Allow opclasses to provide tri-valued GIN consistent functions.

With the GIN "fast scan" feature, GIN can skip items without fetching all the keys for them, if it can prove that they don't match regardless of those keys. So far, it has done the proving by calling the boolean consistent function with all combinations of TRUE/FALSE for the unfetched keys, but since that's O(n^2), it becomes unfeasible with more than a few keys. We can avoid calling consistent with all the combinations, if we can tell the operator class implementation directly which keys are unknown. This commit includes a triConsistent function for the built-in array and tsvector opclasses. Alexander Korotkov, with some changes by me.
2014-03-12 17:13:22 +02:00 · 2014-03-12 17:13:22 +02:00 · c5608ea26a
parent fecfc2b913
commit c5608ea26a
16 changed files with 467 additions and 101 deletions
--- a/doc/src/sgml/gin.sgml
+++ b/doc/src/sgml/gin.sgml
@ -74,15 +74,15 @@
 <para>
   All it takes to get a <acronym>GIN</acronym> access method working is to
-   implement four (or five) user-defined methods, which define the behavior of
+   implement a few user-defined methods, which define the behavior of
   keys in the tree and the relationships between keys, indexed items,
   and indexable queries. In short, <acronym>GIN</acronym> combines
   extensibility with generality, code reuse, and a clean interface.
 </para>
 <para>
-   The four methods that an operator class for
+   There are three methods that an operator class for
-   <acronym>GIN</acronym> must provide are:
+   <acronym>GIN</acronym> must provide:
 <variablelist>
    <varlistentry>
@ -190,7 +190,18 @@
     </listitem>
    </varlistentry>
  </variablelist>
  An operator class must also provide a function to check if an indexed item
  matches the query. It comes in two flavors, a boolean <function>consistent</>
  function, and a ternary <function>triConsistent</> function.
  <function>triConsistent</> covers the functionality of both, so providing
  triConsistent alone is sufficient. However, if the boolean variant is
  significantly cheaper to calculate, it can be advantegous to provide both.
  If only the boolean variant is provided, some optimizations that depend on
  refuting index items before fetching all the keys are disabled. 
  <variablelist>
    <varlistentry>
     <term><function>bool consistent(bool check[], StrategyNumber n, Datum query,
        int32 nkeys, Pointer extra_data[], bool *recheck,
@ -241,10 +252,38 @@
      </para>
     </listitem>
    </varlistentry>
    <varlistentry>
     <term><function>GinLogicValue triConsistent(GinLogicValue check[], StrategyNumber n, Datum query,
        int32 nkeys, Pointer extra_data[],
        Datum queryKeys[], bool nullFlags[])</></term>
     <listitem>
      <para>
       <function>triConsistent</> is similar to <function>consistent</>,
       but instead of a boolean <literal>check[]</>, there are three possible
       values for each key: <literal>GIN_TRUE</>, <literal>GIN_FALSE</> and
       <literal>GIN_MAYBE</>. <literal>GIN_FALSE</> and <literal>GIN_TRUE</>
       have the same meaning as regular boolean values.
       <literal>GIN_MAYBE</> means that the presence of that key is not known.
       When <literal>GIN_MAYBE</> values are present, the function should only
       return GIN_TRUE if the item matches whether or not the index item
       contains the corresponding query keys. Likewise, the function must
       return GIN_FALSE only if the item does not match, whether or not it 
       contains the GIN_MAYBE keys. If the result depends on the GIN_MAYBE
       entries, ie. the match cannot be confirmed or refuted based on the
       known query keys, the function must return GIN_MAYBE.
      </para>
      <para>
       When there are no GIN_MAYBE values in the <literal>check</> vector,
       <literal>GIN_MAYBE</> return value is equivalent of setting
       <literal>recheck</> flag in the boolean <function>consistent</> function.
      </para>
     </listitem>
    </varlistentry>
  </variablelist>
-  Optionally, an operator class for
+  Optionally, an operator class for <acronym>GIN</acronym> can supply the
-  <acronym>GIN</acronym> can supply a fifth method:
+  following method:
  <variablelist>
    <varlistentry>
@ -282,8 +321,9 @@
  above vary depending on the operator class.  The item values passed to
  <function>extractValue</> are always of the operator class's input type, and
  all key values must be of the class's <literal>STORAGE</> type.  The type of
-  the <literal>query</> argument passed to <function>extractQuery</> and
+  the <literal>query</> argument passed to <function>extractQuery</>,
-  <function>consistent</> is whatever is specified as the right-hand input
+  <function>consistent</> and <function>triConsistent</> is whatever is
  specified as the right-hand input
  type of the class member operator identified by the strategy number.
  This need not be the same as the item type, so long as key values of the
  correct type can be extracted from it.
