds to be adjacent.
+-- Tests for spaces between partitions, them should be executed without DEFAULT partition
+ALTER TABLE sales_range DETACH PARTITION sales_others;
+-- ERROR:  lower bound of partition "sales_feb2022" is not equal to lower bound of split partition
+ALTER TABLE sales_range SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION sales_feb2022 FOR VALUES FROM ('2022-02-02') TO ('2022-03-01'),
+   PARTITION sales_mar2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'));
+ERROR:  lower bound of partition "sales_feb2022" is not equal to lower bound of split partition
+LINE 2:   (PARTITION sales_feb2022 FOR VALUES FROM ('2022-02-02') TO...
+                                                    ^
+-- Check the source partition not in the search path
+SET search_path = partition_split_schema2, public;
+ALTER TABLE partition_split_schema.sales_range
+SPLIT PARTITION partition_split_schema.sales_feb_mar_apr2022 INTO
+  (PARTITION sales_feb2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION sales_mar2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'));
+SET search_path = partition_split_schema, public;
+\d+ sales_range
+                              Partitioned table "partition_split_schema.sales_range"
+      Column      |         Type          | Collation | Nullable | Default | Storage  | Stats target | Description 
+------------------+-----------------------+-----------+----------+---------+----------+--------------+-------------
+ salesperson_id   | integer               |           |          |         | plain    |              | 
+ salesperson_name | character varying(30) |           |          |         | extended |              | 
+ sales_amount     | integer               |           |          |         | plain    |              | 
+ sales_date       | date                  |           |          |         | plain    |              | 
+Partition key: RANGE (sales_date)
+Partitions: partition_split_schema2.sales_apr2022 FOR VALUES FROM ('04-01-2022') TO ('05-01-2022'),
+            partition_split_schema2.sales_feb2022 FOR VALUES FROM ('02-01-2022') TO ('03-01-2022'),
+            partition_split_schema2.sales_mar2022 FOR VALUES FROM ('03-01-2022') TO ('04-01-2022'),
+            sales_jan2022 FOR VALUES FROM ('01-01-2022') TO ('02-01-2022')
+
+DROP TABLE sales_range;
+DROP TABLE sales_others;
+--
+-- Add rows into partitioned table then split partition
+--
+CREATE TABLE sales_range (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date DATE) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_jan2022 PARTITION OF sales_range FOR VALUES FROM ('2022-01-01') TO ('2022-02-01');
+CREATE TABLE sales_feb_mar_apr2022 PARTITION OF sales_range FOR VALUES FROM ('2022-02-01') TO ('2022-05-01');
+CREATE TABLE sales_others PARTITION OF sales_range DEFAULT;
+INSERT INTO sales_range VALUES
+  (1,  'May',      1000, '2022-01-31'),
+  (2,  'Smirnoff', 500,  '2022-02-10'),
+  (3,  'Ford',     2000, '2022-04-30'),
+  (4,  'Ivanov',   750,  '2022-04-13'),
+  (5,  'Deev',     250,  '2022-04-07'),
+  (6,  'Poirot',   150,  '2022-02-11'),
+  (7,  'Li',       175,  '2022-03-08'),
+  (8,  'Ericsson', 185,  '2022-02-23'),
+  (9,  'Muller',   250,  '2022-03-11'),
+  (10, 'Halder',   350,  '2022-01-28'),
+  (11, 'Trump',    380,  '2022-04-06'),
+  (12, 'Plato',    350,  '2022-03-19'),
+  (13, 'Gandi',    377,  '2022-01-09'),
+  (14, 'Smith',    510,  '2022-05-04');
+ALTER TABLE sales_range SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION sales_feb2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION sales_mar2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'));
+SELECT * FROM sales_range;
+ salesperson_id | salesperson_name | sales_amount | sales_date 
+----------------+------------------+--------------+------------
+              1 | May              |         1000 | 01-31-2022
+             10 | Halder           |          350 | 01-28-2022
+             13 | Gandi            |          377 | 01-09-2022
+              2 | Smirnoff         |          500 | 02-10-2022
+              6 | Poirot           |          150 | 02-11-2022
+              8 | Ericsson         |          185 | 02-23-2022
+              7 | Li               |          175 | 03-08-2022
+              9 | Muller           |          250 | 03-11-2022
+             12 | Plato            |          350 | 03-19-2022
+              3 | Ford             |         2000 | 04-30-2022
+              4 | Ivanov           |          750 | 04-13-2022
+              5 | Deev             |          250 | 04-07-2022
+             11 | Trump            |          380 | 04-06-2022
+             14 | Smith            |          510 | 05-04-2022
+(14 rows)
+
+SELECT * FROM sales_jan2022;
+ salesperson_id | salesperson_name | sales_amount | sales_date 
+----------------+------------------+--------------+------------
+              1 | May              |         1000 | 01-31-2022
+             10 | Halder           |          350 | 01-28-2022
+             13 | Gandi            |          377 | 01-09-2022
+(3 rows)
+
+SELECT * FROM sales_feb2022;
+ salesperson_id | salesperson_name | sales_amount | sales_date 
+----------------+------------------+--------------+------------
+              2 | Smirnoff         |          500 | 02-10-2022
+              6 | Poirot           |          150 | 02-11-2022
+              8 | Ericsson         |          185 | 02-23-2022
+(3 rows)
+
+SELECT * FROM sales_mar2022;
+ salesperson_id | salesperson_name | sales_amount | sales_date 
+----------------+------------------+--------------+------------
+              7 | Li               |          175 | 03-08-2022
+              9 | Muller           |          250 | 03-11-2022
+             12 | Plato            |          350 | 03-19-2022
+(3 rows)
+
+SELECT * FROM sales_apr2022;
+ salesperson_id | salesperson_name | sales_amount | sales_date 
+----------------+------------------+--------------+------------
+              3 | Ford             |         2000 | 04-30-2022
+              4 | Ivanov           |          750 | 04-13-2022
+              5 | Deev             |          250 | 04-07-2022
+             11 | Trump            |          380 | 04-06-2022
+(4 rows)
+
+SELECT * FROM sales_others;
+ salesperson_id | salesperson_name | sales_amount | sales_date 
+----------------+------------------+--------------+------------
+             14 | Smith            |          510 | 05-04-2022
+(1 row)
+
+DROP TABLE sales_range CASCADE;
+--
+-- Add split partition, then add rows into partitioned table
+--
+CREATE TABLE sales_range (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date DATE) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_jan2022 PARTITION OF sales_range FOR VALUES FROM ('2022-01-01') TO ('2022-02-01');
+CREATE TABLE sales_feb_mar_apr2022 PARTITION OF sales_range FOR VALUES FROM ('2022-02-01') TO ('2022-05-01');
+CREATE TABLE sales_others PARTITION OF sales_range DEFAULT;
+-- Split partition, also check schema qualification of new partitions
+ALTER TABLE sales_range SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION partition_split_schema.sales_feb2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION partition_split_schema2.sales_mar2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'));
+\d+ sales_range
+                              Partitioned table "partition_split_schema.sales_range"
+      Column      |         Type          | Collation | Nullable | Default | Storage  | Stats target | Description 
+------------------+-----------------------+-----------+----------+---------+----------+--------------+-------------
+ salesperson_id   | integer               |           |          |         | plain    |              | 
+ salesperson_name | character varying(30) |           |          |         | extended |              | 
+ sales_amount     | integer               |           |          |         | plain    |              | 
+ sales_date       | date                  |           |          |         | plain    |              | 
+Partition key: RANGE (sales_date)
+Partitions: partition_split_schema2.sales_mar2022 FOR VALUES FROM ('03-01-2022') TO ('04-01-2022'),
+            sales_apr2022 FOR VALUES FROM ('04-01-2022') TO ('05-01-2022'),
+            sales_feb2022 FOR VALUES FROM ('02-01-2022') TO ('03-01-2022'),
+            sales_jan2022 FOR VALUES FROM ('01-01-2022') TO ('02-01-2022'),
+            sales_others DEFAULT
+
+INSERT INTO sales_range VALUES
+  (1,  'May',      1000, '2022-01-31'),
+  (2,  'Smirnoff', 500,  '2022-02-10'),
+  (3,  'Ford',     2000, '2022-04-30'),
+  (4,  'Ivanov',   750,  '2022-04-13'),
+  (5,  'Deev',     250,  '2022-04-07'),
+  (6,  'Poirot',   150,  '2022-02-11'),
+  (7,  'Li',       175,  '2022-03-08'),
+  (8,  'Ericsson', 185,  '2022-02-23'),
+  (9,  'Muller',   250,  '2022-03-11'),
+  (10, 'Halder',   350,  '2022-01-28'),
+  (11, 'Trump',    380,  '2022-04-06'),
+  (12, 'Plato',    350,  '2022-03-19'),
+  (13, 'Gandi',    377,  '2022-01-09'),
+  (14, 'Smith',    510,  '2022-05-04');
+SELECT * FROM sales_range;
+ salesperson_id | salesperson_name | sales_amount | sales_date 
+----------------+------------------+--------------+------------
+              1 | May              |         1000 | 01-31-2022
+             10 | Halder           |          350 | 01-28-2022
+             13 | Gandi            |          377 | 01-09-2022
+              2 | Smirnoff         |          500 | 02-10-2022
+              6 | Poirot           |          150 | 02-11-2022
+              8 | Ericsson         |          185 | 02-23-2022
+              7 | Li               |          175 | 03-08-2022
+              9 | Muller           |          250 | 03-11-2022
+             12 | Plato            |          350 | 03-19-2022
+              3 | Ford             |         2000 | 04-30-2022
+              4 | Ivanov           |          750 | 04-13-2022
+              5 | Deev             |          250 | 04-07-2022
+             11 | Trump            |          380 | 04-06-2022
+             14 | Smith            |          510 | 05-04-2022
+(14 rows)
+
+SELECT * FROM sales_jan2022;
+ salesperson_id | salesperson_name | sales_amount | sales_date 
+----------------+------------------+--------------+------------
+              1 | May              |         1000 | 01-31-2022
+             10 | Halder           |          350 | 01-28-2022
+             13 | Gandi            |          377 | 01-09-2022
+(3 rows)
+
+SELECT * FROM sales_feb2022;
+ salesperson_id | salesperson_name | sales_amount | sales_date 
+----------------+------------------+--------------+------------
+              2 | Smirnoff         |          500 | 02-10-2022
+              6 | Poirot           |          150 | 02-11-2022
+              8 | Ericsson         |          185 | 02-23-2022
+(3 rows)
+
+SELECT * FROM partition_split_schema2.sales_mar2022;
+ salesperson_id | salesperson_name | sales_amount | sales_date 
+----------------+------------------+--------------+------------
+              7 | Li               |          175 | 03-08-2022
+              9 | Muller           |          250 | 03-11-2022
+             12 | Plato            |          350 | 03-19-2022
+(3 rows)
+
+SELECT * FROM sales_apr2022;
+ salesperson_id | salesperson_name | sales_amount | sales_date 
+----------------+------------------+--------------+------------
+              3 | Ford             |         2000 | 04-30-2022
+              4 | Ivanov           |          750 | 04-13-2022
+              5 | Deev             |          250 | 04-07-2022
+             11 | Trump            |          380 | 04-06-2022
+(4 rows)
+
+SELECT * FROM sales_others;
+ salesperson_id | salesperson_name | sales_amount | sales_date 
+----------------+------------------+--------------+------------
+             14 | Smith            |          510 | 05-04-2022
+(1 row)
+
+DROP TABLE sales_range CASCADE;
+--
+-- Test for:
+--   * composite partition key;
+--   * GENERATED column;
+--   * column with DEFAULT value.
+--
+CREATE TABLE sales_date (salesperson_name VARCHAR(30), sales_year INT, sales_month INT, sales_day INT,
+  sales_date VARCHAR(10) GENERATED ALWAYS AS
+    (LPAD(sales_year::text, 4, '0') || '.' || LPAD(sales_month::text, 2, '0') || '.' || LPAD(sales_day::text, 2, '0')) STORED,
+  sales_department VARCHAR(30) DEFAULT 'Sales department')
+  PARTITION BY RANGE (sales_year, sales_month, sales_day);
+CREATE TABLE sales_dec2021 PARTITION OF sales_date FOR VALUES FROM (2021, 12, 1) TO (2022, 1, 1);
+CREATE TABLE sales_jan_feb2022 PARTITION OF sales_date FOR VALUES FROM (2022, 1, 1) TO (2022, 3, 1);
+CREATE TABLE sales_other PARTITION OF sales_date FOR VALUES FROM (2022, 3, 1) TO (MAXVALUE, MAXVALUE, MAXVALUE);
+INSERT INTO sales_date(salesperson_name, sales_year, sales_month, sales_day) VALUES
+  ('Manager1', 2021, 12, 7),
+  ('Manager2', 2021, 12, 8),
+  ('Manager3', 2022, 1, 1),
+  ('Manager1', 2022, 2, 4),
+  ('Manager2', 2022, 1, 2),
+  ('Manager3', 2022, 2, 1),
+  ('Manager1', 2022, 3, 3),
+  ('Manager2', 2022, 3, 4),
+  ('Manager3', 2022, 5, 1);
+SELECT tableoid::regclass, * FROM sales_date ORDER BY tableoid, sales_year, sales_month, sales_day;
+     tableoid      | salesperson_name | sales_year | sales_month | sales_day | sales_date | sales_department 
+-------------------+------------------+------------+-------------+-----------+------------+------------------
+ sales_dec2021     | Manager1         |       2021 |          12 |         7 | 2021.12.07 | Sales department
+ sales_dec2021     | Manager2         |       2021 |          12 |         8 | 2021.12.08 | Sales department
+ sales_jan_feb2022 | Manager3         |       2022 |           1 |         1 | 2022.01.01 | Sales department
+ sales_jan_feb2022 | Manager2         |       2022 |           1 |         2 | 2022.01.02 | Sales department
+ sales_jan_feb2022 | Manager3         |       2022 |           2 |         1 | 2022.02.01 | Sales department
+ sales_jan_feb2022 | Manager1         |       2022 |           2 |         4 | 2022.02.04 | Sales department
+ sales_other       | Manager1         |       2022 |           3 |         3 | 2022.03.03 | Sales department
+ sales_other       | Manager2         |       2022 |           3 |         4 | 2022.03.04 | Sales department
+ sales_other       | Manager3         |       2022 |           5 |         1 | 2022.05.01 | Sales department
+(9 rows)
+
+ALTER TABLE sales_date SPLIT PARTITION sales_jan_feb2022 INTO
+  (PARTITION sales_jan2022 FOR VALUES FROM (2022, 1, 1) TO (2022, 2, 1),
+   PARTITION sales_feb2022 FOR VALUES FROM (2022, 2, 1) TO (2022, 3, 1));
+INSERT INTO sales_date(salesperson_name, sales_year, sales_month, sales_day) VALUES
+  ('Manager1', 2022, 1, 10),
+  ('Manager2', 2022, 2, 10);
+SELECT tableoid::regclass, * FROM sales_date ORDER BY tableoid, sales_year, sales_month, sales_day;
+   tableoid    | salesperson_name | sales_year | sales_month | sales_day | sales_date | sales_department 
+---------------+------------------+------------+-------------+-----------+------------+------------------
+ sales_dec2021 | Manager1         |       2021 |          12 |         7 | 2021.12.07 | Sales department
+ sales_dec2021 | Manager2         |       2021 |          12 |         8 | 2021.12.08 | Sales department
+ sales_other   | Manager1         |       2022 |           3 |         3 | 2022.03.03 | Sales department
+ sales_other   | Manager2         |       2022 |           3 |         4 | 2022.03.04 | Sales department
+ sales_other   | Manager3         |       2022 |           5 |         1 | 2022.05.01 | Sales department
+ sales_jan2022 | Manager3         |       2022 |           1 |         1 | 2022.01.01 | Sales department
+ sales_jan2022 | Manager2         |       2022 |           1 |         2 | 2022.01.02 | Sales department
+ sales_jan2022 | Manager1         |       2022 |           1 |        10 | 2022.01.10 | Sales department
+ sales_feb2022 | Manager3         |       2022 |           2 |         1 | 2022.02.01 | Sales department
+ sales_feb2022 | Manager1         |       2022 |           2 |         4 | 2022.02.04 | Sales department
+ sales_feb2022 | Manager2         |       2022 |           2 |        10 | 2022.02.10 | Sales department
+(11 rows)
+
+--ERROR:  relation "sales_jan_feb2022" does not exist
+SELECT * FROM sales_jan_feb2022;
+ERROR:  relation "sales_jan_feb2022" does not exist
+LINE 1: SELECT * FROM sales_jan_feb2022;
+                      ^
+DROP TABLE sales_date CASCADE;
+--
+-- Test: split DEFAULT partition; use an index on partition key; check index after split
+--
+CREATE TABLE sales_range (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date DATE) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_jan2022 PARTITION OF sales_range FOR VALUES FROM ('2022-01-01') TO ('2022-02-01');
+CREATE TABLE sales_others PARTITION OF sales_range DEFAULT;
+CREATE INDEX sales_range_sales_date_idx ON sales_range USING btree (sales_date);
+INSERT INTO sales_range VALUES
+  (1,  'May',      1000, '2022-01-31'),
+  (2,  'Smirnoff', 500,  '2022-02-10'),
+  (3,  'Ford',     2000, '2022-04-30'),
+  (4,  'Ivanov',   750,  '2022-04-13'),
+  (5,  'Deev',     250,  '2022-04-07'),
+  (6,  'Poirot',   150,  '2022-02-11'),
+  (7,  'Li',       175,  '2022-03-08'),
+  (8,  'Ericsson', 185,  '2022-02-23'),
+  (9,  'Muller',   250,  '2022-03-11'),
+  (10, 'Halder',   350,  '2022-01-28'),
+  (11, 'Trump',    380,  '2022-04-06'),
+  (12, 'Plato',    350,  '2022-03-19'),
+  (13, 'Gandi',    377,  '2022-01-09'),
+  (14, 'Smith',    510,  '2022-05-04');
+SELECT * FROM sales_others;
+ salesperson_id | salesperson_name | sales_amount | sales_date 
+----------------+------------------+--------------+------------
+              2 | Smirnoff         |          500 | 02-10-2022
+              3 | Ford             |         2000 | 04-30-2022
+              4 | Ivanov           |          750 | 04-13-2022
+              5 | Deev             |          250 | 04-07-2022
+              6 | Poirot           |          150 | 02-11-2022
+              7 | Li               |          175 | 03-08-2022
+              8 | Ericsson         |          185 | 02-23-2022
+              9 | Muller           |          250 | 03-11-2022
+             11 | Trump            |          380 | 04-06-2022
+             12 | Plato            |          350 | 03-19-2022
+             14 | Smith            |          510 | 05-04-2022
+(11 rows)
+
+SELECT * FROM pg_indexes WHERE tablename = 'sales_others' and schemaname = 'partition_split_schema' ORDER BY indexname;
+       schemaname       |  tablename   |          indexname          | tablespace |                                                 indexdef                                                 
+------------------------+--------------+-----------------------------+------------+----------------------------------------------------------------------------------------------------------
+ partition_split_schema | sales_others | sales_others_sales_date_idx |            | CREATE INDEX sales_others_sales_date_idx ON partition_split_schema.sales_others USING btree (sales_date)
+(1 row)
+
+ALTER TABLE sales_range SPLIT PARTITION sales_others INTO
+  (PARTITION sales_feb2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION sales_mar2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'),
+   PARTITION sales_others DEFAULT);
+-- Use indexscan for testing indexes
+SET enable_indexscan = ON;
+SET enable_seqscan = OFF;
+SELECT * FROM sales_feb2022 where sales_date > '2022-01-01';
+ salesperson_id | salesperson_name | sales_amount | sales_date 
+----------------+------------------+--------------+------------
+              2 | Smirnoff         |          500 | 02-10-2022
+              6 | Poirot           |          150 | 02-11-2022
+              8 | Ericsson         |          185 | 02-23-2022
+(3 rows)
+
+SELECT * FROM sales_mar2022 where sales_date > '2022-01-01';
+ salesperson_id | salesperson_name | sales_amount | sales_date 
+----------------+------------------+--------------+------------
+              7 | Li               |          175 | 03-08-2022
+              9 | Muller           |          250 | 03-11-2022
+             12 | Plato            |          350 | 03-19-2022
+(3 rows)
+
+SELECT * FROM sales_apr2022 where sales_date > '2022-01-01';
+ salesperson_id | salesperson_name | sales_amount | sales_date 
+----------------+------------------+--------------+------------
+             11 | Trump            |          380 | 04-06-2022
+              5 | Deev             |          250 | 04-07-2022
+              4 | Ivanov           |          750 | 04-13-2022
+              3 | Ford             |         2000 | 04-30-2022
+(4 rows)
+
+SELECT * FROM sales_others where sales_date > '2022-01-01';
+ salesperson_id | salesperson_name | sales_amount | sales_date 
+----------------+------------------+--------------+------------
+             14 | Smith            |          510 | 05-04-2022
+(1 row)
+
+SET enable_indexscan = ON;
+SET enable_seqscan = ON;
+SELECT * FROM pg_indexes WHERE tablename = 'sales_feb2022' and schemaname = 'partition_split_schema' ORDER BY indexname;
+       schemaname       |   tablename   |          indexname           | tablespace |                                                  indexdef                                                  
+------------------------+---------------+------------------------------+------------+------------------------------------------------------------------------------------------------------------
+ partition_split_schema | sales_feb2022 | sales_feb2022_sales_date_idx |            | CREATE INDEX sales_feb2022_sales_date_idx ON partition_split_schema.sales_feb2022 USING btree (sales_date)
+(1 row)
+
+SELECT * FROM pg_indexes WHERE tablename = 'sales_mar2022' and schemaname = 'partition_split_schema' ORDER BY indexname;
+       schemaname       |   tablename   |          indexname           | tablespace |                                                  indexdef                                                  
+------------------------+---------------+------------------------------+------------+------------------------------------------------------------------------------------------------------------
+ partition_split_schema | sales_mar2022 | sales_mar2022_sales_date_idx |            | CREATE INDEX sales_mar2022_sales_date_idx ON partition_split_schema.sales_mar2022 USING btree (sales_date)
+(1 row)
+
+SELECT * FROM pg_indexes WHERE tablename = 'sales_apr2022' and schemaname = 'partition_split_schema' ORDER BY indexname;
+       schemaname       |   tablename   |          indexname           | tablespace |                                                  indexdef                                                  
+------------------------+---------------+------------------------------+------------+------------------------------------------------------------------------------------------------------------
+ partition_split_schema | sales_apr2022 | sales_apr2022_sales_date_idx |            | CREATE INDEX sales_apr2022_sales_date_idx ON partition_split_schema.sales_apr2022 USING btree (sales_date)
+(1 row)
+
+SELECT * FROM pg_indexes WHERE tablename = 'sales_others' and schemaname = 'partition_split_schema' ORDER BY indexname;
+       schemaname       |  tablename   |          indexname           | tablespace |                                                 indexdef                                                  
+------------------------+--------------+------------------------------+------------+-----------------------------------------------------------------------------------------------------------
+ partition_split_schema | sales_others | sales_others_sales_date_idx1 |            | CREATE INDEX sales_others_sales_date_idx1 ON partition_split_schema.sales_others USING btree (sales_date)
+(1 row)
+
+DROP TABLE sales_range CASCADE;
+--
+-- Test: some cases for splitting DEFAULT partition (different bounds)
+--
+CREATE TABLE sales_range (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date INT) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_others PARTITION OF sales_range DEFAULT;
+-- sales_error intersects with sales_dec2021 (lower bound)
+-- ERROR:  lower bound of partition "sales_error" is not equal to the upper bound of partition "sales_dec2021"
+ALTER TABLE sales_range SPLIT PARTITION sales_others INTO
+  (PARTITION sales_dec2021 FOR VALUES FROM (20211201) TO (20220101),
+   PARTITION sales_error FOR VALUES FROM (20211230) TO (20220201),
+   PARTITION sales_feb2022 FOR VALUES FROM (20220201) TO (20220301),
+   PARTITION sales_others DEFAULT);
+ERROR:  lower bound of partition "sales_error" is not equal to the upper bound of partition "sales_dec2021"
+LINE 3:    PARTITION sales_error FOR VALUES FROM (20211230) TO (2022...