--- a/doc/src/sgml/xindex.sgml
+++ b/doc/src/sgml/xindex.sgml
@ -567,7 +567,10 @@
      </row>
      <row>
       <entry><function>consistent</></entry>
-       <entry>determine whether value matches query condition</entry>
+       <entry>
        determine whether value matches query condition (boolean variant)
        (optional if support function 6 is present)
       </entry>
       <entry>4</entry>
      </row>
      <row>
@ -580,6 +583,14 @@
       </entry>
       <entry>5</entry>
      </row>
      <row>
       <entry><function>triConsistent</></entry>
       <entry>
        determine whether value matches query condition (ternary variant)
        (optional if support function 4 is present)
       </entry>
       <entry>6</entry>
      </row>
     </tbody>
    </tgroup>
   </table>
--- a/src/backend/access/gin/ginarrayproc.c
+++ b/src/backend/access/gin/ginarrayproc.c
@ -218,3 +218,87 @@ ginarrayconsistent(PG_FUNCTION_ARGS)
 	PG_RETURN_BOOL(res);
 }
 /*
 * triconsistent support function
 */
 Datum
 ginarraytriconsistent(PG_FUNCTION_ARGS)
 {
 	GinLogicValue *check = (GinLogicValue *) PG_GETARG_POINTER(0);
 	StrategyNumber strategy = PG_GETARG_UINT16(1);
 	/* ArrayType  *query = PG_GETARG_ARRAYTYPE_P(2); */
 	int32		nkeys = PG_GETARG_INT32(3);
 	/* Pointer	   *extra_data = (Pointer *) PG_GETARG_POINTER(4); */
 	/* Datum	   *queryKeys = (Datum *) PG_GETARG_POINTER(5); */
 	bool	   *nullFlags = (bool *) PG_GETARG_POINTER(6);
 	GinLogicValue	res;
 	int32		i;
 	switch (strategy)
 	{
 		case GinOverlapStrategy:
 			/* must have a match for at least one non-null element */
 			res = GIN_FALSE;
 			for (i = 0; i < nkeys; i++)
 			{
 				if (!nullFlags[i])
 				{
 					if (check[i] == GIN_TRUE)
 					{
 						res = GIN_TRUE;
 						break;
 					}
 					else if (check[i] == GIN_MAYBE && res == GIN_FALSE)
 					{
 						res = GIN_MAYBE;
 					}
 				}
 			}
 			break;
 		case GinContainsStrategy:
 			/* must have all elements in check[] true, and no nulls */
 			res = GIN_TRUE;
 			for (i = 0; i < nkeys; i++)
 			{
 				if (check[i] == GIN_FALSE || nullFlags[i])
 				{
 					res = GIN_FALSE;
 					break;
 				}
 				if (check[i] == GIN_MAYBE)
 				{
 					res = GIN_MAYBE;
 				}
 			}
 			break;
 		case GinContainedStrategy:
 			/* can't do anything else useful here */
 			res = GIN_MAYBE;
 			break;
 		case GinEqualStrategy:
 			/*
 			 * Must have all elements in check[] true; no discrimination
 			 * against nulls here.	This is because array_contain_compare and
 			 * array_eq handle nulls differently ...
 			 */
 			res = GIN_MAYBE;
 			for (i = 0; i < nkeys; i++)
 			{
 				if (check[i] == GIN_FALSE)
 				{
 					res = GIN_FALSE;
 					break;
 				}
 			}
 			break;
 		default:
 			elog(ERROR, "ginarrayconsistent: unknown strategy number: %d",
 				 strategy);
 			res = false;
 	}
 	PG_RETURN_GIN_LOGIC_VALUE(res);
 }
--- a/src/backend/access/gin/ginlogic.c
+++ b/src/backend/access/gin/ginlogic.c
@ -61,7 +61,7 @@ trueTriConsistentFn(GinScanKey key)
 * A helper function for calling a regular, binary logic, consistent function.
 */
 static bool
-normalBoolConsistentFn(GinScanKey key)
+directBoolConsistentFn(GinScanKey key)
 {
 	/*
 	 * Initialize recheckCurItem in case the consistentFn doesn't know it
@ -81,6 +81,53 @@ normalBoolConsistentFn(GinScanKey key)
 									 PointerGetDatum(key->queryCategories)));
 }
 /*
 * A helper function for calling a native ternary logic consistent function.
 */
 static GinLogicValue
 directTriConsistentFn(GinScanKey key)
 {
 	return DatumGetGinLogicValue(FunctionCall7Coll(key->triConsistentFmgrInfo,
 										  key->collation,
 										  PointerGetDatum(key->entryRes),
 										  UInt16GetDatum(key->strategy),
 										  key->query,
 										  UInt32GetDatum(key->nuserentries),
 										  PointerGetDatum(key->extra_data),
 										  PointerGetDatum(key->queryValues),
 									 PointerGetDatum(key->queryCategories)));
 }
 /*
 * This function implements a binary logic consistency check, using a ternary
 * logic consistent function provided by the opclass. GIN_MAYBE return value
 * is interpreted as true with recheck flag.
 */
 static bool
 shimBoolConsistentFn(GinScanKey key)
 {
 	GinLogicValue result;
 	result = DatumGetGinLogicValue(FunctionCall7Coll(key->triConsistentFmgrInfo,
 										  key->collation,
 										  PointerGetDatum(key->entryRes),
 										  UInt16GetDatum(key->strategy),
 										  key->query,
 										  UInt32GetDatum(key->nuserentries),
 										  PointerGetDatum(key->extra_data),
 										  PointerGetDatum(key->queryValues),
 									 PointerGetDatum(key->queryCategories)));
 	if (result == GIN_MAYBE)
 	{
 		key->recheckCurItem = true;
 		return true;
 	}
 	else
 	{
 		key->recheckCurItem = false;
 		return result;
 	}
 }
 /*
 * This function implements a tri-state consistency check, using a boolean
 * consistent function provided by the opclass.
@ -124,12 +171,12 @@ shimTriConsistentFn(GinScanKey key)
 	 * function as is.
 	 */
 	if (nmaybe == 0)
-		return normalBoolConsistentFn(key);
+		return directBoolConsistentFn(key);
 	/* First call consistent function with all the maybe-inputs set FALSE */
 	for (i = 0; i < nmaybe; i++)
 		key->entryRes[maybeEntries[i]] = GIN_FALSE;
-	curResult = normalBoolConsistentFn(key);
+	curResult = directBoolConsistentFn(key);
 	for (;;)
 	{
@ -147,7 +194,7 @@ shimTriConsistentFn(GinScanKey key)
 		if (i == nmaybe)
 			break;
-		boolResult = normalBoolConsistentFn(key);
+		boolResult = directBoolConsistentFn(key);
 		recheck |= key->recheckCurItem;
 		if (curResult != boolResult)
@ -175,8 +222,17 @@ ginInitConsistentFunction(GinState *ginstate, GinScanKey key)
 	else
 	{
 		key->consistentFmgrInfo = &ginstate->consistentFn[key->attnum - 1];
 		key->triConsistentFmgrInfo = &ginstate->triConsistentFn[key->attnum - 1];
 		key->collation = ginstate->supportCollation[key->attnum - 1];
-		key->boolConsistentFn = normalBoolConsistentFn;
+
-		key->triConsistentFn = shimTriConsistentFn;
+		if (OidIsValid(ginstate->consistentFn[key->attnum - 1].fn_oid))
 			key->boolConsistentFn = directBoolConsistentFn;
 		else
 			key->boolConsistentFn = shimBoolConsistentFn;
 		if (OidIsValid(ginstate->triConsistentFn[key->attnum - 1].fn_oid))
 			key->triConsistentFn =  directTriConsistentFn;
 		else
 			key->triConsistentFn =  shimTriConsistentFn;
 	}
 }
--- a/src/backend/access/gin/ginutil.c
+++ b/src/backend/access/gin/ginutil.c
@ -67,9 +67,31 @@ initGinState(GinState *state, Relation index)
 		fmgr_info_copy(&(state->extractQueryFn[i]),
 					   index_getprocinfo(index, i + 1, GIN_EXTRACTQUERY_PROC),
 					   CurrentMemoryContext);
-		fmgr_info_copy(&(state->consistentFn[i]),
+		/*
-					   index_getprocinfo(index, i + 1, GIN_CONSISTENT_PROC),
+		 * Check opclass capability to do tri-state or binary logic consistent
-					   CurrentMemoryContext);
+		 * check.
 		 */
 		if (index_getprocid(index, i + 1, GIN_TRICONSISTENT_PROC) != InvalidOid)
 		{
 			fmgr_info_copy(&(state->triConsistentFn[i]),
 			   index_getprocinfo(index, i + 1, GIN_TRICONSISTENT_PROC),
 						   CurrentMemoryContext);
 		}
 		if (index_getprocid(index, i + 1, GIN_CONSISTENT_PROC) != InvalidOid)
 		{
 			fmgr_info_copy(&(state->consistentFn[i]),
 						   index_getprocinfo(index, i + 1, GIN_CONSISTENT_PROC),
 						   CurrentMemoryContext);
 		}
 		if (state->consistentFn[i].fn_oid == InvalidOid &&
 			state->triConsistentFn[i].fn_oid == InvalidOid)
 		{
 			elog(ERROR, "missing GIN support function (%d or %d) for attribute %d of index \"%s\"",
 				 GIN_CONSISTENT_PROC, GIN_TRICONSISTENT_PROC,
 				 i + 1, RelationGetRelationName(index));
 		}
 		/*
 		 * Check opclass capability to do partial match.
--- a/src/backend/utils/adt/tsginidx.c
+++ b/src/backend/utils/adt/tsginidx.c
@ -15,6 +15,7 @@
 #include "access/gin.h"
 #include "access/skey.h"
 #include "miscadmin.h"
 #include "tsearch/ts_type.h"
 #include "tsearch/ts_utils.h"
 #include "utils/builtins.h"
@ -172,12 +173,12 @@ gin_extract_tsquery(PG_FUNCTION_ARGS)
 typedef struct
 {
 	QueryItem  *first_item;
-	bool	   *check;
+	GinLogicValue *check;
 	int		   *map_item_operand;
 	bool	   *need_recheck;
 } GinChkVal;
-static bool
+static GinLogicValue
 checkcondition_gin(void *checkval, QueryOperand *val)
 {
 	GinChkVal  *gcv = (GinChkVal *) checkval;
@ -194,6 +195,66 @@ checkcondition_gin(void *checkval, QueryOperand *val)
 	return gcv->check[j];
 }
 /*
 * Evaluate tsquery boolean expression using ternary logic.
 *
 * chkcond is a callback function used to evaluate each VAL node in the query.
 * checkval can be used to pass information to the callback. TS_execute doesn't
 * do anything with it.
 */
 static GinLogicValue
 TS_execute_ternary(QueryItem *curitem, void *checkval,
 				   GinLogicValue (*chkcond) (void *checkval, QueryOperand *val))
 {
 	GinLogicValue val1, val2, result;
 	/* since this function recurses, it could be driven to stack overflow */
 	check_stack_depth();
 	if (curitem->type == QI_VAL)
 		return chkcond(checkval, (QueryOperand *) curitem);
 	switch (curitem->qoperator.oper)
 	{
 		case OP_NOT:
 			result = TS_execute_ternary(curitem + 1, checkval, chkcond);
 			if (result == GIN_MAYBE)
 				return result;
 			return !result;
 		case OP_AND:
 			val1 = TS_execute_ternary(curitem + curitem->qoperator.left,
 															checkval, chkcond);
 			if (val1 == GIN_FALSE)
 				return GIN_FALSE;
 			val2 = TS_execute_ternary(curitem + 1, checkval, chkcond);
 			if (val2 == GIN_FALSE)
 				return GIN_FALSE;
 			if (val1 == GIN_TRUE && val2 == GIN_TRUE)
 				return GIN_TRUE;
 			else
 				return GIN_MAYBE;
 		case OP_OR:
 			val1 = TS_execute_ternary(curitem + curitem->qoperator.left,
 															checkval, chkcond);
 			if (val1 == GIN_TRUE)
 				return GIN_TRUE;
 			val2 = TS_execute_ternary(curitem + 1, checkval, chkcond);
 			if (val2 == GIN_TRUE)
 				return GIN_TRUE;
 			if (val1 == GIN_FALSE && val2 == GIN_FALSE)
 				return GIN_FALSE;
 			else
 				return GIN_MAYBE;
 		default:
 			elog(ERROR, "unrecognized operator: %d", curitem->qoperator.oper);
 	}
 	/* not reachable, but keep compiler quiet */
 	return false;
 }
 Datum
 gin_tsquery_consistent(PG_FUNCTION_ARGS)
 {
@ -233,6 +294,45 @@ gin_tsquery_consistent(PG_FUNCTION_ARGS)
 	PG_RETURN_BOOL(res);
 }
 Datum
 gin_tsquery_triconsistent(PG_FUNCTION_ARGS)
 {
 	GinLogicValue *check = (GinLogicValue *) PG_GETARG_POINTER(0);
 	/* StrategyNumber strategy = PG_GETARG_UINT16(1); */
 	TSQuery		query = PG_GETARG_TSQUERY(2);
 	/* int32	nkeys = PG_GETARG_INT32(3); */
 	Pointer    *extra_data = (Pointer *) PG_GETARG_POINTER(4);
 	GinLogicValue res = GIN_FALSE;
 	bool		recheck;
 	/* The query requires recheck only if it involves weights */
 	if (query->size > 0)
 	{
 		QueryItem  *item;
 		GinChkVal	gcv;
 		/*
 		 * check-parameter array has one entry for each value (operand) in the
 		 * query.