+                                                  ^
+HINT:  ALTER TABLE ... MERGE PARTITIONS requires the partition bounds to be adjacent.
+-- sales_error intersects with sales_feb2022 (upper bound)
+-- ERROR:  lower bound of partition "sales_feb2022" is not equal to the upper bound of partition "sales_error"
+ALTER TABLE sales_range SPLIT PARTITION sales_others INTO
+  (PARTITION sales_dec2021 FOR VALUES FROM (20211201) TO (20220101),
+   PARTITION sales_error FOR VALUES FROM (20220101) TO (20220202),
+   PARTITION sales_feb2022 FOR VALUES FROM (20220201) TO (20220301),
+   PARTITION sales_others DEFAULT);
+ERROR:  lower bound of partition "sales_feb2022" is not equal to the upper bound of partition "sales_error"
+LINE 4:    PARTITION sales_feb2022 FOR VALUES FROM (20220201) TO (20...
+                                                    ^
+HINT:  ALTER TABLE ... MERGE PARTITIONS requires the partition bounds to be adjacent.
+-- sales_error intersects with sales_dec2021 (inside bound)
+-- ERROR:  lower bound of partition "sales_feb2022" is not equal to the upper bound of partition "sales_error"
+ALTER TABLE sales_range SPLIT PARTITION sales_others INTO
+  (PARTITION sales_dec2021 FOR VALUES FROM (20211201) TO (20220101),
+   PARTITION sales_error FOR VALUES FROM (20211210) TO (20211220),
+   PARTITION sales_feb2022 FOR VALUES FROM (20220201) TO (20220301),
+   PARTITION sales_others DEFAULT);
+ERROR:  lower bound of partition "sales_error" is not equal to the upper bound of partition "sales_dec2021"
+LINE 3:    PARTITION sales_error FOR VALUES FROM (20211210) TO (2021...
+                                                  ^
+HINT:  ALTER TABLE ... MERGE PARTITIONS requires the partition bounds to be adjacent.
+-- sales_error intersects with sales_dec2021 (exactly the same bounds)
+-- ERROR:  lower bound of partition "sales_feb2022" is not equal to the upper bound of partition "sales_error"
+ALTER TABLE sales_range SPLIT PARTITION sales_others INTO
+  (PARTITION sales_dec2021 FOR VALUES FROM (20211201) TO (20220101),
+   PARTITION sales_error FOR VALUES FROM (20211201) TO (20220101),
+   PARTITION sales_feb2022 FOR VALUES FROM (20220201) TO (20220301),
+   PARTITION sales_others DEFAULT);
+ERROR:  lower bound of partition "sales_error" is not equal to the upper bound of partition "sales_dec2021"
+LINE 3:    PARTITION sales_error FOR VALUES FROM (20211201) TO (2022...
+                                                  ^
+HINT:  ALTER TABLE ... MERGE PARTITIONS requires the partition bounds to be adjacent.
+-- ERROR:  one partition in the list should be DEFAULT because split partition is DEFAULT
+ALTER TABLE sales_range SPLIT PARTITION sales_others INTO
+  (PARTITION sales_dec2021 FOR VALUES FROM (20211201) TO (20220101),
+   PARTITION sales_jan2022 FOR VALUES FROM (20220101) TO (20220201),
+   PARTITION sales_feb2022 FOR VALUES FROM (20220201) TO (20220301));
+ERROR:  one partition in the list should be DEFAULT because split partition is DEFAULT
+LINE 2:   (PARTITION sales_dec2021 FOR VALUES FROM (20211201) TO (20...
+                     ^
+-- no error: bounds of sales_noerror are between sales_dec2021 and sales_feb2022
+ALTER TABLE sales_range SPLIT PARTITION sales_others INTO
+  (PARTITION sales_dec2021 FOR VALUES FROM (20211201) TO (20220101),
+   PARTITION sales_noerror FOR VALUES FROM (20220110) TO (20220120),
+   PARTITION sales_feb2022 FOR VALUES FROM (20220201) TO (20220301),
+   PARTITION sales_others DEFAULT);
+DROP TABLE sales_range;
+CREATE TABLE sales_range (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date INT) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_others PARTITION OF sales_range DEFAULT;
+-- no error: bounds of sales_noerror are equal to lower and upper bounds of sales_dec2021 and sales_feb2022
+ALTER TABLE sales_range SPLIT PARTITION sales_others INTO
+  (PARTITION sales_dec2021 FOR VALUES FROM (20211201) TO (20220101),
+   PARTITION sales_noerror FOR VALUES FROM (20210101) TO (20210201),
+   PARTITION sales_feb2022 FOR VALUES FROM (20220201) TO (20220301),
+   PARTITION sales_others DEFAULT);
+DROP TABLE sales_range;
+--
+-- Test: split partition with CHECK and FOREIGN KEY CONSTRAINTs on partitioned table
+--
+CREATE TABLE salespeople(salesperson_id INT PRIMARY KEY, salesperson_name VARCHAR(30));
+INSERT INTO salespeople VALUES (1,  'Poirot');
+CREATE TABLE sales_range (
+salesperson_id INT REFERENCES salespeople(salesperson_id),
+sales_amount INT CHECK (sales_amount > 1),
+sales_date DATE) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_jan2022 PARTITION OF sales_range FOR VALUES FROM ('2022-01-01') TO ('2022-02-01');
+CREATE TABLE sales_feb_mar_apr2022 PARTITION OF sales_range FOR VALUES FROM ('2022-02-01') TO ('2022-05-01');
+CREATE TABLE sales_others PARTITION OF sales_range DEFAULT;
+SELECT pg_get_constraintdef(oid), conname, conkey FROM pg_constraint WHERE conrelid = 'sales_feb_mar_apr2022'::regclass::oid ORDER BY conname;
+                        pg_get_constraintdef                         |             conname             | conkey 
+---------------------------------------------------------------------+---------------------------------+--------
+ CHECK ((sales_amount > 1))                                          | sales_range_sales_amount_check  | {2}
+ FOREIGN KEY (salesperson_id) REFERENCES salespeople(salesperson_id) | sales_range_salesperson_id_fkey | {1}
+(2 rows)
+
+ALTER TABLE sales_range SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION sales_feb2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION sales_mar2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'));
+-- We should see the same CONSTRAINTs as on sales_feb_mar_apr2022 partition
+SELECT pg_get_constraintdef(oid), conname, conkey FROM pg_constraint WHERE conrelid = 'sales_feb2022'::regclass::oid ORDER BY conname;;
+                        pg_get_constraintdef                         |             conname             | conkey 
+---------------------------------------------------------------------+---------------------------------+--------
+ CHECK ((sales_amount > 1))                                          | sales_range_sales_amount_check  | {2}
+ FOREIGN KEY (salesperson_id) REFERENCES salespeople(salesperson_id) | sales_range_salesperson_id_fkey | {1}
+(2 rows)
+
+SELECT pg_get_constraintdef(oid), conname, conkey FROM pg_constraint WHERE conrelid = 'sales_mar2022'::regclass::oid ORDER BY conname;;
+                        pg_get_constraintdef                         |             conname             | conkey 
+---------------------------------------------------------------------+---------------------------------+--------
+ CHECK ((sales_amount > 1))                                          | sales_range_sales_amount_check  | {2}
+ FOREIGN KEY (salesperson_id) REFERENCES salespeople(salesperson_id) | sales_range_salesperson_id_fkey | {1}
+(2 rows)
+
+SELECT pg_get_constraintdef(oid), conname, conkey FROM pg_constraint WHERE conrelid = 'sales_apr2022'::regclass::oid ORDER BY conname;;
+                        pg_get_constraintdef                         |             conname             | conkey 
+---------------------------------------------------------------------+---------------------------------+--------
+ CHECK ((sales_amount > 1))                                          | sales_range_sales_amount_check  | {2}
+ FOREIGN KEY (salesperson_id) REFERENCES salespeople(salesperson_id) | sales_range_salesperson_id_fkey | {1}
+(2 rows)
+
+-- ERROR:  new row for relation "sales_mar2022" violates check constraint "sales_range_sales_amount_check"
+INSERT INTO sales_range VALUES (1, 0, '2022-03-11');
+ERROR:  new row for relation "sales_mar2022" violates check constraint "sales_range_sales_amount_check"
+DETAIL:  Failing row contains (1, 0, 03-11-2022).
+-- ERROR:  insert or update on table "sales_mar2022" violates foreign key constraint "sales_range_salesperson_id_fkey"
+INSERT INTO sales_range VALUES (-1, 10, '2022-03-11');
+ERROR:  insert or update on table "sales_mar2022" violates foreign key constraint "sales_range_salesperson_id_fkey"
+DETAIL:  Key (salesperson_id)=(-1) is not present in table "salespeople".
+-- ok
+INSERT INTO sales_range VALUES (1, 10, '2022-03-11');
+DROP TABLE sales_range CASCADE;
+DROP TABLE salespeople CASCADE;
+--
+-- Test: split partition on partitioned table in case of existing FOREIGN KEY reference from another table
+--
+CREATE TABLE salespeople(salesperson_id INT PRIMARY KEY, salesperson_name VARCHAR(30)) PARTITION BY RANGE (salesperson_id);
+CREATE TABLE sales (salesperson_id INT REFERENCES salespeople(salesperson_id), sales_amount INT, sales_date DATE);
+CREATE TABLE salespeople01_10 PARTITION OF salespeople FOR VALUES FROM (1) TO (10);
+CREATE TABLE salespeople10_40 PARTITION OF salespeople FOR VALUES FROM (10) TO (40);
+INSERT INTO salespeople VALUES
+  (1,  'Poirot'),
+  (10, 'May'),
+  (19, 'Ivanov'),
+  (20, 'Smirnoff'),
+  (30, 'Ford');
+INSERT INTO sales VALUES
+  (1,  100, '2022-03-01'),
+  (1,  110, '2022-03-02'),
+  (10, 150, '2022-03-01'),
+  (10, 90,  '2022-03-03'),
+  (19, 200, '2022-03-04'),
+  (20, 50,  '2022-03-12'),
+  (20, 170, '2022-03-02'),
+  (30, 30,  '2022-03-04');
+SELECT tableoid::regclass, * FROM salespeople ORDER BY tableoid, salesperson_id;
+     tableoid     | salesperson_id | salesperson_name 
+------------------+----------------+------------------
+ salespeople01_10 |              1 | Poirot
+ salespeople10_40 |             10 | May
+ salespeople10_40 |             19 | Ivanov
+ salespeople10_40 |             20 | Smirnoff
+ salespeople10_40 |             30 | Ford
+(5 rows)
+
+ALTER TABLE salespeople SPLIT PARTITION salespeople10_40 INTO
+  (PARTITION salespeople10_20 FOR VALUES FROM (10) TO (20),
+   PARTITION salespeople20_30 FOR VALUES FROM (20) TO (30),
+   PARTITION salespeople30_40 FOR VALUES FROM (30) TO (40));
+SELECT tableoid::regclass, * FROM salespeople ORDER BY tableoid, salesperson_id;
+     tableoid     | salesperson_id | salesperson_name 
+------------------+----------------+------------------
+ salespeople01_10 |              1 | Poirot
+ salespeople10_20 |             10 | May
+ salespeople10_20 |             19 | Ivanov
+ salespeople20_30 |             20 | Smirnoff
+ salespeople30_40 |             30 | Ford
+(5 rows)
+
+-- ERROR:  insert or update on table "sales" violates foreign key constraint "sales_salesperson_id_fkey"
+INSERT INTO sales VALUES (40, 50,  '2022-03-04');
+ERROR:  insert or update on table "sales" violates foreign key constraint "sales_salesperson_id_fkey"
+DETAIL:  Key (salesperson_id)=(40) is not present in table "salespeople".
+-- ok
+INSERT INTO sales VALUES (30, 50,  '2022-03-04');
+DROP TABLE sales CASCADE;
+DROP TABLE salespeople CASCADE;
+--
+-- Test: split partition of partitioned table with triggers
+--
+CREATE TABLE salespeople(salesperson_id INT PRIMARY KEY, salesperson_name VARCHAR(30)) PARTITION BY RANGE (salesperson_id);
+CREATE TABLE salespeople01_10 PARTITION OF salespeople FOR VALUES FROM (1) TO (10);
+CREATE TABLE salespeople10_40 PARTITION OF salespeople FOR VALUES FROM (10) TO (40);
+INSERT INTO salespeople VALUES (1,  'Poirot');
+CREATE OR REPLACE FUNCTION after_insert_row_trigger() RETURNS trigger LANGUAGE 'plpgsql' AS $BODY$
+BEGIN
+    RAISE NOTICE 'trigger(%) called: action = %, when = %, level = %', TG_ARGV[0], TG_OP, TG_WHEN, TG_LEVEL;
+    RETURN NULL;
+END;
+$BODY$;
+CREATE TRIGGER salespeople_after_insert_statement_trigger
+    AFTER INSERT
+    ON salespeople
+    FOR EACH STATEMENT
+    EXECUTE PROCEDURE after_insert_row_trigger('salespeople');
+CREATE TRIGGER salespeople_after_insert_row_trigger
+    AFTER INSERT
+    ON salespeople
+    FOR EACH ROW
+    EXECUTE PROCEDURE after_insert_row_trigger('salespeople');
+-- 2 triggers should fire here (row + statement):
+INSERT INTO salespeople VALUES (10, 'May');
+NOTICE:  trigger(salespeople) called: action = INSERT, when = AFTER, level = ROW
+NOTICE:  trigger(salespeople) called: action = INSERT, when = AFTER, level = STATEMENT
+-- 1 trigger should fire here (row):
+INSERT INTO salespeople10_40 VALUES (19, 'Ivanov');
+NOTICE:  trigger(salespeople) called: action = INSERT, when = AFTER, level = ROW
+ALTER TABLE salespeople SPLIT PARTITION salespeople10_40 INTO
+  (PARTITION salespeople10_20 FOR VALUES FROM (10) TO (20),
+   PARTITION salespeople20_30 FOR VALUES FROM (20) TO (30),
+   PARTITION salespeople30_40 FOR VALUES FROM (30) TO (40));
+-- 2 triggers should fire here (row + statement):
+INSERT INTO salespeople VALUES (20, 'Smirnoff');
+NOTICE:  trigger(salespeople) called: action = INSERT, when = AFTER, level = ROW
+NOTICE:  trigger(salespeople) called: action = INSERT, when = AFTER, level = STATEMENT
+-- 1 trigger should fire here (row):
+INSERT INTO salespeople30_40 VALUES (30, 'Ford');
+NOTICE:  trigger(salespeople) called: action = INSERT, when = AFTER, level = ROW
+SELECT tableoid::regclass, * FROM salespeople ORDER BY tableoid, salesperson_id;
+     tableoid     | salesperson_id | salesperson_name 
+------------------+----------------+------------------
+ salespeople01_10 |              1 | Poirot
+ salespeople10_20 |             10 | May
+ salespeople10_20 |             19 | Ivanov
+ salespeople20_30 |             20 | Smirnoff
+ salespeople30_40 |             30 | Ford
+(5 rows)
+
+DROP TABLE salespeople CASCADE;
+DROP FUNCTION after_insert_row_trigger();
+--
+-- Test: split partition witch identity column
+-- If split partition column is identity column, columns of new partitions are identity columns too.