 		 */
 		gcv.first_item = item = GETQUERY(query);
 		gcv.check = check;
 		gcv.map_item_operand = (int *) (extra_data[0]);
 		gcv.need_recheck = &recheck;
 		res = TS_execute_ternary(GETQUERY(query),
 								 &gcv,
 								 checkcondition_gin);
 		if (res == GIN_TRUE && recheck)
 			res = GIN_MAYBE;
 	}
 	PG_RETURN_GIN_LOGIC_VALUE(res);
 }
 /*
 * Formerly, gin_extract_tsvector had only two arguments.  Now it has three,
 * but we still need a pg_proc entry with two args to support reloading
--- a/src/include/access/gin.h
+++ b/src/include/access/gin.h
@ -23,7 +23,8 @@
 #define GIN_EXTRACTQUERY_PROC		   3
 #define GIN_CONSISTENT_PROC			   4
 #define GIN_COMPARE_PARTIAL_PROC	   5
-#define GINNProcs					   5
+#define GIN_TRICONSISTENT_PROC		   6
 #define GINNProcs					   6
 /*
 * searchMode settings for extractQueryFn.
@ -46,6 +47,21 @@ typedef struct GinStatsData
 	int32		ginVersion;
 } GinStatsData;
 /* ginlogic.c */
 enum
 {
 	GIN_FALSE = 0,			/* item is present / matches */
 	GIN_TRUE = 1,			/* item is not present / does not match */
 	GIN_MAYBE = 2			/* don't know if item is present / don't know if
 							 * matches */
 } GinLogicValueEnum;
 typedef char GinLogicValue;
 #define DatumGetGinLogicValue(X) ((GinLogicValue)(X))
 #define GinLogicValueGetDatum(X) ((Datum)(X))
 #define PG_RETURN_GIN_LOGIC_VALUE(x) return GinLogicValueGetDatum(x)
 /* GUC parameter */
 extern PGDLLIMPORT int GinFuzzySearchLimit;
--- a/src/include/access/gin_private.h
+++ b/src/include/access/gin_private.h
@ -348,6 +348,7 @@ typedef struct GinState
 	FmgrInfo	extractValueFn[INDEX_MAX_KEYS];
 	FmgrInfo	extractQueryFn[INDEX_MAX_KEYS];
 	FmgrInfo	consistentFn[INDEX_MAX_KEYS];
 	FmgrInfo	triConsistentFn[INDEX_MAX_KEYS];
 	FmgrInfo	comparePartialFn[INDEX_MAX_KEYS];		/* optional method */
 	/* canPartialMatch[i] is true if comparePartialFn[i] is valid */
 	bool		canPartialMatch[INDEX_MAX_KEYS];
@ -762,8 +763,9 @@ typedef struct GinScanKeyData
 	/* array of check flags, reported to consistentFn */
 	bool	   *entryRes;
 	bool		(*boolConsistentFn) (GinScanKey key);
-	bool		(*triConsistentFn) (GinScanKey key);
+	GinLogicValue (*triConsistentFn) (GinScanKey key);
 	FmgrInfo   *consistentFmgrInfo;
 	FmgrInfo   *triConsistentFmgrInfo;
 	Oid			collation;
 	/* other data needed for calling consistentFn */
@ -850,17 +852,6 @@ extern void ginNewScanKey(IndexScanDesc scan);
 extern Datum gingetbitmap(PG_FUNCTION_ARGS);
 /* ginlogic.c */
 enum
 {
 	GIN_FALSE = 0,			/* item is present / matches */
 	GIN_TRUE = 1,			/* item is not present / does not match */
 	GIN_MAYBE = 2			/* don't know if item is present / don't know if
 							 * matches */
 } GinLogicValueEnum;
 typedef char GinLogicValue;
 extern void ginInitConsistentFunction(GinState *ginstate, GinScanKey key);
 /* ginvacuum.c */
--- a/src/include/catalog/catversion.h
+++ b/src/include/catalog/catversion.h
@ -53,6 +53,6 @@
 */
 /*							yyyymmddN */
-#define CATALOG_VERSION_NO	201403041
+#define CATALOG_VERSION_NO	201403121
 #endif
--- a/src/include/catalog/pg_am.h
+++ b/src/include/catalog/pg_am.h
@ -126,7 +126,7 @@ DESCR("hash index access method");
 DATA(insert OID = 783 (  gist		0 8 f t f f t t f t t t f 0 gistinsert gistbeginscan gistgettuple gistgetbitmap gistrescan gistendscan gistmarkpos gistrestrpos gistbuild gistbuildempty gistbulkdelete gistvacuumcleanup - gistcostestimate gistoptions ));
 DESCR("GiST index access method");
 #define GIST_AM_OID 783
-DATA(insert OID = 2742 (  gin		0 5 f f f f t t f f t f f 0 gininsert ginbeginscan - gingetbitmap ginrescan ginendscan ginmarkpos ginrestrpos ginbuild ginbuildempty ginbulkdelete ginvacuumcleanup - gincostestimate ginoptions ));
+DATA(insert OID = 2742 (  gin		0 6 f f f f t t f f t f f 0 gininsert ginbeginscan - gingetbitmap ginrescan ginendscan ginmarkpos ginrestrpos ginbuild ginbuildempty ginbulkdelete ginvacuumcleanup - gincostestimate ginoptions ));
 DESCR("GIN index access method");
 #define GIN_AM_OID 2742
 DATA(insert OID = 4000 (  spgist	0 5 f f f f f t f t f f f 0 spginsert spgbeginscan spggettuple spggetbitmap spgrescan spgendscan spgmarkpos spgrestrpos spgbuild spgbuildempty spgbulkdelete spgvacuumcleanup spgcanreturn spgcostestimate spgoptions ));
--- a/src/include/catalog/pg_amproc.h
+++ b/src/include/catalog/pg_amproc.h
@ -235,127 +235,158 @@ DATA(insert (	2745   1007 1007 1	351 ));
 DATA(insert (	2745   1007 1007 2 2743 ));
 DATA(insert (	2745   1007 1007 3 2774 ));
 DATA(insert (	2745   1007 1007 4 2744 ));
 DATA(insert (	2745   1007 1007 6 3920 ));
 DATA(insert (	2745   1009 1009 1	360 ));
 DATA(insert (	2745   1009 1009 2 2743 ));
 DATA(insert (	2745   1009 1009 3 2774 ));
 DATA(insert (	2745   1009 1009 4 2744 ));
 DATA(insert (	2745   1009 1009 6 3920 ));
 DATA(insert (	2745   1015 1015 1	360 ));
 DATA(insert (	2745   1015 1015 2 2743 ));
 DATA(insert (	2745   1015 1015 3 2774 ));
 DATA(insert (	2745   1015 1015 4 2744 ));
 DATA(insert (	2745   1015 1015 6 3920 ));
 DATA(insert (	2745   1023 1023 1 357 ));
 DATA(insert (	2745   1023 1023 2 2743 ));
 DATA(insert (	2745   1023 1023 3 2774 ));
 DATA(insert (	2745   1023 1023 4 2744 ));
 DATA(insert (	2745   1023 1023 6 3920 ));
 DATA(insert (	2745   1561 1561 1 1596 ));
 DATA(insert (	2745   1561 1561 2 2743 ));
 DATA(insert (	2745   1561 1561 3 2774 ));
 DATA(insert (	2745   1561 1561 4 2744 ));
 DATA(insert (	2745   1561 1561 6 3920 ));
 DATA(insert (	2745   1000 1000 1 1693 ));
 DATA(insert (	2745   1000 1000 2 2743 ));
 DATA(insert (	2745   1000 1000 3 2774 ));
 DATA(insert (	2745   1000 1000 4 2744 ));
 DATA(insert (	2745   1000 1000 6 3920 ));
 DATA(insert (	2745   1014 1014 1 1078 ));
 DATA(insert (	2745   1014 1014 2 2743 ));
 DATA(insert (	2745   1014 1014 3 2774 ));
 DATA(insert (	2745   1014 1014 4 2744 ));
 DATA(insert (	2745   1014 1014 6 3920 ));
 DATA(insert (	2745   1001 1001 1 1954 ));
 DATA(insert (	2745   1001 1001 2 2743 ));
 DATA(insert (	2745   1001 1001 3 2774 ));
 DATA(insert (	2745   1001 1001 4 2744 ));
 DATA(insert (	2745   1001 1001 6 3920 ));
 DATA(insert (	2745   1002 1002 1 358 ));
 DATA(insert (	2745   1002 1002 2 2743 ));
 DATA(insert (	2745   1002 1002 3 2774 ));
 DATA(insert (	2745   1002 1002 4 2744 ));
 DATA(insert (	2745   1002 1002 6 3920 ));
 DATA(insert (	2745   1182 1182 1 1092 ));
 DATA(insert (	2745   1182 1182 2 2743 ));
 DATA(insert (	2745   1182 1182 3 2774 ));
 DATA(insert (	2745   1182 1182 4 2744 ));
 DATA(insert (	2745   1182 1182 6 3920 ));
 DATA(insert (	2745   1021 1021 1 354 ));
 DATA(insert (	2745   1021 1021 2 2743 ));
 DATA(insert (	2745   1021 1021 3 2774 ));
 DATA(insert (	2745   1021 1021 4 2744 ));
 DATA(insert (	2745   1021 1021 6 3920 ));
 DATA(insert (	2745   1022 1022 1 355 ));
 DATA(insert (	2745   1022 1022 2 2743 ));
 DATA(insert (	2745   1022 1022 3 2774 ));
 DATA(insert (	2745   1022 1022 4 2744 ));
 DATA(insert (	2745   1022 1022 6 3920 ));
 DATA(insert (	2745   1041 1041 1 926 ));
 DATA(insert (	2745   1041 1041 2 2743 ));
 DATA(insert (	2745   1041 1041 3 2774 ));
 DATA(insert (	2745   1041 1041 4 2744 ));
 DATA(insert (	2745   1041 1041 6 3920 ));
 DATA(insert (	2745   651 651 1 926 ));
 DATA(insert (	2745   651 651 2 2743 ));
 DATA(insert (	2745   651 651 3 2774 ));
 DATA(insert (	2745   651 651 4 2744 ));
 DATA(insert (	2745   651 651 6 3920 ));
 DATA(insert (	2745   1005 1005 1 350 ));
 DATA(insert (	2745   1005 1005 2 2743 ));
 DATA(insert (	2745   1005 1005 3 2774 ));
 DATA(insert (	2745   1005 1005 4 2744 ));
 DATA(insert (	2745   1005 1005 6 3920 ));
 DATA(insert (	2745   1016 1016 1 842 ));
 DATA(insert (	2745   1016 1016 2 2743 ));
 DATA(insert (	2745   1016 1016 3 2774 ));
 DATA(insert (	2745   1016 1016 4 2744 ));
 DATA(insert (	2745   1016 1016 6 3920 ));
 DATA(insert (	2745   1187 1187 1 1315 ));
 DATA(insert (	2745   1187 1187 2 2743 ));
 DATA(insert (	2745   1187 1187 3 2774 ));
 DATA(insert (	2745   1187 1187 4 2744 ));
 DATA(insert (	2745   1187 1187 6 3920 ));
 DATA(insert (	2745   1040 1040 1 836 ));
 DATA(insert (	2745   1040 1040 2 2743 ));
 DATA(insert (	2745   1040 1040 3 2774 ));
 DATA(insert (	2745   1040 1040 4 2744 ));