+--
+CREATE TABLE salespeople(salesperson_id INT GENERATED ALWAYS AS IDENTITY PRIMARY KEY, salesperson_name VARCHAR(30)) PARTITION BY RANGE (salesperson_id);
+CREATE TABLE salespeople1_2 PARTITION OF salespeople FOR VALUES FROM (1) TO (2);
+-- Create new partition with identity column:
+CREATE TABLE salespeople2_5(salesperson_id INT NOT NULL, salesperson_name VARCHAR(30));
+ALTER TABLE salespeople ATTACH PARTITION salespeople2_5 FOR VALUES FROM (2) TO (5);
+INSERT INTO salespeople (salesperson_name) VALUES ('Poirot'), ('Ivanov');
+SELECT attname, attidentity, attgenerated FROM pg_attribute WHERE attnum > 0 AND attrelid = 'salespeople'::regclass::oid ORDER BY attnum;
+     attname      | attidentity | attgenerated 
+------------------+-------------+--------------
+ salesperson_id   | a           | 
+ salesperson_name |             | 
+(2 rows)
+
+SELECT attname, attidentity, attgenerated FROM pg_attribute WHERE attnum > 0 AND attrelid = 'salespeople1_2'::regclass::oid ORDER BY attnum;
+     attname      | attidentity | attgenerated 
+------------------+-------------+--------------
+ salesperson_id   | a           | 
+ salesperson_name |             | 
+(2 rows)
+
+-- Split partition has identity column:
+SELECT attname, attidentity, attgenerated FROM pg_attribute WHERE attnum > 0 AND attrelid = 'salespeople2_5'::regclass::oid ORDER BY attnum;
+     attname      | attidentity | attgenerated 
+------------------+-------------+--------------
+ salesperson_id   | a           | 
+ salesperson_name |             | 
+(2 rows)
+
+ALTER TABLE salespeople SPLIT PARTITION salespeople2_5 INTO
+  (PARTITION salespeople2_3 FOR VALUES FROM (2) TO (3),
+   PARTITION salespeople3_4 FOR VALUES FROM (3) TO (4),
+   PARTITION salespeople4_5 FOR VALUES FROM (4) TO (5));
+INSERT INTO salespeople (salesperson_name) VALUES ('May'), ('Ford');
+SELECT tableoid::regclass, * FROM salespeople ORDER BY tableoid, salesperson_id;
+    tableoid    | salesperson_id | salesperson_name 
+----------------+----------------+------------------
+ salespeople1_2 |              1 | Poirot
+ salespeople2_3 |              2 | Ivanov
+ salespeople3_4 |              3 | May
+ salespeople4_5 |              4 | Ford
+(4 rows)
+
+SELECT attname, attidentity, attgenerated FROM pg_attribute WHERE attnum > 0 AND attrelid = 'salespeople'::regclass::oid ORDER BY attnum;
+     attname      | attidentity | attgenerated 
+------------------+-------------+--------------
+ salesperson_id   | a           | 
+ salesperson_name |             | 
+(2 rows)
+
+SELECT attname, attidentity, attgenerated FROM pg_attribute WHERE attnum > 0 AND attrelid = 'salespeople1_2'::regclass::oid ORDER BY attnum;
+     attname      | attidentity | attgenerated 
+------------------+-------------+--------------
+ salesperson_id   | a           | 
+ salesperson_name |             | 
+(2 rows)
+
+-- New partitions have identity-columns:
+SELECT attname, attidentity, attgenerated FROM pg_attribute WHERE attnum > 0 AND attrelid = 'salespeople2_3'::regclass::oid ORDER BY attnum;
+     attname      | attidentity | attgenerated 
+------------------+-------------+--------------
+ salesperson_id   | a           | 
+ salesperson_name |             | 
+(2 rows)
+
+SELECT attname, attidentity, attgenerated FROM pg_attribute WHERE attnum > 0 AND attrelid = 'salespeople3_4'::regclass::oid ORDER BY attnum;
+     attname      | attidentity | attgenerated 
+------------------+-------------+--------------
+ salesperson_id   | a           | 
+ salesperson_name |             | 
+(2 rows)
+
+SELECT attname, attidentity, attgenerated FROM pg_attribute WHERE attnum > 0 AND attrelid = 'salespeople4_5'::regclass::oid ORDER BY attnum;
+     attname      | attidentity | attgenerated 
+------------------+-------------+--------------
+ salesperson_id   | a           | 
+ salesperson_name |             | 
+(2 rows)
+
+DROP TABLE salespeople CASCADE;
+--
+-- Test: split partition with deleted columns
+--
+CREATE TABLE salespeople(salesperson_id INT PRIMARY KEY, salesperson_name VARCHAR(30)) PARTITION BY RANGE (salesperson_id);
+CREATE TABLE salespeople01_10 PARTITION OF salespeople FOR VALUES FROM (1) TO (10);
+-- Create new partition with some deleted columns:
+CREATE TABLE salespeople10_40(d1 VARCHAR(30), salesperson_id INT PRIMARY KEY, d2 INT, d3 DATE, salesperson_name VARCHAR(30));
+INSERT INTO salespeople10_40 VALUES
+  ('dummy value 1', 19, 100, now(), 'Ivanov'),
+  ('dummy value 2', 20, 101, now(), 'Smirnoff');
+ALTER TABLE salespeople10_40 DROP COLUMN d1;
+ALTER TABLE salespeople10_40 DROP COLUMN d2;
+ALTER TABLE salespeople10_40 DROP COLUMN d3;
+ALTER TABLE salespeople ATTACH PARTITION salespeople10_40 FOR VALUES FROM (10) TO (40);
+INSERT INTO salespeople VALUES
+  (1, 'Poirot'),
+  (10, 'May'),
+  (30, 'Ford');
+ALTER TABLE salespeople SPLIT PARTITION salespeople10_40 INTO
+  (PARTITION salespeople10_20 FOR VALUES FROM (10) TO (20),
+   PARTITION salespeople20_30 FOR VALUES FROM (20) TO (30),
+   PARTITION salespeople30_40 FOR VALUES FROM (30) TO (40));
+SELECT tableoid::regclass, * FROM salespeople ORDER BY tableoid, salesperson_id;
+     tableoid     | salesperson_id | salesperson_name 
+------------------+----------------+------------------
+ salespeople01_10 |              1 | Poirot
+ salespeople10_20 |             10 | May
+ salespeople10_20 |             19 | Ivanov
+ salespeople20_30 |             20 | Smirnoff
+ salespeople30_40 |             30 | Ford
+(5 rows)
+
+DROP TABLE salespeople CASCADE;
+--
+-- Test: split sub-partition
+--
+CREATE TABLE sales_range (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date DATE) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_jan2022 PARTITION OF sales_range FOR VALUES FROM ('2022-01-01') TO ('2022-02-01');
+CREATE TABLE sales_feb2022 PARTITION OF sales_range FOR VALUES FROM ('2022-02-01') TO ('2022-03-01');
+CREATE TABLE sales_mar2022 PARTITION OF sales_range FOR VALUES FROM ('2022-03-01') TO ('2022-04-01');
+CREATE TABLE sales_apr2022 (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date DATE) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_apr_all PARTITION OF sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01');
+ALTER TABLE sales_range ATTACH PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01');
+CREATE TABLE sales_others PARTITION OF sales_range DEFAULT;
+CREATE INDEX sales_range_sales_date_idx ON sales_range USING btree (sales_date);
+INSERT INTO sales_range VALUES
+  (1,  'May',      1000, '2022-01-31'),
+  (2,  'Smirnoff', 500,  '2022-02-10'),
+  (3,  'Ford',     2000, '2022-04-30'),
+  (4,  'Ivanov',   750,  '2022-04-13'),
+  (5,  'Deev',     250,  '2022-04-07'),
+  (6,  'Poirot',   150,  '2022-02-11'),
+  (7,  'Li',       175,  '2022-03-08'),
+  (8,  'Ericsson', 185,  '2022-02-23'),
+  (9,  'Muller',   250,  '2022-03-11'),
+  (10, 'Halder',   350,  '2022-01-28'),
+  (11, 'Trump',    380,  '2022-04-06'),
+  (12, 'Plato',    350,  '2022-03-19'),
+  (13, 'Gandi',    377,  '2022-01-09'),
+  (14, 'Smith',    510,  '2022-05-04');
+SELECT * FROM sales_range;
+ salesperson_id | salesperson_name | sales_amount | sales_date 
+----------------+------------------+--------------+------------
+              1 | May              |         1000 | 01-31-2022
+             10 | Halder           |          350 | 01-28-2022
+             13 | Gandi            |          377 | 01-09-2022
+              2 | Smirnoff         |          500 | 02-10-2022
+              6 | Poirot           |          150 | 02-11-2022
+              8 | Ericsson         |          185 | 02-23-2022
+              7 | Li               |          175 | 03-08-2022
+              9 | Muller           |          250 | 03-11-2022
+             12 | Plato            |          350 | 03-19-2022
+              3 | Ford             |         2000 | 04-30-2022
+              4 | Ivanov           |          750 | 04-13-2022
+              5 | Deev             |          250 | 04-07-2022
+             11 | Trump            |          380 | 04-06-2022
+             14 | Smith            |          510 | 05-04-2022
+(14 rows)
+
+SELECT * FROM sales_apr2022;
+ salesperson_id | salesperson_name | sales_amount | sales_date 
+----------------+------------------+--------------+------------
+              3 | Ford             |         2000 | 04-30-2022
+              4 | Ivanov           |          750 | 04-13-2022
+              5 | Deev             |          250 | 04-07-2022
+             11 | Trump            |          380 | 04-06-2022
+(4 rows)
+
+ALTER TABLE sales_apr2022 SPLIT PARTITION sales_apr_all INTO
+  (PARTITION sales_apr2022_01_10 FOR VALUES FROM ('2022-04-01') TO ('2022-04-10'),
+   PARTITION sales_apr2022_10_20 FOR VALUES FROM ('2022-04-10') TO ('2022-04-20'),
+   PARTITION sales_apr2022_20_30 FOR VALUES FROM ('2022-04-20') TO ('2022-05-01'));
+SELECT tableoid::regclass, * FROM sales_range ORDER BY tableoid, salesperson_id;
+      tableoid       | salesperson_id | salesperson_name | sales_amount | sales_date 
+---------------------+----------------+------------------+--------------+------------
+ sales_jan2022       |              1 | May              |         1000 | 01-31-2022
+ sales_jan2022       |             10 | Halder           |          350 | 01-28-2022
+ sales_jan2022       |             13 | Gandi            |          377 | 01-09-2022
+ sales_feb2022       |              2 | Smirnoff         |          500 | 02-10-2022
+ sales_feb2022       |              6 | Poirot           |          150 | 02-11-2022
+ sales_feb2022       |              8 | Ericsson         |          185 | 02-23-2022
+ sales_mar2022       |              7 | Li               |          175 | 03-08-2022
+ sales_mar2022       |              9 | Muller           |          250 | 03-11-2022
+ sales_mar2022       |             12 | Plato            |          350 | 03-19-2022
+ sales_others        |             14 | Smith            |          510 | 05-04-2022
+ sales_apr2022_01_10 |              5 | Deev             |          250 | 04-07-2022
+ sales_apr2022_01_10 |             11 | Trump            |          380 | 04-06-2022
+ sales_apr2022_10_20 |              4 | Ivanov           |          750 | 04-13-2022
+ sales_apr2022_20_30 |              3 | Ford             |         2000 | 04-30-2022
+(14 rows)
+
+DROP TABLE sales_range;
+--
+-- BY LIST partitioning
+--
+--
+-- Test: specific errors for BY LIST partitioning
+--
+CREATE TABLE sales_list
+(salesperson_id INT,
+ salesperson_name VARCHAR(30),
+ sales_state VARCHAR(20),
+ sales_amount INT,
+ sales_date DATE)
+PARTITION BY LIST (sales_state);
+CREATE TABLE sales_nord PARTITION OF sales_list FOR VALUES IN ('Oslo', 'St. Petersburg', 'Helsinki');
+CREATE TABLE sales_all PARTITION OF sales_list FOR VALUES IN ('Warsaw', 'Lisbon', 'New York', 'Madrid', 'Bejing', 'Berlin', 'Delhi', 'Kyiv', 'Vladivostok');
+CREATE TABLE sales_others PARTITION OF sales_list DEFAULT;
+-- ERROR:  new partition "sales_east" would overlap with another (not split) partition "sales_nord"
+ALTER TABLE sales_list SPLIT PARTITION sales_all INTO
+  (PARTITION sales_west FOR VALUES IN ('Lisbon', 'New York', 'Madrid'),
+   PARTITION sales_east FOR VALUES IN ('Bejing', 'Delhi', 'Vladivostok', 'Helsinki'),
+   PARTITION sales_central FOR VALUES IN ('Warsaw', 'Berlin', 'Kyiv'));
+ERROR:  new partition "sales_east" would overlap with another (not split) partition "sales_nord"
+LINE 3: ... FOR VALUES IN ('Bejing', 'Delhi', 'Vladivostok', 'Helsinki'...
+                                                             ^
+-- ERROR:  new partition "sales_west" would overlap with another new partition "sales_central"
+ALTER TABLE sales_list SPLIT PARTITION sales_all INTO
+  (PARTITION sales_west FOR VALUES IN ('Lisbon', 'New York', 'Madrid'),
+   PARTITION sales_east FOR VALUES IN ('Bejing', 'Delhi', 'Vladivostok'),
+   PARTITION sales_central FOR VALUES IN ('Warsaw', 'Berlin', 'Lisbon', 'Kyiv'));
+ERROR:  new partition "sales_west" would overlap with another new partition "sales_central"
+LINE 2:   (PARTITION sales_west FOR VALUES IN ('Lisbon', 'New York',...
+                                               ^
+-- ERROR:  new partition "sales_west" cannot have NULL value because split partition does not have
+ALTER TABLE sales_list SPLIT PARTITION sales_all INTO
+  (PARTITION sales_west FOR VALUES IN ('Lisbon', 'New York', 'Madrid', NULL),
+   PARTITION sales_east FOR VALUES IN ('Bejing', 'Delhi', 'Vladivostok'),
+   PARTITION sales_central FOR VALUES IN ('Warsaw', 'Berlin', 'Kyiv'));
+ERROR:  new partition "sales_west" cannot have NULL value because split partition does not have
+LINE 2: ...s_west FOR VALUES IN ('Lisbon', 'New York', 'Madrid', NULL),
+                                                                 ^
+-- ERROR:  new partition "sales_west" cannot have this value because split partition does not have
+ALTER TABLE sales_list SPLIT PARTITION sales_all INTO
+  (PARTITION sales_west FOR VALUES IN ('Lisbon', 'New York', 'Madrid', 'Melbourne'),
+   PARTITION sales_east FOR VALUES IN ('Bejing', 'Delhi', 'Vladivostok'),
+   PARTITION sales_central FOR VALUES IN ('Warsaw', 'Berlin', 'Kyiv'));
+ERROR:  new partition "sales_west" cannot have this value because split partition does not have
+LINE 2: ...st FOR VALUES IN ('Lisbon', 'New York', 'Madrid', 'Melbourne...
+                                                             ^
+-- ERROR:  new partition cannot be DEFAULT because DEFAULT partition already exists
+ALTER TABLE sales_list SPLIT PARTITION sales_all INTO
+  (PARTITION sales_west FOR VALUES IN ('Lisbon', 'New York', 'Madrid', 'Melbourne'),
+   PARTITION sales_east FOR VALUES IN ('Bejing', 'Delhi', 'Vladivostok'),
+   PARTITION sales_central FOR VALUES IN ('Warsaw', 'Berlin', 'Kyiv'),
+   PARTITION sales_others2 DEFAULT);
+ERROR:  new partition cannot be DEFAULT because DEFAULT partition already exists
+LINE 5:    PARTITION sales_others2 DEFAULT);
+                     ^
+DROP TABLE sales_list;
+--
+-- Test: two specific errors for BY LIST partitioning:
+--   * new partitions do not have NULL value, which split partition has.
+--   * new partitions do not have a value that split partition has.
+--
+CREATE TABLE sales_list
+(salesperson_id INT,
+ salesperson_name VARCHAR(30),
+ sales_state VARCHAR(20),
+ sales_amount INT,
+ sales_date DATE)
+PARTITION BY LIST (sales_state);
+CREATE TABLE sales_nord PARTITION OF sales_list FOR VALUES IN ('Helsinki', 'St. Petersburg', 'Oslo');
+CREATE TABLE sales_all PARTITION OF sales_list FOR VALUES IN ('Warsaw', 'Lisbon', 'New York', 'Madrid', 'Bejing', 'Berlin', 'Delhi', 'Kyiv', 'Vladivostok', NULL);
+-- ERROR:  new partitions do not have value NULL but split partition does
+ALTER TABLE sales_list SPLIT PARTITION sales_all INTO
+  (PARTITION sales_west FOR VALUES IN ('Lisbon', 'New York', 'Madrid'),
+   PARTITION sales_east FOR VALUES IN ('Bejing', 'Delhi', 'Vladivostok'),
+   PARTITION sales_central FOR VALUES IN ('Warsaw', 'Berlin', 'Kyiv'));
+ERROR:  new partitions do not have value NULL but split partition does
+-- ERROR:  new partitions do not have value 'Kyiv' but split partition does
+ALTER TABLE sales_list SPLIT PARTITION sales_all INTO
+  (PARTITION sales_west FOR VALUES IN ('Lisbon', 'New York', 'Madrid'),
+   PARTITION sales_east FOR VALUES IN ('Bejing', 'Delhi', 'Vladivostok'),
+   PARTITION sales_central FOR VALUES IN ('Warsaw', 'Berlin', NULL));
+ERROR:  new partitions do not have value 'Kyiv' but split partition does
+-- ERROR  DEFAULT partition should be one
+ALTER TABLE sales_list SPLIT PARTITION sales_all INTO
+  (PARTITION sales_west FOR VALUES IN ('Lisbon', 'New York', 'Madrid'),
+   PARTITION sales_east FOR VALUES IN ('Bejing', 'Delhi', 'Vladivostok'),
+   PARTITION sales_central FOR VALUES IN ('Warsaw', 'Berlin', 'Kyiv'),
+   PARTITION sales_others DEFAULT,
+   PARTITION sales_others2 DEFAULT);
+ERROR:  DEFAULT partition should be one
+LINE 6:    PARTITION sales_others2 DEFAULT);
+                     ^
+DROP TABLE sales_list;
+--
+-- Test: BY LIST partitioning, SPLIT PARTITION with data
+--
+CREATE TABLE sales_list
+(salesperson_id SERIAL,
+ salesperson_name VARCHAR(30),
+ sales_state VARCHAR(20),
+ sales_amount INT,
+ sales_date DATE)
+PARTITION BY LIST (sales_state);
+CREATE INDEX sales_list_salesperson_name_idx ON sales_list USING btree (salesperson_name);
+CREATE INDEX sales_list_sales_state_idx ON sales_list USING btree (sales_state);
+CREATE TABLE sales_nord PARTITION OF sales_list FOR VALUES IN ('Helsinki', 'St. Petersburg', 'Oslo');
+CREATE TABLE sales_all PARTITION OF sales_list FOR VALUES IN ('Warsaw', 'Lisbon', 'New York', 'Madrid', 'Bejing', 'Berlin', 'Delhi', 'Kyiv', 'Vladivostok');
+CREATE TABLE sales_others PARTITION OF sales_list DEFAULT;
+INSERT INTO sales_list (salesperson_name, sales_state, sales_amount, sales_date) VALUES
+  ('Trump',    'Bejing',         1000, '2022-03-01'),
+  ('Smirnoff', 'New York',        500, '2022-03-03'),
+  ('Ford',     'St. Petersburg', 2000, '2022-03-05'),
+  ('Ivanov',   'Warsaw',          750, '2022-03-04'),
+  ('Deev',     'Lisbon',          250, '2022-03-07'),
+  ('Poirot',   'Berlin',         1000, '2022-03-01'),
+  ('May',      'Oslo',           1200, '2022-03-06'),
+  ('Li',       'Vladivostok',    1150, '2022-03-09'),
+  ('May',      'Oslo',           1200, '2022-03-11'),
+  ('Halder',   'Helsinki',        800, '2022-03-02'),
+  ('Muller',   'Madrid',          650, '2022-03-05'),
+  ('Smith',    'Kyiv',            350, '2022-03-10'),
+  ('Gandi',    'Warsaw',          150, '2022-03-08'),
+  ('Plato',    'Lisbon',          950, '2022-03-05');
+ALTER TABLE sales_list SPLIT PARTITION sales_all INTO
+  (PARTITION sales_west FOR VALUES IN ('Lisbon', 'New York', 'Madrid'),
+   PARTITION sales_east FOR VALUES IN ('Bejing', 'Delhi', 'Vladivostok'),
+   PARTITION sales_central FOR VALUES IN ('Warsaw', 'Berlin', 'Kyiv'));
+SELECT tableoid::regclass, * FROM sales_list ORDER BY tableoid, salesperson_id;
+   tableoid    | salesperson_id | salesperson_name |  sales_state   | sales_amount | sales_date 
+---------------+----------------+------------------+----------------+--------------+------------
+ sales_nord    |              3 | Ford             | St. Petersburg |         2000 | 03-05-2022
+ sales_nord    |              7 | May              | Oslo           |         1200 | 03-06-2022
+ sales_nord    |              9 | May              | Oslo           |         1200 | 03-11-2022
+ sales_nord    |             10 | Halder           | Helsinki       |          800 | 03-02-2022
+ sales_west    |              2 | Smirnoff         | New York       |          500 | 03-03-2022
+ sales_west    |              5 | Deev             | Lisbon         |          250 | 03-07-2022
+ sales_west    |             11 | Muller           | Madrid         |          650 | 03-05-2022
+ sales_west    |             14 | Plato            | Lisbon         |          950 | 03-05-2022
+ sales_east    |              1 | Trump            | Bejing         |         1000 | 03-01-2022
+ sales_east    |              8 | Li               | Vladivostok    |         1150 | 03-09-2022
+ sales_central |              4 | Ivanov           | Warsaw         |          750 | 03-04-2022
+ sales_central |              6 | Poirot           | Berlin         |         1000 | 03-01-2022
+ sales_central |             12 | Smith            | Kyiv           |          350 | 03-10-2022
+ sales_central |             13 | Gandi            | Warsaw         |          150 | 03-08-2022
+(14 rows)
+
+-- Use indexscan for testing indexes after splitting partition
+SET enable_indexscan = ON;
+SET enable_seqscan = OFF;
+SELECT * FROM sales_central WHERE sales_state = 'Warsaw';
+ salesperson_id | salesperson_name | sales_state | sales_amount | sales_date 
+----------------+------------------+-------------+--------------+------------
+              4 | Ivanov           | Warsaw      |          750 | 03-04-2022
+             13 | Gandi            | Warsaw      |          150 | 03-08-2022
+(2 rows)
+
+SELECT * FROM sales_list WHERE sales_state = 'Warsaw';
+ salesperson_id | salesperson_name | sales_state | sales_amount | sales_date 
+----------------+------------------+-------------+--------------+------------
+              4 | Ivanov           | Warsaw      |          750 | 03-04-2022
+             13 | Gandi            | Warsaw      |          150 | 03-08-2022
+(2 rows)
+
+SELECT * FROM sales_list WHERE salesperson_name = 'Ivanov';
+ salesperson_id | salesperson_name | sales_state | sales_amount | sales_date 
+----------------+------------------+-------------+--------------+------------
+              4 | Ivanov           | Warsaw      |          750 | 03-04-2022
+(1 row)
+
+SET enable_indexscan = ON;
+SET enable_seqscan = ON;
+DROP TABLE sales_list;
+--
+-- Test for:
+--   * split DEFAULT partition to partitions with spaces between bounds;
+--   * random order of partitions in SPLIT PARTITION command.