 DATA(insert (	2745   1040 1040 6 3920 ));
 DATA(insert (	2745   1003 1003 1 359 ));
 DATA(insert (	2745   1003 1003 2 2743 ));
 DATA(insert (	2745   1003 1003 3 2774 ));
 DATA(insert (	2745   1003 1003 4 2744 ));
 DATA(insert (	2745   1003 1003 6 3920 ));
 DATA(insert (	2745   1231 1231 1 1769 ));
 DATA(insert (	2745   1231 1231 2 2743 ));
 DATA(insert (	2745   1231 1231 3 2774 ));
 DATA(insert (	2745   1231 1231 4 2744 ));
 DATA(insert (	2745   1231 1231 6 3920 ));
 DATA(insert (	2745   1028 1028 1 356 ));
 DATA(insert (	2745   1028 1028 2 2743 ));
 DATA(insert (	2745   1028 1028 3 2774 ));
 DATA(insert (	2745   1028 1028 4 2744 ));
 DATA(insert (	2745   1028 1028 6 3920 ));
 DATA(insert (	2745   1013 1013 1 404 ));
 DATA(insert (	2745   1013 1013 2 2743 ));
 DATA(insert (	2745   1013 1013 3 2774 ));
 DATA(insert (	2745   1013 1013 4 2744 ));
 DATA(insert (	2745   1013 1013 6 3920 ));
 DATA(insert (	2745   1183 1183 1 1107 ));
 DATA(insert (	2745   1183 1183 2 2743 ));
 DATA(insert (	2745   1183 1183 3 2774 ));
 DATA(insert (	2745   1183 1183 4 2744 ));
 DATA(insert (	2745   1183 1183 6 3920 ));
 DATA(insert (	2745   1185 1185 1 1314 ));
 DATA(insert (	2745   1185 1185 2 2743 ));
 DATA(insert (	2745   1185 1185 3 2774 ));
 DATA(insert (	2745   1185 1185 4 2744 ));
 DATA(insert (	2745   1185 1185 6 3920 ));
 DATA(insert (	2745   1270 1270 1 1358 ));
 DATA(insert (	2745   1270 1270 2 2743 ));
 DATA(insert (	2745   1270 1270 3 2774 ));
 DATA(insert (	2745   1270 1270 4 2744 ));
 DATA(insert (	2745   1270 1270 6 3920 ));
 DATA(insert (	2745   1563 1563 1 1672 ));
 DATA(insert (	2745   1563 1563 2 2743 ));
 DATA(insert (	2745   1563 1563 3 2774 ));
 DATA(insert (	2745   1563 1563 4 2744 ));
 DATA(insert (	2745   1563 1563 6 3920 ));
 DATA(insert (	2745   1115 1115 1 2045 ));
 DATA(insert (	2745   1115 1115 2 2743 ));
 DATA(insert (	2745   1115 1115 3 2774 ));
 DATA(insert (	2745   1115 1115 4 2744 ));
 DATA(insert (	2745   1115 1115 6 3920 ));
 DATA(insert (	2745   791 791 1 377 ));
 DATA(insert (	2745   791 791 2 2743 ));
 DATA(insert (	2745   791 791 3 2774 ));
 DATA(insert (	2745   791 791 4 2744 ));
 DATA(insert (	2745   791 791 6 3920 ));
 DATA(insert (	2745   1024 1024 1 380 ));
 DATA(insert (	2745   1024 1024 2 2743 ));
 DATA(insert (	2745   1024 1024 3 2774 ));
 DATA(insert (	2745   1024 1024 4 2744 ));
 DATA(insert (	2745   1024 1024 6 3920 ));
 DATA(insert (	2745   1025 1025 1 381 ));
 DATA(insert (	2745   1025 1025 2 2743 ));
 DATA(insert (	2745   1025 1025 3 2774 ));
 DATA(insert (	2745   1025 1025 4 2744 ));
 DATA(insert (	2745   1025 1025 6 3920 ));
 DATA(insert (	3659   3614 3614 1 3724 ));
 DATA(insert (	3659   3614 3614 2 3656 ));
 DATA(insert (	3659   3614 3614 3 3657 ));
 DATA(insert (	3659   3614 3614 4 3658 ));
 DATA(insert (	3659   3614 3614 5 2700 ));
 DATA(insert (	3659   3614 3614 6 3921 ));
 /* sp-gist */
--- a/src/include/catalog/pg_proc.h
+++ b/src/include/catalog/pg_proc.h
@ -3991,6 +3991,8 @@ DATA(insert OID = 2774 (  ginqueryarrayextract	PGNSP PGUID 12 1 0 0 0 f f f f t
 DESCR("GIN array support");
 DATA(insert OID = 2744 (  ginarrayconsistent	PGNSP PGUID 12 1 0 0 0 f f f f t f i 8 0 16 "2281 21 2277 23 2281 2281 2281 2281" _null_ _null_ _null_ _null_ ginarrayconsistent _null_ _null_ _null_ ));
 DESCR("GIN array support");
 DATA(insert OID = 3920 (  ginarraytriconsistent	PGNSP PGUID 12 1 0 0 0 f f f f t f i 7 0 16 "2281 21 2277 23 2281 2281 2281" _null_ _null_ _null_ _null_ ginarraytriconsistent _null_ _null_ _null_ ));
 DESCR("GIN array support");
 DATA(insert OID = 3076 (  ginarrayextract	 PGNSP PGUID 12 1 0 0 0 f f f f t f i 2 0 2281 "2277 2281" _null_ _null_ _null_ _null_	ginarrayextract_2args _null_ _null_ _null_ ));
 DESCR("GIN array support (obsolete)");
@ -4334,6 +4336,8 @@ DATA(insert OID = 3657 (  gin_extract_tsquery	PGNSP PGUID 12 1 0 0 0 f f f f t f
 DESCR("GIN tsvector support");
 DATA(insert OID = 3658 (  gin_tsquery_consistent PGNSP PGUID 12 1 0 0 0 f f f f t f i 8 0 16 "2281 21 3615 23 2281 2281 2281 2281" _null_ _null_ _null_ _null_	gin_tsquery_consistent _null_ _null_ _null_ ));
 DESCR("GIN tsvector support");
 DATA(insert OID = 3921 (  gin_tsquery_triconsistent PGNSP PGUID 12 1 0 0 0 f f f f t f i 7 0 16 "2281 21 3615 23 2281 2281 2281" _null_ _null_ _null_ _null_	gin_tsquery_triconsistent _null_ _null_ _null_ ));
 DESCR("GIN tsvector support");
 DATA(insert OID = 3724 (  gin_cmp_tslexeme		PGNSP PGUID 12 1 0 0 0 f f f f t f i 2 0 23 "25 25" _null_ _null_ _null_ _null_ gin_cmp_tslexeme _null_ _null_ _null_ ));
 DESCR("GIN tsvector support");
 DATA(insert OID = 2700 (  gin_cmp_prefix		PGNSP PGUID 12 1 0 0 0 f f f f t f i 4 0 23 "25 25 21 2281" _null_ _null_ _null_ _null_ gin_cmp_prefix _null_ _null_ _null_ ));
--- a/src/include/tsearch/ts_utils.h
+++ b/src/include/tsearch/ts_utils.h
@ -149,6 +149,7 @@ extern Datum gin_cmp_tslexeme(PG_FUNCTION_ARGS);
 extern Datum gin_cmp_prefix(PG_FUNCTION_ARGS);
 extern Datum gin_extract_tsquery(PG_FUNCTION_ARGS);
 extern Datum gin_tsquery_consistent(PG_FUNCTION_ARGS);
 extern Datum gin_tsquery_triconsistent(PG_FUNCTION_ARGS);
 extern Datum gin_extract_tsvector_2args(PG_FUNCTION_ARGS);
 extern Datum gin_extract_tsquery_5args(PG_FUNCTION_ARGS);
 extern Datum gin_tsquery_consistent_6args(PG_FUNCTION_ARGS);
--- a/src/include/utils/builtins.h
+++ b/src/include/utils/builtins.h
@ -1161,6 +1161,7 @@ extern Datum ginarrayextract(PG_FUNCTION_ARGS);
 extern Datum ginarrayextract_2args(PG_FUNCTION_ARGS);
 extern Datum ginqueryarrayextract(PG_FUNCTION_ARGS);
 extern Datum ginarrayconsistent(PG_FUNCTION_ARGS);
 extern Datum ginarraytriconsistent(PG_FUNCTION_ARGS);
 /* access/transam/twophase.c */
 extern Datum pg_prepared_xact(PG_FUNCTION_ARGS);
--- a/src/test/regress/expected/opr_sanity.out
+++ b/src/test/regress/expected/opr_sanity.out
@ -1297,46 +1297,49 @@ WHERE p1.amprocfamily = p3.oid AND p3.opfmethod = p2.oid AND
 -- Detect missing pg_amproc entries: should have as many support functions
 -- as AM expects for each datatype combination supported by the opfamily.
-- btree/GiST/GIN each allow one optional support function, though.
+SELECT * FROM (
-SELECT p1.amname, p2.opfname, p3.amproclefttype, p3.amprocrighttype
+  SELECT p1.amname, p2.opfname, p3.amproclefttype, p3.amprocrighttype,
-FROM pg_am AS p1, pg_opfamily AS p2, pg_amproc AS p3
+         array_agg(p3.amprocnum ORDER BY amprocnum) AS procnums
-WHERE p2.opfmethod = p1.oid AND p3.amprocfamily = p2.oid AND
+  FROM pg_am AS p1, pg_opfamily AS p2, pg_amproc AS p3
-    (SELECT count(*) FROM pg_amproc AS p4
+  WHERE p2.opfmethod = p1.oid AND p3.amprocfamily = p2.oid
-     WHERE p4.amprocfamily = p2.oid AND
+  GROUP BY p1.amname, p2.opfname, p3.amproclefttype, p3.amprocrighttype
-           p4.amproclefttype = p3.amproclefttype AND
+) AS t
-           p4.amprocrighttype = p3.amprocrighttype)
+WHERE NOT (
-    NOT BETWEEN
+  -- btree has one mandatory and one optional support function.
-      (CASE WHEN p1.amname IN ('btree', 'gist', 'gin') THEN p1.amsupport - 1
+  -- hash has one support function, which is mandatory.
-            ELSE p1.amsupport END)
+  -- GiST has eight support functions, one of which is optional.
-      AND p1.amsupport;
+  -- GIN has six support functions. 1-3 are mandatory, 5 is optional, and
- amname | opfname | amproclefttype | amprocrighttype 
+  --   at least one of 4 and 6 must be given.
--------+---------+----------------+-----------------
+  -- SP-GiST has five support functions, all mandatory
  amname = 'btree' AND procnums @> '{1}' OR
  amname = 'hash' AND procnums = '{1}' OR
  amname = 'gist' AND procnums @> '{1, 2, 3, 4, 5, 6, 7}' OR
  amname = 'gin' AND (procnums @> '{1, 2, 3}' AND (procnums && '{4, 6}')) OR
  amname = 'spgist' AND procnums = '{1, 2, 3, 4, 5}'
 );
 amname | opfname | amproclefttype | amprocrighttype | procnums 
 --------+---------+----------------+-----------------+----------
 (0 rows)
 -- Also, check if there are any pg_opclass entries that don't seem to have
-- pg_amproc support.  Again, opclasses with an optional support proc have
+-- pg_amproc support.
-- to be checked specially.