+--
+CREATE TABLE sales_range (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date DATE) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_others PARTITION OF sales_range DEFAULT;
+INSERT INTO sales_range VALUES
+  (1,  'May',      1000, '2022-01-31'),
+  (2,  'Smirnoff', 500,  '2022-02-09'),
+  (3,  'Ford',     2000, '2022-04-30'),
+  (4,  'Ivanov',   750,  '2022-04-13'),
+  (5,  'Deev',     250,  '2022-04-07'),
+  (6,  'Poirot',   150,  '2022-02-07'),
+  (7,  'Li',       175,  '2022-03-08'),
+  (8,  'Ericsson', 185,  '2022-02-23'),
+  (9,  'Muller',   250,  '2022-03-11'),
+  (10, 'Halder',   350,  '2022-01-28'),
+  (11, 'Trump',    380,  '2022-04-06'),
+  (12, 'Plato',    350,  '2022-03-19'),
+  (13, 'Gandi',    377,  '2022-01-09'),
+  (14, 'Smith',    510,  '2022-05-04');
+ALTER TABLE sales_range SPLIT PARTITION sales_others INTO
+  (PARTITION sales_others DEFAULT,
+   PARTITION sales_mar2022_1decade FOR VALUES FROM ('2022-03-01') TO ('2022-03-10'),
+   PARTITION sales_jan2022_1decade FOR VALUES FROM ('2022-01-01') TO ('2022-01-10'),
+   PARTITION sales_feb2022_1decade FOR VALUES FROM ('2022-02-01') TO ('2022-02-10'),
+   PARTITION sales_apr2022_1decade FOR VALUES FROM ('2022-04-01') TO ('2022-04-10'));
+SELECT tableoid::regclass, * FROM sales_range ORDER BY tableoid, salesperson_id;
+       tableoid        | salesperson_id | salesperson_name | sales_amount | sales_date 
+-----------------------+----------------+------------------+--------------+------------
+ sales_others          |              1 | May              |         1000 | 01-31-2022
+ sales_others          |              3 | Ford             |         2000 | 04-30-2022
+ sales_others          |              4 | Ivanov           |          750 | 04-13-2022
+ sales_others          |              8 | Ericsson         |          185 | 02-23-2022
+ sales_others          |              9 | Muller           |          250 | 03-11-2022
+ sales_others          |             10 | Halder           |          350 | 01-28-2022
+ sales_others          |             12 | Plato            |          350 | 03-19-2022
+ sales_others          |             14 | Smith            |          510 | 05-04-2022
+ sales_mar2022_1decade |              7 | Li               |          175 | 03-08-2022
+ sales_jan2022_1decade |             13 | Gandi            |          377 | 01-09-2022
+ sales_feb2022_1decade |              2 | Smirnoff         |          500 | 02-09-2022
+ sales_feb2022_1decade |              6 | Poirot           |          150 | 02-07-2022
+ sales_apr2022_1decade |              5 | Deev             |          250 | 04-07-2022
+ sales_apr2022_1decade |             11 | Trump            |          380 | 04-06-2022
+(14 rows)
+
+DROP TABLE sales_range;
+--
+-- Test for:
+--   * split non-DEFAULT partition to partitions with spaces between bounds;
+--   * random order of partitions in SPLIT PARTITION command.
+--
+CREATE TABLE sales_range (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date DATE) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_all PARTITION OF sales_range FOR VALUES FROM ('2022-01-01') TO ('2022-05-01');
+CREATE TABLE sales_others PARTITION OF sales_range DEFAULT;
+INSERT INTO sales_range VALUES
+  (1,  'May',      1000, '2022-01-31'),
+  (2,  'Smirnoff', 500,  '2022-02-09'),
+  (3,  'Ford',     2000, '2022-04-30'),
+  (4,  'Ivanov',   750,  '2022-04-13'),
+  (5,  'Deev',     250,  '2022-04-07'),
+  (6,  'Poirot',   150,  '2022-02-07'),
+  (7,  'Li',       175,  '2022-03-08'),
+  (8,  'Ericsson', 185,  '2022-02-23'),
+  (9,  'Muller',   250,  '2022-03-11'),
+  (10, 'Halder',   350,  '2022-01-28'),
+  (11, 'Trump',    380,  '2022-04-06'),
+  (12, 'Plato',    350,  '2022-03-19'),
+  (13, 'Gandi',    377,  '2022-01-09'),
+  (14, 'Smith',    510,  '2022-05-04');
+ALTER TABLE sales_range SPLIT PARTITION sales_all INTO
+  (PARTITION sales_mar2022_1decade FOR VALUES FROM ('2022-03-01') TO ('2022-03-10'),
+   PARTITION sales_jan2022_1decade FOR VALUES FROM ('2022-01-01') TO ('2022-01-10'),
+   PARTITION sales_feb2022_1decade FOR VALUES FROM ('2022-02-01') TO ('2022-02-10'),
+   PARTITION sales_apr2022_1decade FOR VALUES FROM ('2022-04-01') TO ('2022-04-10'));
+SELECT tableoid::regclass, * FROM sales_range ORDER BY tableoid, salesperson_id;
+       tableoid        | salesperson_id | salesperson_name | sales_amount | sales_date 
+-----------------------+----------------+------------------+--------------+------------
+ sales_others          |              1 | May              |         1000 | 01-31-2022
+ sales_others          |              3 | Ford             |         2000 | 04-30-2022
+ sales_others          |              4 | Ivanov           |          750 | 04-13-2022
+ sales_others          |              8 | Ericsson         |          185 | 02-23-2022
+ sales_others          |              9 | Muller           |          250 | 03-11-2022
+ sales_others          |             10 | Halder           |          350 | 01-28-2022
+ sales_others          |             12 | Plato            |          350 | 03-19-2022
+ sales_others          |             14 | Smith            |          510 | 05-04-2022
+ sales_mar2022_1decade |              7 | Li               |          175 | 03-08-2022
+ sales_jan2022_1decade |             13 | Gandi            |          377 | 01-09-2022
+ sales_feb2022_1decade |              2 | Smirnoff         |          500 | 02-09-2022
+ sales_feb2022_1decade |              6 | Poirot           |          150 | 02-07-2022
+ sales_apr2022_1decade |              5 | Deev             |          250 | 04-07-2022
+ sales_apr2022_1decade |             11 | Trump            |          380 | 04-06-2022
+(14 rows)
+
+DROP TABLE sales_range;
+--
+-- Test for split non-DEFAULT partition to DEFAULT partition + partitions
+-- with spaces between bounds.
+--
+CREATE TABLE sales_range (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date DATE) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_jan2022 PARTITION OF sales_range FOR VALUES FROM ('2022-01-01') TO ('2022-02-01');
+CREATE TABLE sales_all PARTITION OF sales_range FOR VALUES FROM ('2022-02-01') TO ('2022-05-01');
+INSERT INTO sales_range VALUES
+  (1,  'May',      1000, '2022-01-31'),
+  (2,  'Smirnoff', 500,  '2022-02-10'),
+  (3,  'Ford',     2000, '2022-04-30'),
+  (4,  'Ivanov',   750,  '2022-04-13'),
+  (5,  'Deev',     250,  '2022-04-07'),
+  (6,  'Poirot',   150,  '2022-02-11'),
+  (7,  'Li',       175,  '2022-03-08'),
+  (8,  'Ericsson', 185,  '2022-02-23'),
+  (9,  'Muller',   250,  '2022-03-11'),
+  (10, 'Halder',   350,  '2022-01-28'),
+  (11, 'Trump',    380,  '2022-04-06'),
+  (12, 'Plato',    350,  '2022-03-19'),
+  (13, 'Gandi',    377,  '2022-01-09');
+ALTER TABLE sales_range SPLIT PARTITION sales_all INTO
+  (PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'),
+   PARTITION sales_feb2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION sales_others DEFAULT);
+INSERT INTO sales_range VALUES (14, 'Smith',    510,  '2022-05-04');
+SELECT tableoid::regclass, * FROM sales_range ORDER BY tableoid, salesperson_id;
+   tableoid    | salesperson_id | salesperson_name | sales_amount | sales_date 
+---------------+----------------+------------------+--------------+------------
+ sales_jan2022 |              1 | May              |         1000 | 01-31-2022
+ sales_jan2022 |             10 | Halder           |          350 | 01-28-2022
+ sales_jan2022 |             13 | Gandi            |          377 | 01-09-2022
+ sales_apr2022 |              3 | Ford             |         2000 | 04-30-2022
+ sales_apr2022 |              4 | Ivanov           |          750 | 04-13-2022
+ sales_apr2022 |              5 | Deev             |          250 | 04-07-2022
+ sales_apr2022 |             11 | Trump            |          380 | 04-06-2022
+ sales_feb2022 |              2 | Smirnoff         |          500 | 02-10-2022
+ sales_feb2022 |              6 | Poirot           |          150 | 02-11-2022
+ sales_feb2022 |              8 | Ericsson         |          185 | 02-23-2022
+ sales_others  |              7 | Li               |          175 | 03-08-2022
+ sales_others  |              9 | Muller           |          250 | 03-11-2022
+ sales_others  |             12 | Plato            |          350 | 03-19-2022
+ sales_others  |             14 | Smith            |          510 | 05-04-2022
+(14 rows)
+
+DROP TABLE sales_range;
+--
+-- Try to SPLIT partition of another table.
+--
+CREATE TABLE t1(i int, t text) PARTITION BY LIST (t);
+CREATE TABLE t1pa PARTITION OF t1 FOR VALUES IN ('A');
+CREATE TABLE t2 (i int, t text) PARTITION BY RANGE (t);
+-- ERROR:  relation "t1pa" is not a partition of relation "t2"
+ALTER TABLE t2 SPLIT PARTITION t1pa INTO
+   (PARTITION t2a FOR VALUES FROM ('A') TO ('B'),
+    PARTITION t2b FOR VALUES FROM ('B') TO ('C'));
+ERROR:  relation "t1pa" is not a partition of relation "t2"
+HINT:  ALTER TABLE ... MERGE PARTITIONS can only merge partitions don't have sub-partitions
+DROP TABLE t2;
+DROP TABLE t1;
+--
+-- Try to SPLIT partition of temporary table.
+--
+CREATE TEMP TABLE t (i int) PARTITION BY RANGE (i);
+CREATE TEMP TABLE tp_0_2 PARTITION OF t FOR VALUES FROM (0) TO (2);
+SELECT c.oid::pg_catalog.regclass, pg_catalog.pg_get_expr(c.relpartbound, c.oid), c.relpersistence
+  FROM pg_catalog.pg_class c, pg_catalog.pg_inherits i
+  WHERE c.oid = i.inhrelid AND i.inhparent = 't'::regclass
+  ORDER BY pg_catalog.pg_get_expr(c.relpartbound, c.oid) = 'DEFAULT', c.oid::pg_catalog.regclass::pg_catalog.text;
+  oid   |        pg_get_expr         | relpersistence 
+--------+----------------------------+----------------
+ tp_0_2 | FOR VALUES FROM (0) TO (2) | t
+(1 row)
+
+ALTER TABLE t SPLIT PARTITION tp_0_2 INTO
+  (PARTITION tp_0_1 FOR VALUES FROM (0) TO (1),
+   PARTITION tp_1_2 FOR VALUES FROM (1) TO (2));
+-- Partitions should be temporary.
+SELECT c.oid::pg_catalog.regclass, pg_catalog.pg_get_expr(c.relpartbound, c.oid), c.relpersistence
+  FROM pg_catalog.pg_class c, pg_catalog.pg_inherits i
+  WHERE c.oid = i.inhrelid AND i.inhparent = 't'::regclass
+  ORDER BY pg_catalog.pg_get_expr(c.relpartbound, c.oid) = 'DEFAULT', c.oid::pg_catalog.regclass::pg_catalog.text;
+  oid   |        pg_get_expr         | relpersistence 
+--------+----------------------------+----------------
+ tp_0_1 | FOR VALUES FROM (0) TO (1) | t
+ tp_1_2 | FOR VALUES FROM (1) TO (2) | t
+(2 rows)
+
+DROP TABLE t;
+-- Check the new partitions inherit parent's tablespace
+CREATE TABLE t (i int PRIMARY KEY USING INDEX TABLESPACE regress_tblspace)
+  PARTITION BY RANGE (i) TABLESPACE regress_tblspace;
+CREATE TABLE tp_0_2 PARTITION OF t FOR VALUES FROM (0) TO (2);
+ALTER TABLE t SPLIT PARTITION tp_0_2 INTO
+  (PARTITION tp_0_1 FOR VALUES FROM (0) TO (1),
+   PARTITION tp_1_2 FOR VALUES FROM (1) TO (2));
+SELECT tablename, tablespace FROM pg_tables
+  WHERE tablename IN ('t', 'tp_0_1', 'tp_1_2') AND schemaname = 'partition_split_schema'
+  ORDER BY tablename, tablespace;
+ tablename |    tablespace    
+-----------+------------------
+ t         | regress_tblspace
+ tp_0_1    | regress_tblspace
+ tp_1_2    | regress_tblspace
+(3 rows)
+
+SELECT tablename, indexname, tablespace FROM pg_indexes
+  WHERE tablename IN ('t', 'tp_0_1', 'tp_1_2') AND schemaname = 'partition_split_schema'
+  ORDER BY tablename, indexname, tablespace;
+ tablename |  indexname  |    tablespace    
+-----------+-------------+------------------
+ t         | t_pkey      | regress_tblspace
+ tp_0_1    | tp_0_1_pkey | regress_tblspace
+ tp_1_2    | tp_1_2_pkey | regress_tblspace
+(3 rows)
+
+DROP TABLE t;
+-- Check new partitions inherits parent's table access method
+CREATE ACCESS METHOD partition_split_heap TYPE TABLE HANDLER heap_tableam_handler;
+CREATE TABLE t (i int) PARTITION BY RANGE (i) USING partition_split_heap;
+CREATE TABLE tp_0_2 PARTITION OF t FOR VALUES FROM (0) TO (2);
+ALTER TABLE t SPLIT PARTITION tp_0_2 INTO
+  (PARTITION tp_0_1 FOR VALUES FROM (0) TO (1),
+   PARTITION tp_1_2 FOR VALUES FROM (1) TO (2));
+SELECT c.relname, a.amname
+FROM pg_class c JOIN pg_am a ON c.relam = a.oid
+WHERE c.oid IN ('t'::regclass, 'tp_0_1'::regclass, 'tp_1_2'::regclass)
+ORDER BY c.relname;
+ relname |        amname        
+---------+----------------------
+ t       | partition_split_heap
+ tp_0_1  | partition_split_heap
+ tp_1_2  | partition_split_heap
+(3 rows)
+
+DROP TABLE t;
+DROP ACCESS METHOD partition_split_heap;
+-- Test permission checks.  The user needs to own the parent table and the
+-- the partition to split to do the split.