+SELECT * FROM (
-SELECT amname, opcname, count(*)
+  SELECT amname, opcname, array_agg(amprocnum ORDER BY amprocnum) as procnums
-FROM pg_am am JOIN pg_opclass op ON opcmethod = am.oid
+  FROM pg_am am JOIN pg_opclass op ON opcmethod = am.oid
-     LEFT JOIN pg_amproc p ON amprocfamily = opcfamily AND
+       LEFT JOIN pg_amproc p ON amprocfamily = opcfamily AND
-         amproclefttype = amprocrighttype AND amproclefttype = opcintype
+           amproclefttype = amprocrighttype AND amproclefttype = opcintype
-WHERE am.amname <> 'btree' AND am.amname <> 'gist' AND am.amname <> 'gin'
+  GROUP BY amname, opcname, amprocfamily
-GROUP BY amname, amsupport, opcname, amprocfamily
+) AS t
-HAVING count(*) != amsupport OR amprocfamily IS NULL;
+WHERE NOT (
- amname | opcname | count 
+  -- same per-AM rules as above
--------+---------+-------
+  amname = 'btree' AND procnums @> '{1}' OR
-(0 rows)
+  amname = 'hash' AND procnums = '{1}' OR
-
+  amname = 'gist' AND procnums @> '{1, 2, 3, 4, 5, 6, 7}' OR
-SELECT amname, opcname, count(*)
+  amname = 'gin' AND (procnums @> '{1, 2, 3}' AND (procnums && '{4, 6}')) OR
-FROM pg_am am JOIN pg_opclass op ON opcmethod = am.oid
+  amname = 'spgist' AND procnums = '{1, 2, 3, 4, 5}'
-     LEFT JOIN pg_amproc p ON amprocfamily = opcfamily AND
+);
-         amproclefttype = amprocrighttype AND amproclefttype = opcintype
+ amname | opcname | procnums 
-WHERE am.amname = 'btree' OR am.amname = 'gist' OR am.amname = 'gin'
+--------+---------+----------
 GROUP BY amname, amsupport, opcname, amprocfamily
 HAVING (count(*) != amsupport AND count(*) != amsupport - 1)
    OR amprocfamily IS NULL;
 amname | opcname | count 
 --------+---------+-------
 (0 rows)
 -- Unfortunately, we can't check the amproc link very well because the
--- a/src/test/regress/sql/opr_sanity.sql
+++ b/src/test/regress/sql/opr_sanity.sql
@ -992,40 +992,46 @@ WHERE p1.amprocfamily = p3.oid AND p3.opfmethod = p2.oid AND
 -- Detect missing pg_amproc entries: should have as many support functions
 -- as AM expects for each datatype combination supported by the opfamily.
 -- btree/GiST/GIN each allow one optional support function, though.
-SELECT p1.amname, p2.opfname, p3.amproclefttype, p3.amprocrighttype
+SELECT * FROM (
-FROM pg_am AS p1, pg_opfamily AS p2, pg_amproc AS p3
+  SELECT p1.amname, p2.opfname, p3.amproclefttype, p3.amprocrighttype,
-WHERE p2.opfmethod = p1.oid AND p3.amprocfamily = p2.oid AND
+         array_agg(p3.amprocnum ORDER BY amprocnum) AS procnums
-    (SELECT count(*) FROM pg_amproc AS p4
+  FROM pg_am AS p1, pg_opfamily AS p2, pg_amproc AS p3
-     WHERE p4.amprocfamily = p2.oid AND
+  WHERE p2.opfmethod = p1.oid AND p3.amprocfamily = p2.oid
-           p4.amproclefttype = p3.amproclefttype AND
+  GROUP BY p1.amname, p2.opfname, p3.amproclefttype, p3.amprocrighttype
-           p4.amprocrighttype = p3.amprocrighttype)
+) AS t
-    NOT BETWEEN
+WHERE NOT (
-      (CASE WHEN p1.amname IN ('btree', 'gist', 'gin') THEN p1.amsupport - 1
+  -- btree has one mandatory and one optional support function.
-            ELSE p1.amsupport END)
+  -- hash has one support function, which is mandatory.
-      AND p1.amsupport;
+  -- GiST has eight support functions, one of which is optional.
  -- GIN has six support functions. 1-3 are mandatory, 5 is optional, and
  --   at least one of 4 and 6 must be given.
  -- SP-GiST has five support functions, all mandatory
  amname = 'btree' AND procnums @> '{1}' OR
  amname = 'hash' AND procnums = '{1}' OR
  amname = 'gist' AND procnums @> '{1, 2, 3, 4, 5, 6, 7}' OR
  amname = 'gin' AND (procnums @> '{1, 2, 3}' AND (procnums && '{4, 6}')) OR
  amname = 'spgist' AND procnums = '{1, 2, 3, 4, 5}'
 );
 -- Also, check if there are any pg_opclass entries that don't seem to have
-- pg_amproc support.  Again, opclasses with an optional support proc have
+-- pg_amproc support.
 -- to be checked specially.
-SELECT amname, opcname, count(*)
+SELECT * FROM (
-FROM pg_am am JOIN pg_opclass op ON opcmethod = am.oid
+  SELECT amname, opcname, array_agg(amprocnum ORDER BY amprocnum) as procnums
-     LEFT JOIN pg_amproc p ON amprocfamily = opcfamily AND
+  FROM pg_am am JOIN pg_opclass op ON opcmethod = am.oid
-         amproclefttype = amprocrighttype AND amproclefttype = opcintype
+       LEFT JOIN pg_amproc p ON amprocfamily = opcfamily AND
-WHERE am.amname <> 'btree' AND am.amname <> 'gist' AND am.amname <> 'gin'
+           amproclefttype = amprocrighttype AND amproclefttype = opcintype
-GROUP BY amname, amsupport, opcname, amprocfamily
+  GROUP BY amname, opcname, amprocfamily
-HAVING count(*) != amsupport OR amprocfamily IS NULL;
+) AS t
-
+WHERE NOT (
-SELECT amname, opcname, count(*)
+  -- same per-AM rules as above
-FROM pg_am am JOIN pg_opclass op ON opcmethod = am.oid
+  amname = 'btree' AND procnums @> '{1}' OR
-     LEFT JOIN pg_amproc p ON amprocfamily = opcfamily AND
+  amname = 'hash' AND procnums = '{1}' OR
-         amproclefttype = amprocrighttype AND amproclefttype = opcintype
+  amname = 'gist' AND procnums @> '{1, 2, 3, 4, 5, 6, 7}' OR
-WHERE am.amname = 'btree' OR am.amname = 'gist' OR am.amname = 'gin'
+  amname = 'gin' AND (procnums @> '{1, 2, 3}' AND (procnums && '{4, 6}')) OR
-GROUP BY amname, amsupport, opcname, amprocfamily
+  amname = 'spgist' AND procnums = '{1, 2, 3, 4, 5}'
-HAVING (count(*) != amsupport AND count(*) != amsupport - 1)
+);
    OR amprocfamily IS NULL;
 -- Unfortunately, we can't check the amproc link very well because the
 -- signature of the function may be different for different support routines