+CREATE ROLE regress_partition_split_alice;
+CREATE ROLE regress_partition_split_bob;
+GRANT ALL ON SCHEMA partition_split_schema TO regress_partition_split_alice;
+GRANT ALL ON SCHEMA partition_split_schema TO regress_partition_split_bob;
+SET SESSION AUTHORIZATION regress_partition_split_alice;
+CREATE TABLE t (i int) PARTITION BY RANGE (i);
+CREATE TABLE tp_0_2 PARTITION OF t FOR VALUES FROM (0) TO (2);
+SET SESSION AUTHORIZATION regress_partition_split_bob;
+ALTER TABLE t SPLIT PARTITION tp_0_2 INTO
+  (PARTITION tp_0_1 FOR VALUES FROM (0) TO (1),
+   PARTITION tp_1_2 FOR VALUES FROM (1) TO (2));
+ERROR:  must be owner of table t
+RESET SESSION AUTHORIZATION;
+ALTER TABLE t OWNER TO regress_partition_split_bob;
+SET SESSION AUTHORIZATION regress_partition_split_bob;
+ALTER TABLE t SPLIT PARTITION tp_0_2 INTO
+  (PARTITION tp_0_1 FOR VALUES FROM (0) TO (1),
+   PARTITION tp_1_2 FOR VALUES FROM (1) TO (2));
+ERROR:  must be owner of table tp_0_2
+RESET SESSION AUTHORIZATION;
+ALTER TABLE tp_0_2 OWNER TO regress_partition_split_bob;
+SET SESSION AUTHORIZATION regress_partition_split_bob;
+ALTER TABLE t SPLIT PARTITION tp_0_2 INTO
+  (PARTITION tp_0_1 FOR VALUES FROM (0) TO (1),
+   PARTITION tp_1_2 FOR VALUES FROM (1) TO (2));
+RESET SESSION AUTHORIZATION;
+DROP TABLE t;
+REVOKE ALL ON SCHEMA partition_split_schema FROM regress_partition_split_alice;
+REVOKE ALL ON SCHEMA partition_split_schema FROM regress_partition_split_bob;
+DROP ROLE regress_partition_split_alice;
+DROP ROLE regress_partition_split_bob;
+-- Split partition of a temporary table when one of the partitions after
+-- split has the same name as the partition being split
+CREATE TEMP TABLE t (a int) PARTITION BY RANGE (a);
+CREATE TEMP TABLE tp_0 PARTITION OF t FOR VALUES FROM (0) TO (2);
+ALTER TABLE t SPLIT PARTITION tp_0 INTO
+  (PARTITION tp_0 FOR VALUES FROM (0) TO (1),
+   PARTITION tp_1 FOR VALUES FROM (1) TO (2));
+DROP TABLE t;
+-- Check defaults and constraints of new partitions
+CREATE TABLE t_bigint (
+  b bigint,
+  i int DEFAULT (3+10),
+  j int DEFAULT 101,
+  k int GENERATED ALWAYS AS (b+10) STORED
+)
+PARTITION BY RANGE (b);
+CREATE TABLE t_bigint_default PARTITION OF t_bigint DEFAULT;
+-- Show defaults/constraints before SPLIT PARTITION
+\d+ t_bigint
+                                  Partitioned table "partition_split_schema.t_bigint"
+ Column |  Type   | Collation | Nullable |                Default                | Storage | Stats target | Description 
+--------+---------+-----------+----------+---------------------------------------+---------+--------------+-------------
+ b      | bigint  |           |          |                                       | plain   |              | 
+ i      | integer |           |          | 3 + 10                                | plain   |              | 
+ j      | integer |           |          | 101                                   | plain   |              | 
+ k      | integer |           |          | generated always as ((b + 10)) stored | plain   |              | 
+Partition key: RANGE (b)
+Partitions: t_bigint_default DEFAULT
+
+\d+ t_bigint_default
+                                    Table "partition_split_schema.t_bigint_default"
+ Column |  Type   | Collation | Nullable |                Default                | Storage | Stats target | Description 
+--------+---------+-----------+----------+---------------------------------------+---------+--------------+-------------
+ b      | bigint  |           |          |                                       | plain   |              | 
+ i      | integer |           |          | 3 + 10                                | plain   |              | 
+ j      | integer |           |          | 101                                   | plain   |              | 
+ k      | integer |           |          | generated always as ((b + 10)) stored | plain   |              | 
+Partition of: t_bigint DEFAULT
+No partition constraint
+
+ALTER TABLE t_bigint SPLIT PARTITION t_bigint_default INTO
+  (PARTITION t_bigint_01_10 FOR VALUES FROM (0) TO (10),
+   PARTITION t_bigint_default DEFAULT);
+-- Show defaults/constraints after SPLIT PARTITION
+\d+ t_bigint_default
+                                    Table "partition_split_schema.t_bigint_default"
+ Column |  Type   | Collation | Nullable |                Default                | Storage | Stats target | Description 
+--------+---------+-----------+----------+---------------------------------------+---------+--------------+-------------
+ b      | bigint  |           |          |                                       | plain   |              | 
+ i      | integer |           |          | 3 + 10                                | plain   |              | 
+ j      | integer |           |          | 101                                   | plain   |              | 
+ k      | integer |           |          | generated always as ((b + 10)) stored | plain   |              | 
+Partition of: t_bigint DEFAULT
+Partition constraint: (NOT ((b IS NOT NULL) AND ((b >= '0'::bigint) AND (b < '10'::bigint))))
+
+\d+ t_bigint_01_10
+                                     Table "partition_split_schema.t_bigint_01_10"
+ Column |  Type   | Collation | Nullable |                Default                | Storage | Stats target | Description 
+--------+---------+-----------+----------+---------------------------------------+---------+--------------+-------------
+ b      | bigint  |           |          |                                       | plain   |              | 
+ i      | integer |           |          | 3 + 10                                | plain   |              | 
+ j      | integer |           |          | 101                                   | plain   |              | 
+ k      | integer |           |          | generated always as ((b + 10)) stored | plain   |              | 
+Partition of: t_bigint FOR VALUES FROM ('0') TO ('10')
+Partition constraint: ((b IS NOT NULL) AND (b >= '0'::bigint) AND (b < '10'::bigint))
+
+DROP TABLE t_bigint;
+-- Test: owner of new partitions should be the same as owner of split partition
+CREATE ROLE regress_partition_split_alice;
+GRANT ALL ON SCHEMA partition_split_schema TO regress_partition_split_alice;
+CREATE TABLE t (i int) PARTITION BY RANGE (i);
+SET SESSION AUTHORIZATION regress_partition_split_alice;
+CREATE TABLE tp_0_2(i int);
+RESET SESSION AUTHORIZATION;
+ALTER TABLE t ATTACH PARTITION tp_0_2 FOR VALUES FROM (0) TO (2);
+-- Owner is 'regress_partition_split_alice':
+\dt tp_0_2
+                             List of tables
+         Schema         |  Name  | Type  |             Owner             
+------------------------+--------+-------+-------------------------------
+ partition_split_schema | tp_0_2 | table | regress_partition_split_alice
+(1 row)
+
+ALTER TABLE t SPLIT PARTITION tp_0_2 INTO
+  (PARTITION tp_0_1 FOR VALUES FROM (0) TO (1),
+   PARTITION tp_1_2 FOR VALUES FROM (1) TO (2));
+-- Owner should be 'regress_partition_split_alice':
+\dt tp_0_1
+                             List of tables
+         Schema         |  Name  | Type  |             Owner             
+------------------------+--------+-------+-------------------------------
+ partition_split_schema | tp_0_1 | table | regress_partition_split_alice
+(1 row)
+
+\dt tp_1_2
+                             List of tables
+         Schema         |  Name  | Type  |             Owner             
+------------------------+--------+-------+-------------------------------
+ partition_split_schema | tp_1_2 | table | regress_partition_split_alice
+(1 row)
+
+DROP TABLE t;
+REVOKE ALL ON SCHEMA partition_split_schema FROM regress_partition_split_alice;
+DROP ROLE regress_partition_split_alice;
+-- Test: index of new partitions should be created with same owner as split
+-- partition
+CREATE ROLE regress_partition_split_alice;
+GRANT ALL ON SCHEMA partition_split_schema TO regress_partition_split_alice;
+SET SESSION AUTHORIZATION regress_partition_split_alice;
+CREATE TABLE t (i int) PARTITION BY RANGE (i);
+CREATE TABLE tp_10_20 PARTITION OF t FOR VALUES FROM (10) TO (20);
+INSERT INTO t VALUES (11), (16);
+CREATE OR REPLACE FUNCTION run_me(integer) RETURNS integer AS $$
+BEGIN
+  RAISE NOTICE 'you are running me as %', CURRENT_USER;
+  RETURN $1;
+END
+$$ LANGUAGE PLPGSQL IMMUTABLE;
+-- Owner is 'regress_partition_split_alice':
+CREATE INDEX ON t (run_me(i));
+NOTICE:  you are running me as regress_partition_split_alice
+NOTICE:  you are running me as regress_partition_split_alice
+RESET SESSION AUTHORIZATION;
+-- Owner should be 'regress_partition_split_alice':
+ALTER TABLE t SPLIT PARTITION tp_10_20 INTO
+  (PARTITION tp_10_15 FOR VALUES FROM (10) TO (15),
+   PARTITION tp_15_20 FOR VALUES FROM (15) TO (20));
+NOTICE:  you are running me as regress_partition_split_alice
+NOTICE:  you are running me as regress_partition_split_alice
+DROP TABLE t;
+DROP FUNCTION run_me(integer);
+REVOKE ALL ON SCHEMA partition_split_schema FROM regress_partition_split_alice;
+DROP ROLE regress_partition_split_alice;
+-- Test for hash partitioned table
+CREATE TABLE t (i int) PARTITION BY HASH(i);
+CREATE TABLE tp1 PARTITION OF t FOR VALUES WITH (MODULUS 2, REMAINDER 0);
+CREATE TABLE tp2 PARTITION OF t FOR VALUES WITH (MODULUS 2, REMAINDER 1);
+-- ERROR:  partition of hash-partitioned table cannot be split
+ALTER TABLE t SPLIT PARTITION tp1 INTO
+  (PARTITION tp1_1 FOR VALUES WITH (MODULUS 4, REMAINDER 0),
+   PARTITION tp1_2 FOR VALUES WITH (MODULUS 4, REMAINDER 2));
+ERROR:  partition of hash-partitioned table cannot be split
+-- ERROR:  list of new partitions should contain at least two items
+ALTER TABLE t SPLIT PARTITION tp1 INTO
+  (PARTITION tp1_1 FOR VALUES WITH (MODULUS 4, REMAINDER 0));
+ERROR:  list of new partitions should contain at least two items
+DROP TABLE t;
+-- Additional tests for error messages
+CREATE TABLE sales_range (salesperson_id int, salesperson_name varchar(30), sales_amount int, sales_date date) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_jan2022 PARTITION OF sales_range FOR VALUES FROM ('2022-01-01') TO ('2022-02-01');
+CREATE TABLE sales_feb_mar_apr2022 PARTITION OF sales_range FOR VALUES FROM ('2022-02-01') TO ('2022-05-01');
+-- ERROR:  upper bound of partition "sales_apr2022" is not equal to upper bound of split partition
+ALTER TABLE sales_range SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION sales_feb2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION sales_mar2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-06-01'));
+ERROR:  upper bound of partition "sales_apr2022" is not equal to upper bound of split partition
+LINE 4: ... sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-06-0...
+                                                             ^
+DROP TABLE sales_range;
+-- Test for split partition properties:
+-- * STATISTICS is empty
+-- * COMMENT is empty
+-- * DEFAULTS are the same as DEFAULTS for partitioned table
+-- * STORAGE is the same as STORAGE for partitioned table
+-- * GENERATED and CONSTRAINTS are the same as GENERATED and CONSTRAINTS for partitioned table
+-- * TRIGGERS are the same as TRIGGERS for partitioned table
+CREATE TABLE t
+(i int NOT NULL,
+ t text STORAGE EXTENDED COMPRESSION pglz DEFAULT 'default_t',
+ b bigint,
+ d date GENERATED ALWAYS as ('2022-01-01') STORED) PARTITION BY RANGE (abs(i));
+COMMENT ON COLUMN t.i IS 't1.i';
+CREATE TABLE tp_x
+(i int NOT NULL,
+ t text STORAGE MAIN DEFAULT 'default_tp_x',
+ b bigint,
+ d date GENERATED ALWAYS as ('2022-02-02') STORED);
+ALTER TABLE t ATTACH PARTITION tp_x FOR VALUES FROM (0) TO (2);
+COMMENT ON COLUMN tp_x.i IS 'tp_x.i';
+CREATE STATISTICS t_stat (DEPENDENCIES) on i, b from t;
+CREATE STATISTICS tp_x_stat (DEPENDENCIES) on i, b from tp_x;
+ALTER TABLE t ADD CONSTRAINT t_b_check CHECK (b > 0);
+ALTER TABLE t ADD CONSTRAINT t_b_check1 CHECK (b > 0) NOT ENFORCED;
+ALTER TABLE t ADD CONSTRAINT t_b_check2 CHECK (b > 0) NOT VALID;
+ALTER TABLE t ADD CONSTRAINT t_b_nn NOT NULL b NOT VALID;
+INSERT INTO tp_x(i, t, b) VALUES(0, DEFAULT, 1);
+INSERT INTO tp_x(i, t, b) VALUES(1, DEFAULT, 2);
+CREATE OR REPLACE FUNCTION trigger_function() RETURNS trigger LANGUAGE 'plpgsql' AS
+$BODY$
+BEGIN
+  RAISE NOTICE 'trigger(%) called: action = %, when = %, level = %', TG_ARGV[0], TG_OP, TG_WHEN, TG_LEVEL;
+  RETURN new;
+END;
+$BODY$;
+CREATE TRIGGER t_before_insert_row_trigger BEFORE INSERT ON t FOR EACH ROW
+  EXECUTE PROCEDURE trigger_function('t');
+CREATE TRIGGER tp_x_before_insert_row_trigger BEFORE INSERT ON tp_x FOR EACH ROW
+  EXECUTE PROCEDURE trigger_function('tp_x');
+\d+ tp_x
+                                               Table "partition_split_schema.tp_x"
+ Column |  Type   | Collation | Nullable |                     Default                     | Storage | Stats target | Description 
+--------+---------+-----------+----------+-------------------------------------------------+---------+--------------+-------------
+ i      | integer |           | not null |                                                 | plain   |              | tp_x.i
+ t      | text    |           |          | 'default_tp_x'::text                            | main    |              | 
+ b      | bigint  |           | not null |                                                 | plain   |              | 
+ d      | date    |           |          | generated always as ('02-02-2022'::date) stored | plain   |              | 
+Partition of: t FOR VALUES FROM (0) TO (2)
+Partition constraint: ((abs(i) IS NOT NULL) AND (abs(i) >= 0) AND (abs(i) < 2))
+Check constraints:
+    "t_b_check" CHECK (b > 0)
+    "t_b_check1" CHECK (b > 0) NOT ENFORCED
+    "t_b_check2" CHECK (b > 0) NOT VALID
+Statistics objects:
+    "partition_split_schema.tp_x_stat" (dependencies) ON i, b FROM tp_x
+Not-null constraints:
+    "tp_x_i_not_null" NOT NULL "i" (inherited)
+    "t_b_nn" NOT NULL "b" (inherited) NOT VALID
+Triggers:
+    t_before_insert_row_trigger BEFORE INSERT ON tp_x FOR EACH ROW EXECUTE FUNCTION trigger_function('t'), ON TABLE t
+    tp_x_before_insert_row_trigger BEFORE INSERT ON tp_x FOR EACH ROW EXECUTE FUNCTION trigger_function('tp_x')
+
+ALTER TABLE t SPLIT PARTITION tp_x INTO
+  (PARTITION tp_0_1 FOR VALUES FROM (0) TO (1),
+   PARTITION tp_x FOR VALUES FROM (1) TO (2));
+\d+ tp_x
+                                                Table "partition_split_schema.tp_x"
+ Column |  Type   | Collation | Nullable |                     Default                     | Storage  | Stats target | Description 
+--------+---------+-----------+----------+-------------------------------------------------+----------+--------------+-------------
+ i      | integer |           | not null |                                                 | plain    |              | 
+ t      | text    |           |          | 'default_t'::text                               | extended |              | 
+ b      | bigint  |           | not null |                                                 | plain    |              | 
+ d      | date    |           |          | generated always as ('01-01-2022'::date) stored | plain    |              | 
+Partition of: t FOR VALUES FROM (1) TO (2)
+Partition constraint: ((abs(i) IS NOT NULL) AND (abs(i) >= 1) AND (abs(i) < 2))
+Check constraints:
+    "t_b_check" CHECK (b > 0)
+    "t_b_check1" CHECK (b > 0) NOT ENFORCED
+    "t_b_check2" CHECK (b > 0) NOT VALID
+Not-null constraints:
+    "t_i_not_null" NOT NULL "i" (inherited)
+    "t_b_nn" NOT NULL "b" (inherited) NOT VALID
+Triggers:
+    t_before_insert_row_trigger BEFORE INSERT ON tp_x FOR EACH ROW EXECUTE FUNCTION trigger_function('t'), ON TABLE t
+
+INSERT INTO t(i, t, b) VALUES(1, DEFAULT, 3);
+NOTICE:  trigger(t) called: action = INSERT, when = BEFORE, level = ROW
+SELECT tableoid::regclass, * FROM t ORDER BY b;
+ tableoid | i |      t       | b |     d      
+----------+---+--------------+---+------------
+ tp_0_1   | 0 | default_tp_x | 1 | 01-01-2022
+ tp_x     | 1 | default_tp_x | 2 | 01-01-2022
+ tp_x     | 1 | default_t    | 3 | 01-01-2022
+(3 rows)
+
+DROP TABLE t;
+DROP FUNCTION trigger_function();
+-- Test for recomputation of stored generated columns.
+CREATE TABLE t (i int, tab_id int generated always as (tableoid) stored) PARTITION BY RANGE (i);
+CREATE TABLE tp_0_2 PARTITION OF t FOR VALUES FROM (0) TO (2);
+ALTER TABLE t ADD CONSTRAINT cc CHECK(tableoid <> 123456789);
+INSERT INTO t VALUES (0), (1);
+-- Should be 1 because partition identifier for row with i=0 is the same as
+-- partition identifier for row with i=1.
+SELECT count(*) FROM t WHERE i = 0 AND tab_id IN (SELECT tab_id FROM t WHERE i = 1);
+ count 
+-------
+     1
+(1 row)
+
+-- "tab_id" column (stored generated column) with "tableoid" attribute requires
+-- recomputation here.
+ALTER TABLE t SPLIT PARTITION tp_0_2 INTO
+  (PARTITION tp_0_1 FOR VALUES FROM (0) TO (1),
+   PARTITION tp_1_2 FOR VALUES FROM (1) TO (2));
+-- Should be 0 because partition identifier for row with i=0 is different from
+-- partition identifier for row with i=1.
+SELECT count(*) FROM t WHERE i = 0 AND tab_id IN (SELECT tab_id FROM t WHERE i = 1);
+ count 
+-------
+     0
+(1 row)
+
+DROP TABLE t;
+RESET search_path;
+--
+DROP SCHEMA partition_split_schema;
+DROP SCHEMA partition_split_schema2;
diff --git a/src/test/regress/parallel_schedule b/src/test/regress/parallel_schedule
index 6464a238ac..a98aef7ca1 100644
--- a/src/test/regress/parallel_schedule
+++ b/src/test/regress/parallel_schedule
@@ -123,7 +123,7 @@ test: plancache limit plpgsql copy2 temp domain rangefuncs prepare conversion tr
 # The stats test resets stats, so nothing else needing stats access can be in
 # this group.
 # ----------
-test: partition_merge partition_join partition_prune reloptions hash_part indexing partition_aggregate partition_info tuplesort explain compression memoize stats predicate numa
+test: partition_merge partition_split partition_join partition_prune reloptions hash_part indexing partition_aggregate partition_info tuplesort explain compression memoize stats predicate numa
 
 # event_trigger depends on create_am and cannot run concurrently with
 # any test that runs DDL
diff --git a/src/test/regress/sql/partition_split.sql b/src/test/regress/sql/partition_split.sql
new file mode 100644
index 0000000000..7fa4b69376
--- /dev/null
+++ b/src/test/regress/sql/partition_split.sql
@@ -0,0 +1,1148 @@
+--
+-- PARTITION_SPLIT
+-- Tests for "ALTER TABLE ... SPLIT PARTITION ..." command
+--
+
+CREATE SCHEMA partition_split_schema;
+CREATE SCHEMA partition_split_schema2;
+SET search_path = partition_split_schema, public;
+
+--
+-- BY RANGE partitioning
+--
+
+--
+-- Test for error codes
+--
+CREATE TABLE sales_range (salesperson_id int, salesperson_name varchar(30), sales_amount int, sales_date date) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_jan2022 PARTITION OF sales_range FOR VALUES FROM ('2022-01-01') TO ('2022-02-01');
+CREATE TABLE sales_feb_mar_apr2022 PARTITION OF sales_range FOR VALUES FROM ('2022-02-01') TO ('2022-05-01');
+CREATE TABLE sales_others PARTITION OF sales_range DEFAULT;
+
+-- ERROR:  relation "sales_xxx" does not exist
+ALTER TABLE sales_range SPLIT PARTITION sales_xxx INTO
+  (PARTITION sales_feb2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION sales_mar2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'));
+
+-- ERROR:  relation "sales_jan2022" already exists
+ALTER TABLE sales_range SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION sales_jan2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION sales_mar2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'));
+
+-- ERROR:  invalid bound specification for a range partition
+ALTER TABLE sales_range SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION sales_jan2022 FOR VALUES IN ('2022-05-01', '2022-06-01'),
+   PARTITION sales_mar2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'));
+
+-- ERROR:  empty range bound specified for partition "sales_mar2022"
+ALTER TABLE sales_range SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION sales_feb2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION sales_mar2022 FOR VALUES FROM ('2022-03-01') TO ('2022-02-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'));
+
+--ERROR:  list of split partitions should contain at least two items
+ALTER TABLE sales_range SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION sales_feb2022 FOR VALUES FROM ('2022-02-01') TO ('2022-10-01'));
+
+-- ERROR:  lower bound of partition "sales_feb2022" is less than lower bound of split partition
+ALTER TABLE sales_range SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION sales_feb2022 FOR VALUES FROM ('2022-01-01') TO ('2022-03-01'),
+   PARTITION sales_mar2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'));
+
+-- ERROR:  name "sales_feb_mar_apr2022" is already used
+-- (We can create partition with the same name as split partition, but can't create two partitions with the same name)
+ALTER TABLE sales_range SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION sales_feb_mar_apr2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION sales_feb_mar_apr2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'));
+
+-- ERROR:  name "sales_feb2022" is already used
+ALTER TABLE sales_range SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION sales_feb2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION sales_feb2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'));
+
+-- ERROR:  "sales_feb_mar_apr2022" is not a partitioned table
+ALTER TABLE sales_feb_mar_apr2022 SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION sales_jan2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION sales_feb2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'));
+
+-- ERROR:  upper bound of partition "sales_apr2022" is greater than upper bound of split partition
+ALTER TABLE sales_range SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION sales_feb2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION sales_mar2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-06-01'));
+
+-- ERROR:  lower bound of partition "sales_mar2022" is not equal to the upper bound of partition "sales_feb2022"
+ALTER TABLE sales_range SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION sales_feb2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION sales_mar2022 FOR VALUES FROM ('2022-02-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'));
+
+-- Tests for spaces between partitions, them should be executed without DEFAULT partition
+ALTER TABLE sales_range DETACH PARTITION sales_others;
+
+-- ERROR:  lower bound of partition "sales_feb2022" is not equal to lower bound of split partition
+ALTER TABLE sales_range SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION sales_feb2022 FOR VALUES FROM ('2022-02-02') TO ('2022-03-01'),
+   PARTITION sales_mar2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'));
+
+-- Check the source partition not in the search path
+SET search_path = partition_split_schema2, public;
+ALTER TABLE partition_split_schema.sales_range
+SPLIT PARTITION partition_split_schema.sales_feb_mar_apr2022 INTO
+  (PARTITION sales_feb2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION sales_mar2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'));
+SET search_path = partition_split_schema, public;
+\d+ sales_range
+
+DROP TABLE sales_range;
+DROP TABLE sales_others;
+
+--
+-- Add rows into partitioned table then split partition
+--
+CREATE TABLE sales_range (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date DATE) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_jan2022 PARTITION OF sales_range FOR VALUES FROM ('2022-01-01') TO ('2022-02-01');
+CREATE TABLE sales_feb_mar_apr2022 PARTITION OF sales_range FOR VALUES FROM ('2022-02-01') TO ('2022-05-01');
+CREATE TABLE sales_others PARTITION OF sales_range DEFAULT;
+
+INSERT INTO sales_range VALUES
+  (1,  'May',      1000, '2022-01-31'),
+  (2,  'Smirnoff', 500,  '2022-02-10'),
+  (3,  'Ford',     2000, '2022-04-30'),
+  (4,  'Ivanov',   750,  '2022-04-13'),
+  (5,  'Deev',     250,  '2022-04-07'),
+  (6,  'Poirot',   150,  '2022-02-11'),
+  (7,  'Li',       175,  '2022-03-08'),
+  (8,  'Ericsson', 185,  '2022-02-23'),
+  (9,  'Muller',   250,  '2022-03-11'),
+  (10, 'Halder',   350,  '2022-01-28'),
+  (11, 'Trump',    380,  '2022-04-06'),
+  (12, 'Plato',    350,  '2022-03-19'),
+  (13, 'Gandi',    377,  '2022-01-09'),
+  (14, 'Smith',    510,  '2022-05-04');
+
+ALTER TABLE sales_range SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION sales_feb2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION sales_mar2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'));
+
+SELECT * FROM sales_range;
+SELECT * FROM sales_jan2022;
+SELECT * FROM sales_feb2022;
+SELECT * FROM sales_mar2022;
+SELECT * FROM sales_apr2022;
+SELECT * FROM sales_others;
+
+DROP TABLE sales_range CASCADE;
+
+--
+-- Add split partition, then add rows into partitioned table
+--
+CREATE TABLE sales_range (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date DATE) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_jan2022 PARTITION OF sales_range FOR VALUES FROM ('2022-01-01') TO ('2022-02-01');
+CREATE TABLE sales_feb_mar_apr2022 PARTITION OF sales_range FOR VALUES FROM ('2022-02-01') TO ('2022-05-01');
+CREATE TABLE sales_others PARTITION OF sales_range DEFAULT;
+
+-- Split partition, also check schema qualification of new partitions
+ALTER TABLE sales_range SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION partition_split_schema.sales_feb2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION partition_split_schema2.sales_mar2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'));
+\d+ sales_range
+
+INSERT INTO sales_range VALUES
+  (1,  'May',      1000, '2022-01-31'),
+  (2,  'Smirnoff', 500,  '2022-02-10'),
+  (3,  'Ford',     2000, '2022-04-30'),
+  (4,  'Ivanov',   750,  '2022-04-13'),
+  (5,  'Deev',     250,  '2022-04-07'),
+  (6,  'Poirot',   150,  '2022-02-11'),
+  (7,  'Li',       175,  '2022-03-08'),
+  (8,  'Ericsson', 185,  '2022-02-23'),
+  (9,  'Muller',   250,  '2022-03-11'),
+  (10, 'Halder',   350,  '2022-01-28'),
+  (11, 'Trump',    380,  '2022-04-06'),
+  (12, 'Plato',    350,  '2022-03-19'),
+  (13, 'Gandi',    377,  '2022-01-09'),
+  (14, 'Smith',    510,  '2022-05-04');
+
+SELECT * FROM sales_range;
+SELECT * FROM sales_jan2022;
+SELECT * FROM sales_feb2022;
+SELECT * FROM partition_split_schema2.sales_mar2022;
+SELECT * FROM sales_apr2022;
+SELECT * FROM sales_others;
+
+DROP TABLE sales_range CASCADE;
+
+--
+-- Test for:
+--   * composite partition key;
+--   * GENERATED column;
+--   * column with DEFAULT value.
+--
+CREATE TABLE sales_date (salesperson_name VARCHAR(30), sales_year INT, sales_month INT, sales_day INT,
+  sales_date VARCHAR(10) GENERATED ALWAYS AS
+    (LPAD(sales_year::text, 4, '0') || '.' || LPAD(sales_month::text, 2, '0') || '.' || LPAD(sales_day::text, 2, '0')) STORED,
+  sales_department VARCHAR(30) DEFAULT 'Sales department')
+  PARTITION BY RANGE (sales_year, sales_month, sales_day);
+
+CREATE TABLE sales_dec2021 PARTITION OF sales_date FOR VALUES FROM (2021, 12, 1) TO (2022, 1, 1);
+CREATE TABLE sales_jan_feb2022 PARTITION OF sales_date FOR VALUES FROM (2022, 1, 1) TO (2022, 3, 1);
+CREATE TABLE sales_other PARTITION OF sales_date FOR VALUES FROM (2022, 3, 1) TO (MAXVALUE, MAXVALUE, MAXVALUE);
+
+INSERT INTO sales_date(salesperson_name, sales_year, sales_month, sales_day) VALUES
+  ('Manager1', 2021, 12, 7),
+  ('Manager2', 2021, 12, 8),
+  ('Manager3', 2022, 1, 1),
+  ('Manager1', 2022, 2, 4),
+  ('Manager2', 2022, 1, 2),
+  ('Manager3', 2022, 2, 1),
+  ('Manager1', 2022, 3, 3),
+  ('Manager2', 2022, 3, 4),
+  ('Manager3', 2022, 5, 1);
+
+SELECT tableoid::regclass, * FROM sales_date ORDER BY tableoid, sales_year, sales_month, sales_day;
+
+ALTER TABLE sales_date SPLIT PARTITION sales_jan_feb2022 INTO
+  (PARTITION sales_jan2022 FOR VALUES FROM (2022, 1, 1) TO (2022, 2, 1),
+   PARTITION sales_feb2022 FOR VALUES FROM (2022, 2, 1) TO (2022, 3, 1));
+
+INSERT INTO sales_date(salesperson_name, sales_year, sales_month, sales_day) VALUES
+  ('Manager1', 2022, 1, 10),
+  ('Manager2', 2022, 2, 10);
+
+SELECT tableoid::regclass, * FROM sales_date ORDER BY tableoid, sales_year, sales_month, sales_day;
+
+--ERROR:  relation "sales_jan_feb2022" does not exist
+SELECT * FROM sales_jan_feb2022;
+
+DROP TABLE sales_date CASCADE;
+
+--
+-- Test: split DEFAULT partition; use an index on partition key; check index after split
+--
+CREATE TABLE sales_range (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date DATE) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_jan2022 PARTITION OF sales_range FOR VALUES FROM ('2022-01-01') TO ('2022-02-01');
+CREATE TABLE sales_others PARTITION OF sales_range DEFAULT;
+CREATE INDEX sales_range_sales_date_idx ON sales_range USING btree (sales_date);
+
+INSERT INTO sales_range VALUES
+  (1,  'May',      1000, '2022-01-31'),
+  (2,  'Smirnoff', 500,  '2022-02-10'),
+  (3,  'Ford',     2000, '2022-04-30'),
+  (4,  'Ivanov',   750,  '2022-04-13'),
+  (5,  'Deev',     250,  '2022-04-07'),
+  (6,  'Poirot',   150,  '2022-02-11'),
+  (7,  'Li',       175,  '2022-03-08'),
+  (8,  'Ericsson', 185,  '2022-02-23'),
+  (9,  'Muller',   250,  '2022-03-11'),
+  (10, 'Halder',   350,  '2022-01-28'),
+  (11, 'Trump',    380,  '2022-04-06'),
+  (12, 'Plato',    350,  '2022-03-19'),
+  (13, 'Gandi',    377,  '2022-01-09'),
+  (14, 'Smith',    510,  '2022-05-04');
+
+SELECT * FROM sales_others;
+SELECT * FROM pg_indexes WHERE tablename = 'sales_others' and schemaname = 'partition_split_schema' ORDER BY indexname;
+
+ALTER TABLE sales_range SPLIT PARTITION sales_others INTO
+  (PARTITION sales_feb2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION sales_mar2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'),
+   PARTITION sales_others DEFAULT);
+
+-- Use indexscan for testing indexes
+SET enable_indexscan = ON;
+SET enable_seqscan = OFF;
+
+SELECT * FROM sales_feb2022 where sales_date > '2022-01-01';
+SELECT * FROM sales_mar2022 where sales_date > '2022-01-01';
+SELECT * FROM sales_apr2022 where sales_date > '2022-01-01';
+SELECT * FROM sales_others where sales_date > '2022-01-01';
+
+SET enable_indexscan = ON;
+SET enable_seqscan = ON;
+
+SELECT * FROM pg_indexes WHERE tablename = 'sales_feb2022' and schemaname = 'partition_split_schema' ORDER BY indexname;
+SELECT * FROM pg_indexes WHERE tablename = 'sales_mar2022' and schemaname = 'partition_split_schema' ORDER BY indexname;
+SELECT * FROM pg_indexes WHERE tablename = 'sales_apr2022' and schemaname = 'partition_split_schema' ORDER BY indexname;
+SELECT * FROM pg_indexes WHERE tablename = 'sales_others' and schemaname = 'partition_split_schema' ORDER BY indexname;
+
+DROP TABLE sales_range CASCADE;
+
+--
+-- Test: some cases for splitting DEFAULT partition (different bounds)
+--
+CREATE TABLE sales_range (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date INT) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_others PARTITION OF sales_range DEFAULT;
+
+-- sales_error intersects with sales_dec2021 (lower bound)
+-- ERROR:  lower bound of partition "sales_error" is not equal to the upper bound of partition "sales_dec2021"
+ALTER TABLE sales_range SPLIT PARTITION sales_others INTO
+  (PARTITION sales_dec2021 FOR VALUES FROM (20211201) TO (20220101),
+   PARTITION sales_error FOR VALUES FROM (20211230) TO (20220201),
+   PARTITION sales_feb2022 FOR VALUES FROM (20220201) TO (20220301),
+   PARTITION sales_others DEFAULT);
+
+-- sales_error intersects with sales_feb2022 (upper bound)
+-- ERROR:  lower bound of partition "sales_feb2022" is not equal to the upper bound of partition "sales_error"
+ALTER TABLE sales_range SPLIT PARTITION sales_others INTO
+  (PARTITION sales_dec2021 FOR VALUES FROM (20211201) TO (20220101),
+   PARTITION sales_error FOR VALUES FROM (20220101) TO (20220202),
+   PARTITION sales_feb2022 FOR VALUES FROM (20220201) TO (20220301),
+   PARTITION sales_others DEFAULT);
+
+-- sales_error intersects with sales_dec2021 (inside bound)
+-- ERROR:  lower bound of partition "sales_feb2022" is not equal to the upper bound of partition "sales_error"
+ALTER TABLE sales_range SPLIT PARTITION sales_others INTO
+  (PARTITION sales_dec2021 FOR VALUES FROM (20211201) TO (20220101),
+   PARTITION sales_error FOR VALUES FROM (20211210) TO (20211220),
+   PARTITION sales_feb2022 FOR VALUES FROM (20220201) TO (20220301),
+   PARTITION sales_others DEFAULT);
+
+-- sales_error intersects with sales_dec2021 (exactly the same bounds)
+-- ERROR:  lower bound of partition "sales_feb2022" is not equal to the upper bound of partition "sales_error"
+ALTER TABLE sales_range SPLIT PARTITION sales_others INTO
+  (PARTITION sales_dec2021 FOR VALUES FROM (20211201) TO (20220101),
+   PARTITION sales_error FOR VALUES FROM (20211201) TO (20220101),
+   PARTITION sales_feb2022 FOR VALUES FROM (20220201) TO (20220301),
+   PARTITION sales_others DEFAULT);
+
+-- ERROR:  one partition in the list should be DEFAULT because split partition is DEFAULT
+ALTER TABLE sales_range SPLIT PARTITION sales_others INTO
+  (PARTITION sales_dec2021 FOR VALUES FROM (20211201) TO (20220101),
+   PARTITION sales_jan2022 FOR VALUES FROM (20220101) TO (20220201),
+   PARTITION sales_feb2022 FOR VALUES FROM (20220201) TO (20220301));
+
+-- no error: bounds of sales_noerror are between sales_dec2021 and sales_feb2022
+ALTER TABLE sales_range SPLIT PARTITION sales_others INTO
+  (PARTITION sales_dec2021 FOR VALUES FROM (20211201) TO (20220101),
+   PARTITION sales_noerror FOR VALUES FROM (20220110) TO (20220120),
+   PARTITION sales_feb2022 FOR VALUES FROM (20220201) TO (20220301),
+   PARTITION sales_others DEFAULT);
+
+DROP TABLE sales_range;
+
+CREATE TABLE sales_range (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date INT) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_others PARTITION OF sales_range DEFAULT;
+
+-- no error: bounds of sales_noerror are equal to lower and upper bounds of sales_dec2021 and sales_feb2022
+ALTER TABLE sales_range SPLIT PARTITION sales_others INTO
+  (PARTITION sales_dec2021 FOR VALUES FROM (20211201) TO (20220101),
+   PARTITION sales_noerror FOR VALUES FROM (20210101) TO (20210201),
+   PARTITION sales_feb2022 FOR VALUES FROM (20220201) TO (20220301),
+   PARTITION sales_others DEFAULT);
+
+DROP TABLE sales_range;
+
+--
+-- Test: split partition with CHECK and FOREIGN KEY CONSTRAINTs on partitioned table
+--
+CREATE TABLE salespeople(salesperson_id INT PRIMARY KEY, salesperson_name VARCHAR(30));
+INSERT INTO salespeople VALUES (1,  'Poirot');
+
+CREATE TABLE sales_range (
+salesperson_id INT REFERENCES salespeople(salesperson_id),
+sales_amount INT CHECK (sales_amount > 1),
+sales_date DATE) PARTITION BY RANGE (sales_date);
+
+CREATE TABLE sales_jan2022 PARTITION OF sales_range FOR VALUES FROM ('2022-01-01') TO ('2022-02-01');
+CREATE TABLE sales_feb_mar_apr2022 PARTITION OF sales_range FOR VALUES FROM ('2022-02-01') TO ('2022-05-01');
+CREATE TABLE sales_others PARTITION OF sales_range DEFAULT;
+
+SELECT pg_get_constraintdef(oid), conname, conkey FROM pg_constraint WHERE conrelid = 'sales_feb_mar_apr2022'::regclass::oid ORDER BY conname;
+
+ALTER TABLE sales_range SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION sales_feb2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION sales_mar2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'));
+
+-- We should see the same CONSTRAINTs as on sales_feb_mar_apr2022 partition
+SELECT pg_get_constraintdef(oid), conname, conkey FROM pg_constraint WHERE conrelid = 'sales_feb2022'::regclass::oid ORDER BY conname;;
+SELECT pg_get_constraintdef(oid), conname, conkey FROM pg_constraint WHERE conrelid = 'sales_mar2022'::regclass::oid ORDER BY conname;;
+SELECT pg_get_constraintdef(oid), conname, conkey FROM pg_constraint WHERE conrelid = 'sales_apr2022'::regclass::oid ORDER BY conname;;
+
+-- ERROR:  new row for relation "sales_mar2022" violates check constraint "sales_range_sales_amount_check"
+INSERT INTO sales_range VALUES (1, 0, '2022-03-11');
+-- ERROR:  insert or update on table "sales_mar2022" violates foreign key constraint "sales_range_salesperson_id_fkey"
+INSERT INTO sales_range VALUES (-1, 10, '2022-03-11');
+-- ok
+INSERT INTO sales_range VALUES (1, 10, '2022-03-11');
+
+DROP TABLE sales_range CASCADE;
+DROP TABLE salespeople CASCADE;
+
+--
+-- Test: split partition on partitioned table in case of existing FOREIGN KEY reference from another table
+--
+CREATE TABLE salespeople(salesperson_id INT PRIMARY KEY, salesperson_name VARCHAR(30)) PARTITION BY RANGE (salesperson_id);
+CREATE TABLE sales (salesperson_id INT REFERENCES salespeople(salesperson_id), sales_amount INT, sales_date DATE);
+
+CREATE TABLE salespeople01_10 PARTITION OF salespeople FOR VALUES FROM (1) TO (10);
+CREATE TABLE salespeople10_40 PARTITION OF salespeople FOR VALUES FROM (10) TO (40);
+
+INSERT INTO salespeople VALUES
+  (1,  'Poirot'),
+  (10, 'May'),
+  (19, 'Ivanov'),
+  (20, 'Smirnoff'),
+  (30, 'Ford');
+
+INSERT INTO sales VALUES
+  (1,  100, '2022-03-01'),
+  (1,  110, '2022-03-02'),
+  (10, 150, '2022-03-01'),
+  (10, 90,  '2022-03-03'),
+  (19, 200, '2022-03-04'),
+  (20, 50,  '2022-03-12'),
+  (20, 170, '2022-03-02'),
+  (30, 30,  '2022-03-04');
+
+SELECT tableoid::regclass, * FROM salespeople ORDER BY tableoid, salesperson_id;
+
+ALTER TABLE salespeople SPLIT PARTITION salespeople10_40 INTO
+  (PARTITION salespeople10_20 FOR VALUES FROM (10) TO (20),
+   PARTITION salespeople20_30 FOR VALUES FROM (20) TO (30),
+   PARTITION salespeople30_40 FOR VALUES FROM (30) TO (40));
+
+SELECT tableoid::regclass, * FROM salespeople ORDER BY tableoid, salesperson_id;
+
+-- ERROR:  insert or update on table "sales" violates foreign key constraint "sales_salesperson_id_fkey"
+INSERT INTO sales VALUES (40, 50,  '2022-03-04');
+-- ok
+INSERT INTO sales VALUES (30, 50,  '2022-03-04');
+
+DROP TABLE sales CASCADE;
+DROP TABLE salespeople CASCADE;
+
+--
+-- Test: split partition of partitioned table with triggers
+--
+CREATE TABLE salespeople(salesperson_id INT PRIMARY KEY, salesperson_name VARCHAR(30)) PARTITION BY RANGE (salesperson_id);
+
+CREATE TABLE salespeople01_10 PARTITION OF salespeople FOR VALUES FROM (1) TO (10);
+CREATE TABLE salespeople10_40 PARTITION OF salespeople FOR VALUES FROM (10) TO (40);
+
+INSERT INTO salespeople VALUES (1,  'Poirot');
+
+CREATE OR REPLACE FUNCTION after_insert_row_trigger() RETURNS trigger LANGUAGE 'plpgsql' AS $BODY$
+BEGIN
+    RAISE NOTICE 'trigger(%) called: action = %, when = %, level = %', TG_ARGV[0], TG_OP, TG_WHEN, TG_LEVEL;
+    RETURN NULL;
+END;
+$BODY$;
+
+CREATE TRIGGER salespeople_after_insert_statement_trigger
+    AFTER INSERT
+    ON salespeople
+    FOR EACH STATEMENT
+    EXECUTE PROCEDURE after_insert_row_trigger('salespeople');
+
+CREATE TRIGGER salespeople_after_insert_row_trigger
+    AFTER INSERT
+    ON salespeople
+    FOR EACH ROW
+    EXECUTE PROCEDURE after_insert_row_trigger('salespeople');
+
+-- 2 triggers should fire here (row + statement):
+INSERT INTO salespeople VALUES (10, 'May');
+-- 1 trigger should fire here (row):
+INSERT INTO salespeople10_40 VALUES (19, 'Ivanov');
+
+ALTER TABLE salespeople SPLIT PARTITION salespeople10_40 INTO
+  (PARTITION salespeople10_20 FOR VALUES FROM (10) TO (20),
+   PARTITION salespeople20_30 FOR VALUES FROM (20) TO (30),
+   PARTITION salespeople30_40 FOR VALUES FROM (30) TO (40));
+
+-- 2 triggers should fire here (row + statement):
+INSERT INTO salespeople VALUES (20, 'Smirnoff');
+-- 1 trigger should fire here (row):
+INSERT INTO salespeople30_40 VALUES (30, 'Ford');
+
+SELECT tableoid::regclass, * FROM salespeople ORDER BY tableoid, salesperson_id;
+
+DROP TABLE salespeople CASCADE;
+DROP FUNCTION after_insert_row_trigger();
+
+--
+-- Test: split partition witch identity column
+-- If split partition column is identity column, columns of new partitions are identity columns too.
+--
+CREATE TABLE salespeople(salesperson_id INT GENERATED ALWAYS AS IDENTITY PRIMARY KEY, salesperson_name VARCHAR(30)) PARTITION BY RANGE (salesperson_id);
+
+CREATE TABLE salespeople1_2 PARTITION OF salespeople FOR VALUES FROM (1) TO (2);
+-- Create new partition with identity column:
+CREATE TABLE salespeople2_5(salesperson_id INT NOT NULL, salesperson_name VARCHAR(30));
+ALTER TABLE salespeople ATTACH PARTITION salespeople2_5 FOR VALUES FROM (2) TO (5);
+
+INSERT INTO salespeople (salesperson_name) VALUES ('Poirot'), ('Ivanov');
+
+SELECT attname, attidentity, attgenerated FROM pg_attribute WHERE attnum > 0 AND attrelid = 'salespeople'::regclass::oid ORDER BY attnum;
+SELECT attname, attidentity, attgenerated FROM pg_attribute WHERE attnum > 0 AND attrelid = 'salespeople1_2'::regclass::oid ORDER BY attnum;
+-- Split partition has identity column:
+SELECT attname, attidentity, attgenerated FROM pg_attribute WHERE attnum > 0 AND attrelid = 'salespeople2_5'::regclass::oid ORDER BY attnum;
+
+ALTER TABLE salespeople SPLIT PARTITION salespeople2_5 INTO
+  (PARTITION salespeople2_3 FOR VALUES FROM (2) TO (3),
+   PARTITION salespeople3_4 FOR VALUES FROM (3) TO (4),
+   PARTITION salespeople4_5 FOR VALUES FROM (4) TO (5));
+
+INSERT INTO salespeople (salesperson_name) VALUES ('May'), ('Ford');
+
+SELECT tableoid::regclass, * FROM salespeople ORDER BY tableoid, salesperson_id;
+
+SELECT attname, attidentity, attgenerated FROM pg_attribute WHERE attnum > 0 AND attrelid = 'salespeople'::regclass::oid ORDER BY attnum;
+SELECT attname, attidentity, attgenerated FROM pg_attribute WHERE attnum > 0 AND attrelid = 'salespeople1_2'::regclass::oid ORDER BY attnum;
+-- New partitions have identity-columns:
+SELECT attname, attidentity, attgenerated FROM pg_attribute WHERE attnum > 0 AND attrelid = 'salespeople2_3'::regclass::oid ORDER BY attnum;
+SELECT attname, attidentity, attgenerated FROM pg_attribute WHERE attnum > 0 AND attrelid = 'salespeople3_4'::regclass::oid ORDER BY attnum;
+SELECT attname, attidentity, attgenerated FROM pg_attribute WHERE attnum > 0 AND attrelid = 'salespeople4_5'::regclass::oid ORDER BY attnum;
+
+DROP TABLE salespeople CASCADE;
+
+--
+-- Test: split partition with deleted columns
+--
+CREATE TABLE salespeople(salesperson_id INT PRIMARY KEY, salesperson_name VARCHAR(30)) PARTITION BY RANGE (salesperson_id);
+
+CREATE TABLE salespeople01_10 PARTITION OF salespeople FOR VALUES FROM (1) TO (10);
+-- Create new partition with some deleted columns:
+CREATE TABLE salespeople10_40(d1 VARCHAR(30), salesperson_id INT PRIMARY KEY, d2 INT, d3 DATE, salesperson_name VARCHAR(30));
+
+INSERT INTO salespeople10_40 VALUES
+  ('dummy value 1', 19, 100, now(), 'Ivanov'),
+  ('dummy value 2', 20, 101, now(), 'Smirnoff');
+
+ALTER TABLE salespeople10_40 DROP COLUMN d1;
+ALTER TABLE salespeople10_40 DROP COLUMN d2;
+ALTER TABLE salespeople10_40 DROP COLUMN d3;
+
+ALTER TABLE salespeople ATTACH PARTITION salespeople10_40 FOR VALUES FROM (10) TO (40);
+
+INSERT INTO salespeople VALUES
+  (1, 'Poirot'),
+  (10, 'May'),
+  (30, 'Ford');
+
+ALTER TABLE salespeople SPLIT PARTITION salespeople10_40 INTO
+  (PARTITION salespeople10_20 FOR VALUES FROM (10) TO (20),
+   PARTITION salespeople20_30 FOR VALUES FROM (20) TO (30),
+   PARTITION salespeople30_40 FOR VALUES FROM (30) TO (40));
+
+SELECT tableoid::regclass, * FROM salespeople ORDER BY tableoid, salesperson_id;
+
+DROP TABLE salespeople CASCADE;
+
+--
+-- Test: split sub-partition
+--
+CREATE TABLE sales_range (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date DATE) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_jan2022 PARTITION OF sales_range FOR VALUES FROM ('2022-01-01') TO ('2022-02-01');
+CREATE TABLE sales_feb2022 PARTITION OF sales_range FOR VALUES FROM ('2022-02-01') TO ('2022-03-01');
+CREATE TABLE sales_mar2022 PARTITION OF sales_range FOR VALUES FROM ('2022-03-01') TO ('2022-04-01');
+
+CREATE TABLE sales_apr2022 (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date DATE) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_apr_all PARTITION OF sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01');
+ALTER TABLE sales_range ATTACH PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01');
+
+CREATE TABLE sales_others PARTITION OF sales_range DEFAULT;
+
+CREATE INDEX sales_range_sales_date_idx ON sales_range USING btree (sales_date);
+
+INSERT INTO sales_range VALUES
+  (1,  'May',      1000, '2022-01-31'),
+  (2,  'Smirnoff', 500,  '2022-02-10'),
+  (3,  'Ford',     2000, '2022-04-30'),
+  (4,  'Ivanov',   750,  '2022-04-13'),
+  (5,  'Deev',     250,  '2022-04-07'),
+  (6,  'Poirot',   150,  '2022-02-11'),
+  (7,  'Li',       175,  '2022-03-08'),
+  (8,  'Ericsson', 185,  '2022-02-23'),
+  (9,  'Muller',   250,  '2022-03-11'),
+  (10, 'Halder',   350,  '2022-01-28'),
+  (11, 'Trump',    380,  '2022-04-06'),
+  (12, 'Plato',    350,  '2022-03-19'),
+  (13, 'Gandi',    377,  '2022-01-09'),
+  (14, 'Smith',    510,  '2022-05-04');
+
+SELECT * FROM sales_range;
+SELECT * FROM sales_apr2022;
+
+ALTER TABLE sales_apr2022 SPLIT PARTITION sales_apr_all INTO
+  (PARTITION sales_apr2022_01_10 FOR VALUES FROM ('2022-04-01') TO ('2022-04-10'),
+   PARTITION sales_apr2022_10_20 FOR VALUES FROM ('2022-04-10') TO ('2022-04-20'),
+   PARTITION sales_apr2022_20_30 FOR VALUES FROM ('2022-04-20') TO ('2022-05-01'));
+
+SELECT tableoid::regclass, * FROM sales_range ORDER BY tableoid, salesperson_id;
+
+DROP TABLE sales_range;
+
+--
+-- BY LIST partitioning
+--
+
+--
+-- Test: specific errors for BY LIST partitioning
+--
+CREATE TABLE sales_list
+(salesperson_id INT,
+ salesperson_name VARCHAR(30),
+ sales_state VARCHAR(20),
+ sales_amount INT,
+ sales_date DATE)
+PARTITION BY LIST (sales_state);
+
+CREATE TABLE sales_nord PARTITION OF sales_list FOR VALUES IN ('Oslo', 'St. Petersburg', 'Helsinki');
+CREATE TABLE sales_all PARTITION OF sales_list FOR VALUES IN ('Warsaw', 'Lisbon', 'New York', 'Madrid', 'Bejing', 'Berlin', 'Delhi', 'Kyiv', 'Vladivostok');
+CREATE TABLE sales_others PARTITION OF sales_list DEFAULT;
+
+-- ERROR:  new partition "sales_east" would overlap with another (not split) partition "sales_nord"
+ALTER TABLE sales_list SPLIT PARTITION sales_all INTO
+  (PARTITION sales_west FOR VALUES IN ('Lisbon', 'New York', 'Madrid'),
+   PARTITION sales_east FOR VALUES IN ('Bejing', 'Delhi', 'Vladivostok', 'Helsinki'),
+   PARTITION sales_central FOR VALUES IN ('Warsaw', 'Berlin', 'Kyiv'));
+
+-- ERROR:  new partition "sales_west" would overlap with another new partition "sales_central"
+ALTER TABLE sales_list SPLIT PARTITION sales_all INTO
+  (PARTITION sales_west FOR VALUES IN ('Lisbon', 'New York', 'Madrid'),
+   PARTITION sales_east FOR VALUES IN ('Bejing', 'Delhi', 'Vladivostok'),
+   PARTITION sales_central FOR VALUES IN ('Warsaw', 'Berlin', 'Lisbon', 'Kyiv'));
+
+-- ERROR:  new partition "sales_west" cannot have NULL value because split partition does not have
+ALTER TABLE sales_list SPLIT PARTITION sales_all INTO
+  (PARTITION sales_west FOR VALUES IN ('Lisbon', 'New York', 'Madrid', NULL),
+   PARTITION sales_east FOR VALUES IN ('Bejing', 'Delhi', 'Vladivostok'),
+   PARTITION sales_central FOR VALUES IN ('Warsaw', 'Berlin', 'Kyiv'));
+
+-- ERROR:  new partition "sales_west" cannot have this value because split partition does not have
+ALTER TABLE sales_list SPLIT PARTITION sales_all INTO
+  (PARTITION sales_west FOR VALUES IN ('Lisbon', 'New York', 'Madrid', 'Melbourne'),
+   PARTITION sales_east FOR VALUES IN ('Bejing', 'Delhi', 'Vladivostok'),
+   PARTITION sales_central FOR VALUES IN ('Warsaw', 'Berlin', 'Kyiv'));
+
+-- ERROR:  new partition cannot be DEFAULT because DEFAULT partition already exists
+ALTER TABLE sales_list SPLIT PARTITION sales_all INTO
+  (PARTITION sales_west FOR VALUES IN ('Lisbon', 'New York', 'Madrid', 'Melbourne'),
+   PARTITION sales_east FOR VALUES IN ('Bejing', 'Delhi', 'Vladivostok'),
+   PARTITION sales_central FOR VALUES IN ('Warsaw', 'Berlin', 'Kyiv'),
+   PARTITION sales_others2 DEFAULT);
+
+DROP TABLE sales_list;
+
+--
+-- Test: two specific errors for BY LIST partitioning:
+--   * new partitions do not have NULL value, which split partition has.
+--   * new partitions do not have a value that split partition has.
+--
+CREATE TABLE sales_list
+(salesperson_id INT,
+ salesperson_name VARCHAR(30),
+ sales_state VARCHAR(20),
+ sales_amount INT,
+ sales_date DATE)
+PARTITION BY LIST (sales_state);
+
+CREATE TABLE sales_nord PARTITION OF sales_list FOR VALUES IN ('Helsinki', 'St. Petersburg', 'Oslo');
+CREATE TABLE sales_all PARTITION OF sales_list FOR VALUES IN ('Warsaw', 'Lisbon', 'New York', 'Madrid', 'Bejing', 'Berlin', 'Delhi', 'Kyiv', 'Vladivostok', NULL);
+
+-- ERROR:  new partitions do not have value NULL but split partition does
+ALTER TABLE sales_list SPLIT PARTITION sales_all INTO
+  (PARTITION sales_west FOR VALUES IN ('Lisbon', 'New York', 'Madrid'),
+   PARTITION sales_east FOR VALUES IN ('Bejing', 'Delhi', 'Vladivostok'),
+   PARTITION sales_central FOR VALUES IN ('Warsaw', 'Berlin', 'Kyiv'));
+
+-- ERROR:  new partitions do not have value 'Kyiv' but split partition does
+ALTER TABLE sales_list SPLIT PARTITION sales_all INTO
+  (PARTITION sales_west FOR VALUES IN ('Lisbon', 'New York', 'Madrid'),
+   PARTITION sales_east FOR VALUES IN ('Bejing', 'Delhi', 'Vladivostok'),
+   PARTITION sales_central FOR VALUES IN ('Warsaw', 'Berlin', NULL));
+
+-- ERROR  DEFAULT partition should be one
+ALTER TABLE sales_list SPLIT PARTITION sales_all INTO
+  (PARTITION sales_west FOR VALUES IN ('Lisbon', 'New York', 'Madrid'),
+   PARTITION sales_east FOR VALUES IN ('Bejing', 'Delhi', 'Vladivostok'),
+   PARTITION sales_central FOR VALUES IN ('Warsaw', 'Berlin', 'Kyiv'),
+   PARTITION sales_others DEFAULT,
+   PARTITION sales_others2 DEFAULT);
+
+DROP TABLE sales_list;
+
+--
+-- Test: BY LIST partitioning, SPLIT PARTITION with data
+--
+CREATE TABLE sales_list
+(salesperson_id SERIAL,
+ salesperson_name VARCHAR(30),
+ sales_state VARCHAR(20),
+ sales_amount INT,
+ sales_date DATE)
+PARTITION BY LIST (sales_state);
+
+CREATE INDEX sales_list_salesperson_name_idx ON sales_list USING btree (salesperson_name);
+CREATE INDEX sales_list_sales_state_idx ON sales_list USING btree (sales_state);
+
+CREATE TABLE sales_nord PARTITION OF sales_list FOR VALUES IN ('Helsinki', 'St. Petersburg', 'Oslo');
+CREATE TABLE sales_all PARTITION OF sales_list FOR VALUES IN ('Warsaw', 'Lisbon', 'New York', 'Madrid', 'Bejing', 'Berlin', 'Delhi', 'Kyiv', 'Vladivostok');
+CREATE TABLE sales_others PARTITION OF sales_list DEFAULT;
+
+INSERT INTO sales_list (salesperson_name, sales_state, sales_amount, sales_date) VALUES
+  ('Trump',    'Bejing',         1000, '2022-03-01'),
+  ('Smirnoff', 'New York',        500, '2022-03-03'),
+  ('Ford',     'St. Petersburg', 2000, '2022-03-05'),
+  ('Ivanov',   'Warsaw',          750, '2022-03-04'),
+  ('Deev',     'Lisbon',          250, '2022-03-07'),
+  ('Poirot',   'Berlin',         1000, '2022-03-01'),
+  ('May',      'Oslo',           1200, '2022-03-06'),
+  ('Li',       'Vladivostok',    1150, '2022-03-09'),
+  ('May',      'Oslo',           1200, '2022-03-11'),
+  ('Halder',   'Helsinki',        800, '2022-03-02'),
+  ('Muller',   'Madrid',          650, '2022-03-05'),
+  ('Smith',    'Kyiv',            350, '2022-03-10'),
+  ('Gandi',    'Warsaw',          150, '2022-03-08'),
+  ('Plato',    'Lisbon',          950, '2022-03-05');
+
+ALTER TABLE sales_list SPLIT PARTITION sales_all INTO
+  (PARTITION sales_west FOR VALUES IN ('Lisbon', 'New York', 'Madrid'),
+   PARTITION sales_east FOR VALUES IN ('Bejing', 'Delhi', 'Vladivostok'),
+   PARTITION sales_central FOR VALUES IN ('Warsaw', 'Berlin', 'Kyiv'));
+
+SELECT tableoid::regclass, * FROM sales_list ORDER BY tableoid, salesperson_id;
+
+-- Use indexscan for testing indexes after splitting partition
+SET enable_indexscan = ON;
+SET enable_seqscan = OFF;
+
+SELECT * FROM sales_central WHERE sales_state = 'Warsaw';
+SELECT * FROM sales_list WHERE sales_state = 'Warsaw';
+SELECT * FROM sales_list WHERE salesperson_name = 'Ivanov';
+
+SET enable_indexscan = ON;
+SET enable_seqscan = ON;
+
+DROP TABLE sales_list;
+
+--
+-- Test for:
+--   * split DEFAULT partition to partitions with spaces between bounds;
+--   * random order of partitions in SPLIT PARTITION command.
+--
+CREATE TABLE sales_range (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date DATE) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_others PARTITION OF sales_range DEFAULT;
+
+INSERT INTO sales_range VALUES
+  (1,  'May',      1000, '2022-01-31'),
+  (2,  'Smirnoff', 500,  '2022-02-09'),
+  (3,  'Ford',     2000, '2022-04-30'),
+  (4,  'Ivanov',   750,  '2022-04-13'),
+  (5,  'Deev',     250,  '2022-04-07'),
+  (6,  'Poirot',   150,  '2022-02-07'),
+  (7,  'Li',       175,  '2022-03-08'),
+  (8,  'Ericsson', 185,  '2022-02-23'),
+  (9,  'Muller',   250,  '2022-03-11'),
+  (10, 'Halder',   350,  '2022-01-28'),
+  (11, 'Trump',    380,  '2022-04-06'),
+  (12, 'Plato',    350,  '2022-03-19'),
+  (13, 'Gandi',    377,  '2022-01-09'),
+  (14, 'Smith',    510,  '2022-05-04');
+
+ALTER TABLE sales_range SPLIT PARTITION sales_others INTO
+  (PARTITION sales_others DEFAULT,
+   PARTITION sales_mar2022_1decade FOR VALUES FROM ('2022-03-01') TO ('2022-03-10'),
+   PARTITION sales_jan2022_1decade FOR VALUES FROM ('2022-01-01') TO ('2022-01-10'),
+   PARTITION sales_feb2022_1decade FOR VALUES FROM ('2022-02-01') TO ('2022-02-10'),
+   PARTITION sales_apr2022_1decade FOR VALUES FROM ('2022-04-01') TO ('2022-04-10'));
+
+SELECT tableoid::regclass, * FROM sales_range ORDER BY tableoid, salesperson_id;
+
+DROP TABLE sales_range;
+
+--
+-- Test for:
+--   * split non-DEFAULT partition to partitions with spaces between bounds;
+--   * random order of partitions in SPLIT PARTITION command.
+--
+CREATE TABLE sales_range (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date DATE) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_all PARTITION OF sales_range FOR VALUES FROM ('2022-01-01') TO ('2022-05-01');
+CREATE TABLE sales_others PARTITION OF sales_range DEFAULT;
+
+INSERT INTO sales_range VALUES
+  (1,  'May',      1000, '2022-01-31'),
+  (2,  'Smirnoff', 500,  '2022-02-09'),
+  (3,  'Ford',     2000, '2022-04-30'),
+  (4,  'Ivanov',   750,  '2022-04-13'),
+  (5,  'Deev',     250,  '2022-04-07'),
+  (6,  'Poirot',   150,  '2022-02-07'),
+  (7,  'Li',       175,  '2022-03-08'),
+  (8,  'Ericsson', 185,  '2022-02-23'),
+  (9,  'Muller',   250,  '2022-03-11'),
+  (10, 'Halder',   350,  '2022-01-28'),
+  (11, 'Trump',    380,  '2022-04-06'),
+  (12, 'Plato',    350,  '2022-03-19'),
+  (13, 'Gandi',    377,  '2022-01-09'),
+  (14, 'Smith',    510,  '2022-05-04');
+
+ALTER TABLE sales_range SPLIT PARTITION sales_all INTO
+  (PARTITION sales_mar2022_1decade FOR VALUES FROM ('2022-03-01') TO ('2022-03-10'),
+   PARTITION sales_jan2022_1decade FOR VALUES FROM ('2022-01-01') TO ('2022-01-10'),
+   PARTITION sales_feb2022_1decade FOR VALUES FROM ('2022-02-01') TO ('2022-02-10'),
+   PARTITION sales_apr2022_1decade FOR VALUES FROM ('2022-04-01') TO ('2022-04-10'));
+
+SELECT tableoid::regclass, * FROM sales_range ORDER BY tableoid, salesperson_id;
+
+DROP TABLE sales_range;
+
+--
+-- Test for split non-DEFAULT partition to DEFAULT partition + partitions
+-- with spaces between bounds.
+--
+CREATE TABLE sales_range (salesperson_id INT, salesperson_name VARCHAR(30), sales_amount INT, sales_date DATE) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_jan2022 PARTITION OF sales_range FOR VALUES FROM ('2022-01-01') TO ('2022-02-01');
+CREATE TABLE sales_all PARTITION OF sales_range FOR VALUES FROM ('2022-02-01') TO ('2022-05-01');
+
+INSERT INTO sales_range VALUES
+  (1,  'May',      1000, '2022-01-31'),
+  (2,  'Smirnoff', 500,  '2022-02-10'),
+  (3,  'Ford',     2000, '2022-04-30'),
+  (4,  'Ivanov',   750,  '2022-04-13'),
+  (5,  'Deev',     250,  '2022-04-07'),
+  (6,  'Poirot',   150,  '2022-02-11'),
+  (7,  'Li',       175,  '2022-03-08'),
+  (8,  'Ericsson', 185,  '2022-02-23'),
+  (9,  'Muller',   250,  '2022-03-11'),
+  (10, 'Halder',   350,  '2022-01-28'),
+  (11, 'Trump',    380,  '2022-04-06'),
+  (12, 'Plato',    350,  '2022-03-19'),
+  (13, 'Gandi',    377,  '2022-01-09');
+
+ALTER TABLE sales_range SPLIT PARTITION sales_all INTO
+  (PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-05-01'),
+   PARTITION sales_feb2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION sales_others DEFAULT);
+
+INSERT INTO sales_range VALUES (14, 'Smith',    510,  '2022-05-04');
+
+SELECT tableoid::regclass, * FROM sales_range ORDER BY tableoid, salesperson_id;
+
+DROP TABLE sales_range;
+
+--
+-- Try to SPLIT partition of another table.
+--
+CREATE TABLE t1(i int, t text) PARTITION BY LIST (t);
+CREATE TABLE t1pa PARTITION OF t1 FOR VALUES IN ('A');
+CREATE TABLE t2 (i int, t text) PARTITION BY RANGE (t);
+
+-- ERROR:  relation "t1pa" is not a partition of relation "t2"
+ALTER TABLE t2 SPLIT PARTITION t1pa INTO
+   (PARTITION t2a FOR VALUES FROM ('A') TO ('B'),
+    PARTITION t2b FOR VALUES FROM ('B') TO ('C'));
+
+DROP TABLE t2;
+DROP TABLE t1;
+
+--
+-- Try to SPLIT partition of temporary table.
+--
+CREATE TEMP TABLE t (i int) PARTITION BY RANGE (i);
+CREATE TEMP TABLE tp_0_2 PARTITION OF t FOR VALUES FROM (0) TO (2);
+
+SELECT c.oid::pg_catalog.regclass, pg_catalog.pg_get_expr(c.relpartbound, c.oid), c.relpersistence
+  FROM pg_catalog.pg_class c, pg_catalog.pg_inherits i
+  WHERE c.oid = i.inhrelid AND i.inhparent = 't'::regclass
+  ORDER BY pg_catalog.pg_get_expr(c.relpartbound, c.oid) = 'DEFAULT', c.oid::pg_catalog.regclass::pg_catalog.text;
+
+ALTER TABLE t SPLIT PARTITION tp_0_2 INTO
+  (PARTITION tp_0_1 FOR VALUES FROM (0) TO (1),
+   PARTITION tp_1_2 FOR VALUES FROM (1) TO (2));
+
+-- Partitions should be temporary.
+SELECT c.oid::pg_catalog.regclass, pg_catalog.pg_get_expr(c.relpartbound, c.oid), c.relpersistence
+  FROM pg_catalog.pg_class c, pg_catalog.pg_inherits i
+  WHERE c.oid = i.inhrelid AND i.inhparent = 't'::regclass
+  ORDER BY pg_catalog.pg_get_expr(c.relpartbound, c.oid) = 'DEFAULT', c.oid::pg_catalog.regclass::pg_catalog.text;
+
+DROP TABLE t;
+
+-- Check the new partitions inherit parent's tablespace
+CREATE TABLE t (i int PRIMARY KEY USING INDEX TABLESPACE regress_tblspace)
+  PARTITION BY RANGE (i) TABLESPACE regress_tblspace;
+CREATE TABLE tp_0_2 PARTITION OF t FOR VALUES FROM (0) TO (2);
+ALTER TABLE t SPLIT PARTITION tp_0_2 INTO
+  (PARTITION tp_0_1 FOR VALUES FROM (0) TO (1),
+   PARTITION tp_1_2 FOR VALUES FROM (1) TO (2));
+SELECT tablename, tablespace FROM pg_tables
+  WHERE tablename IN ('t', 'tp_0_1', 'tp_1_2') AND schemaname = 'partition_split_schema'
+  ORDER BY tablename, tablespace;
+SELECT tablename, indexname, tablespace FROM pg_indexes
+  WHERE tablename IN ('t', 'tp_0_1', 'tp_1_2') AND schemaname = 'partition_split_schema'
+  ORDER BY tablename, indexname, tablespace;
+DROP TABLE t;
+
+-- Check new partitions inherits parent's table access method
+CREATE ACCESS METHOD partition_split_heap TYPE TABLE HANDLER heap_tableam_handler;
+CREATE TABLE t (i int) PARTITION BY RANGE (i) USING partition_split_heap;
+CREATE TABLE tp_0_2 PARTITION OF t FOR VALUES FROM (0) TO (2);
+ALTER TABLE t SPLIT PARTITION tp_0_2 INTO
+  (PARTITION tp_0_1 FOR VALUES FROM (0) TO (1),
+   PARTITION tp_1_2 FOR VALUES FROM (1) TO (2));
+SELECT c.relname, a.amname
+FROM pg_class c JOIN pg_am a ON c.relam = a.oid
+WHERE c.oid IN ('t'::regclass, 'tp_0_1'::regclass, 'tp_1_2'::regclass)
+ORDER BY c.relname;
+DROP TABLE t;
+DROP ACCESS METHOD partition_split_heap;
+
+-- Test permission checks.  The user needs to own the parent table and the
+-- the partition to split to do the split.
+CREATE ROLE regress_partition_split_alice;
+CREATE ROLE regress_partition_split_bob;
+GRANT ALL ON SCHEMA partition_split_schema TO regress_partition_split_alice;
+GRANT ALL ON SCHEMA partition_split_schema TO regress_partition_split_bob;
+
+SET SESSION AUTHORIZATION regress_partition_split_alice;
+CREATE TABLE t (i int) PARTITION BY RANGE (i);
+CREATE TABLE tp_0_2 PARTITION OF t FOR VALUES FROM (0) TO (2);
+
+SET SESSION AUTHORIZATION regress_partition_split_bob;
+ALTER TABLE t SPLIT PARTITION tp_0_2 INTO
+  (PARTITION tp_0_1 FOR VALUES FROM (0) TO (1),
+   PARTITION tp_1_2 FOR VALUES FROM (1) TO (2));
+RESET SESSION AUTHORIZATION;
+
+ALTER TABLE t OWNER TO regress_partition_split_bob;
+SET SESSION AUTHORIZATION regress_partition_split_bob;
+ALTER TABLE t SPLIT PARTITION tp_0_2 INTO
+  (PARTITION tp_0_1 FOR VALUES FROM (0) TO (1),
+   PARTITION tp_1_2 FOR VALUES FROM (1) TO (2));
+RESET SESSION AUTHORIZATION;
+
+ALTER TABLE tp_0_2 OWNER TO regress_partition_split_bob;
+SET SESSION AUTHORIZATION regress_partition_split_bob;
+ALTER TABLE t SPLIT PARTITION tp_0_2 INTO
+  (PARTITION tp_0_1 FOR VALUES FROM (0) TO (1),
+   PARTITION tp_1_2 FOR VALUES FROM (1) TO (2));
+RESET SESSION AUTHORIZATION;
+
+DROP TABLE t;
+REVOKE ALL ON SCHEMA partition_split_schema FROM regress_partition_split_alice;
+REVOKE ALL ON SCHEMA partition_split_schema FROM regress_partition_split_bob;
+DROP ROLE regress_partition_split_alice;
+DROP ROLE regress_partition_split_bob;
+
+-- Split partition of a temporary table when one of the partitions after
+-- split has the same name as the partition being split
+CREATE TEMP TABLE t (a int) PARTITION BY RANGE (a);
+CREATE TEMP TABLE tp_0 PARTITION OF t FOR VALUES FROM (0) TO (2);
+ALTER TABLE t SPLIT PARTITION tp_0 INTO
+  (PARTITION tp_0 FOR VALUES FROM (0) TO (1),
+   PARTITION tp_1 FOR VALUES FROM (1) TO (2));
+DROP TABLE t;
+
+-- Check defaults and constraints of new partitions
+CREATE TABLE t_bigint (
+  b bigint,
+  i int DEFAULT (3+10),
+  j int DEFAULT 101,
+  k int GENERATED ALWAYS AS (b+10) STORED
+)
+PARTITION BY RANGE (b);
+CREATE TABLE t_bigint_default PARTITION OF t_bigint DEFAULT;
+-- Show defaults/constraints before SPLIT PARTITION
+\d+ t_bigint
+\d+ t_bigint_default
+ALTER TABLE t_bigint SPLIT PARTITION t_bigint_default INTO
+  (PARTITION t_bigint_01_10 FOR VALUES FROM (0) TO (10),
+   PARTITION t_bigint_default DEFAULT);
+-- Show defaults/constraints after SPLIT PARTITION
+\d+ t_bigint_default
+\d+ t_bigint_01_10
+DROP TABLE t_bigint;
+
+
+-- Test: owner of new partitions should be the same as owner of split partition
+CREATE ROLE regress_partition_split_alice;
+GRANT ALL ON SCHEMA partition_split_schema TO regress_partition_split_alice;
+
+CREATE TABLE t (i int) PARTITION BY RANGE (i);
+
+SET SESSION AUTHORIZATION regress_partition_split_alice;
+CREATE TABLE tp_0_2(i int);
+RESET SESSION AUTHORIZATION;
+
+ALTER TABLE t ATTACH PARTITION tp_0_2 FOR VALUES FROM (0) TO (2);
+
+-- Owner is 'regress_partition_split_alice':
+\dt tp_0_2
+
+ALTER TABLE t SPLIT PARTITION tp_0_2 INTO
+  (PARTITION tp_0_1 FOR VALUES FROM (0) TO (1),
+   PARTITION tp_1_2 FOR VALUES FROM (1) TO (2));
+
+-- Owner should be 'regress_partition_split_alice':
+\dt tp_0_1
+\dt tp_1_2
+
+DROP TABLE t;
+REVOKE ALL ON SCHEMA partition_split_schema FROM regress_partition_split_alice;
+DROP ROLE regress_partition_split_alice;
+
+
+-- Test: index of new partitions should be created with same owner as split
+-- partition
+CREATE ROLE regress_partition_split_alice;
+GRANT ALL ON SCHEMA partition_split_schema TO regress_partition_split_alice;
+
+SET SESSION AUTHORIZATION regress_partition_split_alice;
+CREATE TABLE t (i int) PARTITION BY RANGE (i);
+CREATE TABLE tp_10_20 PARTITION OF t FOR VALUES FROM (10) TO (20);
+INSERT INTO t VALUES (11), (16);
+CREATE OR REPLACE FUNCTION run_me(integer) RETURNS integer AS $$
+BEGIN
+  RAISE NOTICE 'you are running me as %', CURRENT_USER;
+  RETURN $1;
+END
+$$ LANGUAGE PLPGSQL IMMUTABLE;
+
+-- Owner is 'regress_partition_split_alice':
+CREATE INDEX ON t (run_me(i));
+RESET SESSION AUTHORIZATION;
+
+-- Owner should be 'regress_partition_split_alice':
+ALTER TABLE t SPLIT PARTITION tp_10_20 INTO
+  (PARTITION tp_10_15 FOR VALUES FROM (10) TO (15),
+   PARTITION tp_15_20 FOR VALUES FROM (15) TO (20));
+
+DROP TABLE t;
+DROP FUNCTION run_me(integer);
+
+REVOKE ALL ON SCHEMA partition_split_schema FROM regress_partition_split_alice;
+DROP ROLE regress_partition_split_alice;
+
+-- Test for hash partitioned table
+CREATE TABLE t (i int) PARTITION BY HASH(i);
+CREATE TABLE tp1 PARTITION OF t FOR VALUES WITH (MODULUS 2, REMAINDER 0);
+CREATE TABLE tp2 PARTITION OF t FOR VALUES WITH (MODULUS 2, REMAINDER 1);
+
+-- ERROR:  partition of hash-partitioned table cannot be split
+ALTER TABLE t SPLIT PARTITION tp1 INTO
+  (PARTITION tp1_1 FOR VALUES WITH (MODULUS 4, REMAINDER 0),
+   PARTITION tp1_2 FOR VALUES WITH (MODULUS 4, REMAINDER 2));
+
+-- ERROR:  list of new partitions should contain at least two items
+ALTER TABLE t SPLIT PARTITION tp1 INTO
+  (PARTITION tp1_1 FOR VALUES WITH (MODULUS 4, REMAINDER 0));
+
+DROP TABLE t;
+
+
+-- Additional tests for error messages
+CREATE TABLE sales_range (salesperson_id int, salesperson_name varchar(30), sales_amount int, sales_date date) PARTITION BY RANGE (sales_date);
+CREATE TABLE sales_jan2022 PARTITION OF sales_range FOR VALUES FROM ('2022-01-01') TO ('2022-02-01');
+CREATE TABLE sales_feb_mar_apr2022 PARTITION OF sales_range FOR VALUES FROM ('2022-02-01') TO ('2022-05-01');
+
+-- ERROR:  upper bound of partition "sales_apr2022" is not equal to upper bound of split partition
+ALTER TABLE sales_range SPLIT PARTITION sales_feb_mar_apr2022 INTO
+  (PARTITION sales_feb2022 FOR VALUES FROM ('2022-02-01') TO ('2022-03-01'),
+   PARTITION sales_mar2022 FOR VALUES FROM ('2022-03-01') TO ('2022-04-01'),
+   PARTITION sales_apr2022 FOR VALUES FROM ('2022-04-01') TO ('2022-06-01'));
+
+DROP TABLE sales_range;
+
+
+-- Test for split partition properties:
+-- * STATISTICS is empty
+-- * COMMENT is empty
+-- * DEFAULTS are the same as DEFAULTS for partitioned table
+-- * STORAGE is the same as STORAGE for partitioned table
+-- * GENERATED and CONSTRAINTS are the same as GENERATED and CONSTRAINTS for partitioned table
+-- * TRIGGERS are the same as TRIGGERS for partitioned table
+
+CREATE TABLE t
+(i int NOT NULL,
+ t text STORAGE EXTENDED COMPRESSION pglz DEFAULT 'default_t',
+ b bigint,
+ d date GENERATED ALWAYS as ('2022-01-01') STORED) PARTITION BY RANGE (abs(i));
+COMMENT ON COLUMN t.i IS 't1.i';
+
+CREATE TABLE tp_x
+(i int NOT NULL,
+ t text STORAGE MAIN DEFAULT 'default_tp_x',
+ b bigint,
+ d date GENERATED ALWAYS as ('2022-02-02') STORED);
+ALTER TABLE t ATTACH PARTITION tp_x FOR VALUES FROM (0) TO (2);
+COMMENT ON COLUMN tp_x.i IS 'tp_x.i';
+
+CREATE STATISTICS t_stat (DEPENDENCIES) on i, b from t;
+CREATE STATISTICS tp_x_stat (DEPENDENCIES) on i, b from tp_x;
+
+ALTER TABLE t ADD CONSTRAINT t_b_check CHECK (b > 0);
+ALTER TABLE t ADD CONSTRAINT t_b_check1 CHECK (b > 0) NOT ENFORCED;
+ALTER TABLE t ADD CONSTRAINT t_b_check2 CHECK (b > 0) NOT VALID;
+ALTER TABLE t ADD CONSTRAINT t_b_nn NOT NULL b NOT VALID;
+
+INSERT INTO tp_x(i, t, b) VALUES(0, DEFAULT, 1);
+INSERT INTO tp_x(i, t, b) VALUES(1, DEFAULT, 2);
+
+CREATE OR REPLACE FUNCTION trigger_function() RETURNS trigger LANGUAGE 'plpgsql' AS
+$BODY$
+BEGIN
+  RAISE NOTICE 'trigger(%) called: action = %, when = %, level = %', TG_ARGV[0], TG_OP, TG_WHEN, TG_LEVEL;
+  RETURN new;
+END;
+$BODY$;
+
+CREATE TRIGGER t_before_insert_row_trigger BEFORE INSERT ON t FOR EACH ROW
+  EXECUTE PROCEDURE trigger_function('t');
+CREATE TRIGGER tp_x_before_insert_row_trigger BEFORE INSERT ON tp_x FOR EACH ROW
+  EXECUTE PROCEDURE trigger_function('tp_x');
+
+\d+ tp_x
+ALTER TABLE t SPLIT PARTITION tp_x INTO
+  (PARTITION tp_0_1 FOR VALUES FROM (0) TO (1),
+   PARTITION tp_x FOR VALUES FROM (1) TO (2));
+\d+ tp_x
+
+INSERT INTO t(i, t, b) VALUES(1, DEFAULT, 3);
+SELECT tableoid::regclass, * FROM t ORDER BY b;
+DROP TABLE t;
+DROP FUNCTION trigger_function();
+
+
+-- Test for recomputation of stored generated columns.
+CREATE TABLE t (i int, tab_id int generated always as (tableoid) stored) PARTITION BY RANGE (i);
+CREATE TABLE tp_0_2 PARTITION OF t FOR VALUES FROM (0) TO (2);
+ALTER TABLE t ADD CONSTRAINT cc CHECK(tableoid <> 123456789);
+INSERT INTO t VALUES (0), (1);
+
+-- Should be 1 because partition identifier for row with i=0 is the same as
+-- partition identifier for row with i=1.
+SELECT count(*) FROM t WHERE i = 0 AND tab_id IN (SELECT tab_id FROM t WHERE i = 1);
+
+-- "tab_id" column (stored generated column) with "tableoid" attribute requires
+-- recomputation here.
+ALTER TABLE t SPLIT PARTITION tp_0_2 INTO
+  (PARTITION tp_0_1 FOR VALUES FROM (0) TO (1),
+   PARTITION tp_1_2 FOR VALUES FROM (1) TO (2));
+
+-- Should be 0 because partition identifier for row with i=0 is different from
+-- partition identifier for row with i=1.
+SELECT count(*) FROM t WHERE i = 0 AND tab_id IN (SELECT tab_id FROM t WHERE i = 1);
+
+DROP TABLE t;
+
+
+RESET search_path;
+
+--
+DROP SCHEMA partition_split_schema;
+DROP SCHEMA partition_split_schema2;
diff --git a/src/tools/pgindent/typedefs.list b/src/tools/pgindent/typedefs.list
index 32d6e718ad..b815cced84 100644
--- a/src/tools/pgindent/typedefs.list
+++ b/src/tools/pgindent/typedefs.list
@@ -2766,6 +2766,7 @@ SimpleStats
 SimpleStringList
 SimpleStringListCell
 SingleBoundSortItem
+SinglePartitionSpec
 Size
 SkipPages
 SkipSupport
@@ -2832,6 +2833,7 @@ SpecialJoinInfo
 SpinDelayStatus
 SplitInterval
 SplitLR
+SplitPartitionContext
 SplitPageLayout
 SplitPoint
 SplitTextOutputData
-- 
2.40.1.windows.1



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  Subject: Re: Add SPLIT PARTITION/MERGE PARTITIONS commands
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