/*------------------------------------------------------------------------- * * istrat.c * index scan strategy manipulation code and index strategy manipulation * operator code. * * Portions Copyright (c) 1996-2001, PostgreSQL Global Development Group * Portions Copyright (c) 1994, Regents of the University of California * * * IDENTIFICATION * $Header: /cvsroot/pgsql/src/backend/access/index/Attic/istrat.c,v 1.49 2001/03/22 03:59:13 momjian Exp $ * *------------------------------------------------------------------------- */ #include "postgres.h" #include "access/heapam.h" #include "access/istrat.h" #include "catalog/catname.h" #include "catalog/pg_amop.h" #include "catalog/pg_amproc.h" #include "catalog/pg_index.h" #include "catalog/pg_operator.h" #include "miscadmin.h" #include "utils/fmgroids.h" #include "utils/syscache.h" #ifdef USE_ASSERT_CHECKING static bool StrategyEvaluationIsValid(StrategyEvaluation evaluation); static bool StrategyExpressionIsValid(StrategyExpression expression, StrategyNumber maxStrategy); static ScanKey StrategyMapGetScanKeyEntry(StrategyMap map, StrategyNumber strategyNumber); static bool StrategyOperatorIsValid(StrategyOperator operator, StrategyNumber maxStrategy); static bool StrategyTermIsValid(StrategyTerm term, StrategyNumber maxStrategy); #endif /* ---------------------------------------------------------------- * misc strategy support routines * ---------------------------------------------------------------- */ /* * StrategyNumberIsValid * StrategyNumberIsInBounds * StrategyMapIsValid * StrategyTransformMapIsValid * IndexStrategyIsValid * * ... are now macros in istrat.h -cim 4/27/91 */ /* * StrategyMapGetScanKeyEntry * Returns a scan key entry of a index strategy mapping member. * * Note: * Assumes that the index strategy mapping is valid. * Assumes that the index strategy number is valid. * Bounds checking should be done outside this routine. */ static ScanKey StrategyMapGetScanKeyEntry(StrategyMap map, StrategyNumber strategyNumber) { Assert(StrategyMapIsValid(map)); Assert(StrategyNumberIsValid(strategyNumber)); return &map->entry[strategyNumber - 1]; } /* * IndexStrategyGetStrategyMap * Returns an index strategy mapping of an index strategy. * * Note: * Assumes that the index strategy is valid. * Assumes that the number of index strategies is valid. * Bounds checking should be done outside this routine. */ StrategyMap IndexStrategyGetStrategyMap(IndexStrategy indexStrategy, StrategyNumber maxStrategyNum, AttrNumber attrNum) { Assert(IndexStrategyIsValid(indexStrategy)); Assert(StrategyNumberIsValid(maxStrategyNum)); Assert(AttributeNumberIsValid(attrNum)); maxStrategyNum = AMStrategies(maxStrategyNum); /* XXX */ return &indexStrategy->strategyMapData[maxStrategyNum * (attrNum - 1)]; } /* * AttributeNumberGetIndexStrategySize * Computes the size of an index strategy. */ Size AttributeNumberGetIndexStrategySize(AttrNumber maxAttributeNumber, StrategyNumber maxStrategyNumber) { maxStrategyNumber = AMStrategies(maxStrategyNumber); /* XXX */ return maxAttributeNumber * maxStrategyNumber * sizeof(ScanKeyData); } #ifdef USE_ASSERT_CHECKING /* * StrategyTransformMapIsValid is now a macro in istrat.h -cim 4/27/91 */ /* ---------------- * StrategyOperatorIsValid * ---------------- */ static bool StrategyOperatorIsValid(StrategyOperator operator, StrategyNumber maxStrategy) { return (bool) (PointerIsValid(operator) && StrategyNumberIsInBounds(operator->strategy, maxStrategy) && !(operator->flags & ~(SK_NEGATE | SK_COMMUTE))); } /* ---------------- * StrategyTermIsValid * ---------------- */ static bool StrategyTermIsValid(StrategyTerm term, StrategyNumber maxStrategy) { Index index; if (!PointerIsValid(term) || term->degree == 0) return false; for (index = 0; index < term->degree; index += 1) { if (!StrategyOperatorIsValid(&term->operatorData[index], maxStrategy)) return false; } return true; } /* ---------------- * StrategyExpressionIsValid * ---------------- */ static bool StrategyExpressionIsValid(StrategyExpression expression, StrategyNumber maxStrategy) { StrategyTerm *termP; if (!PointerIsValid(expression)) return true; if (!StrategyTermIsValid(expression->term[0], maxStrategy)) return false; termP = &expression->term[1]; while (StrategyTermIsValid(*termP, maxStrategy)) termP += 1; return (bool) (!PointerIsValid(*termP)); } /* ---------------- * StrategyEvaluationIsValid * ---------------- */ static bool StrategyEvaluationIsValid(StrategyEvaluation evaluation) { Index index; if (!PointerIsValid(evaluation) || !StrategyNumberIsValid(evaluation->maxStrategy) || !StrategyTransformMapIsValid(evaluation->negateTransform) || !StrategyTransformMapIsValid(evaluation->commuteTransform) || !StrategyTransformMapIsValid(evaluation->negateCommuteTransform)) { return false; } for (index = 0; index < evaluation->maxStrategy; index += 1) { if (!StrategyExpressionIsValid(evaluation->expression[index], evaluation->maxStrategy)) { return false; } } return true; } #endif #ifdef NOT_USED /* ---------------- * StrategyTermEvaluate * ---------------- */ static bool StrategyTermEvaluate(StrategyTerm term, StrategyMap map, Datum left, Datum right) { bool result = false; Index index; StrategyOperator operator; for (index = 0, operator = &term->operatorData[0]; index < term->degree; index += 1, operator += 1) { ScanKey entry; entry = &map->entry[operator->strategy - 1]; Assert(RegProcedureIsValid(entry->sk_procedure)); switch (operator->flags ^ entry->sk_flags) { case 0x0: result = DatumGetBool(FunctionCall2(&entry->sk_func, left, right)); break; case SK_NEGATE: result = !DatumGetBool(FunctionCall2(&entry->sk_func, left, right)); break; case SK_COMMUTE: result = DatumGetBool(FunctionCall2(&entry->sk_func, right, left)); break; case SK_NEGATE | SK_COMMUTE: result = !DatumGetBool(FunctionCall2(&entry->sk_func, right, left)); break; default: elog(ERROR, "StrategyTermEvaluate: impossible case %d", operator->flags ^ entry->sk_flags); } if (!result) return result; } return result; } #endif /* ---------------- * RelationGetStrategy * ---------------- */ StrategyNumber RelationGetStrategy(Relation relation, AttrNumber attributeNumber, StrategyEvaluation evaluation, RegProcedure procedure) { StrategyNumber strategy; StrategyMap strategyMap; ScanKey entry; Index index; int numattrs; Assert(RelationIsValid(relation)); numattrs = RelationGetNumberOfAttributes(relation); Assert(relation->rd_rel->relkind == RELKIND_INDEX); /* XXX use accessor */ Assert(AttributeNumberIsValid(attributeNumber)); Assert((attributeNumber >= 1) && (attributeNumber < 1 + numattrs)); Assert(StrategyEvaluationIsValid(evaluation)); Assert(RegProcedureIsValid(procedure)); strategyMap = IndexStrategyGetStrategyMap(RelationGetIndexStrategy(relation), evaluation->maxStrategy, attributeNumber); /* get a strategy number for the procedure ignoring flags for now */ for (index = 0; index < evaluation->maxStrategy; index += 1) { if (strategyMap->entry[index].sk_procedure == procedure) break; } if (index == evaluation->maxStrategy) return InvalidStrategy; strategy = 1 + index; entry = StrategyMapGetScanKeyEntry(strategyMap, strategy); Assert(!(entry->sk_flags & ~(SK_NEGATE | SK_COMMUTE))); switch (entry->sk_flags & (SK_NEGATE | SK_COMMUTE)) { case 0x0: return strategy; case SK_NEGATE: strategy = evaluation->negateTransform->strategy[strategy - 1]; break; case SK_COMMUTE: strategy = evaluation->commuteTransform->strategy[strategy - 1]; break; case SK_NEGATE | SK_COMMUTE: strategy = evaluation->negateCommuteTransform->strategy[strategy - 1]; break; default: elog(FATAL, "RelationGetStrategy: impossible case %d", entry->sk_flags); } if (!StrategyNumberIsInBounds(strategy, evaluation->maxStrategy)) { if (!StrategyNumberIsValid(strategy)) elog(ERROR, "RelationGetStrategy: corrupted evaluation"); } return strategy; } #ifdef NOT_USED /* ---------------- * RelationInvokeStrategy * ---------------- */ bool /* XXX someday, this may return Datum */ RelationInvokeStrategy(Relation relation, StrategyEvaluation evaluation, AttrNumber attributeNumber, StrategyNumber strategy, Datum left, Datum right) { StrategyNumber newStrategy; StrategyMap strategyMap; ScanKey entry; StrategyTermData termData; int numattrs; Assert(RelationIsValid(relation)); Assert(relation->rd_rel->relkind == RELKIND_INDEX); /* XXX use accessor */ numattrs = RelationGetNumberOfAttributes(relation); Assert(StrategyEvaluationIsValid(evaluation)); Assert(AttributeNumberIsValid(attributeNumber)); Assert((attributeNumber >= 1) && (attributeNumber < 1 + numattrs)); Assert(StrategyNumberIsInBounds(strategy, evaluation->maxStrategy)); termData.degree = 1; strategyMap = IndexStrategyGetStrategyMap(RelationGetIndexStrategy(relation), evaluation->maxStrategy, attributeNumber); entry = StrategyMapGetScanKeyEntry(strategyMap, strategy); if (RegProcedureIsValid(entry->sk_procedure)) { termData.operatorData[0].strategy = strategy; termData.operatorData[0].flags = 0x0; return StrategyTermEvaluate(&termData, strategyMap, left, right); } newStrategy = evaluation->negateTransform->strategy[strategy - 1]; if (newStrategy != strategy && StrategyNumberIsValid(newStrategy)) { entry = StrategyMapGetScanKeyEntry(strategyMap, newStrategy); if (RegProcedureIsValid(entry->sk_procedure)) { termData.operatorData[0].strategy = newStrategy; termData.operatorData[0].flags = SK_NEGATE; return StrategyTermEvaluate(&termData, strategyMap, left, right); } } newStrategy = evaluation->commuteTransform->strategy[strategy - 1]; if (newStrategy != strategy && StrategyNumberIsValid(newStrategy)) { entry = StrategyMapGetScanKeyEntry(strategyMap, newStrategy); if (RegProcedureIsValid(entry->sk_procedure)) { termData.operatorData[0].strategy = newStrategy; termData.operatorData[0].flags = SK_COMMUTE; return StrategyTermEvaluate(&termData, strategyMap, left, right); } } newStrategy = evaluation->negateCommuteTransform->strategy[strategy - 1]; if (newStrategy != strategy && StrategyNumberIsValid(newStrategy)) { entry = StrategyMapGetScanKeyEntry(strategyMap, newStrategy); if (RegProcedureIsValid(entry->sk_procedure)) { termData.operatorData[0].strategy = newStrategy; termData.operatorData[0].flags = SK_NEGATE | SK_COMMUTE; return StrategyTermEvaluate(&termData, strategyMap, left, right); } } if (PointerIsValid(evaluation->expression[strategy - 1])) { StrategyTerm *termP; termP = &evaluation->expression[strategy - 1]->term[0]; while (PointerIsValid(*termP)) { Index index; for (index = 0; index < (*termP)->degree; index += 1) { entry = StrategyMapGetScanKeyEntry(strategyMap, (*termP)->operatorData[index].strategy); if (!RegProcedureIsValid(entry->sk_procedure)) break; } if (index == (*termP)->degree) return StrategyTermEvaluate(*termP, strategyMap, left, right); termP += 1; } } elog(ERROR, "RelationInvokeStrategy: cannot evaluate strategy %d", strategy); /* not reached, just to make compiler happy */ return FALSE; } #endif /* ---------------- * OperatorRelationFillScanKeyEntry * ---------------- */ static void OperatorRelationFillScanKeyEntry(Relation operatorRelation, Oid operatorObjectId, ScanKey entry) { HeapTuple tuple; HeapScanDesc scan = NULL; bool cachesearch = (!IsBootstrapProcessingMode()) && IsCacheInitialized(); if (cachesearch) { tuple = SearchSysCache(OPEROID, ObjectIdGetDatum(operatorObjectId), 0, 0, 0); } else { ScanKeyData scanKeyData; ScanKeyEntryInitialize(&scanKeyData, 0, ObjectIdAttributeNumber, F_OIDEQ, ObjectIdGetDatum(operatorObjectId)); scan = heap_beginscan(operatorRelation, false, SnapshotNow, 1, &scanKeyData); tuple = heap_getnext(scan, 0); } if (!HeapTupleIsValid(tuple)) { if (!cachesearch) heap_endscan(scan); elog(ERROR, "OperatorRelationFillScanKeyEntry: unknown operator %u", operatorObjectId); } entry->sk_flags = 0; entry->sk_procedure = ((Form_pg_operator) GETSTRUCT(tuple))->oprcode; if (cachesearch) ReleaseSysCache(tuple); else heap_endscan(scan); if (!RegProcedureIsValid(entry->sk_procedure)) elog(ERROR, "OperatorRelationFillScanKeyEntry: no procedure for operator %u", operatorObjectId); fmgr_info(entry->sk_procedure, &entry->sk_func); entry->sk_nargs = entry->sk_func.fn_nargs; } /* * IndexSupportInitialize * Initializes an index strategy and associated support procedures. */ void IndexSupportInitialize(IndexStrategy indexStrategy, RegProcedure *indexSupport, bool *isUnique, Oid indexObjectId, Oid accessMethodObjectId, StrategyNumber maxStrategyNumber, StrategyNumber maxSupportNumber, AttrNumber maxAttributeNumber) { Relation relation = NULL; HeapScanDesc scan = NULL; ScanKeyData entry[2]; Relation operatorRelation; HeapTuple tuple; Form_pg_index iform; StrategyMap map; AttrNumber attNumber; int attIndex; Oid operatorClassObjectId[INDEX_MAX_KEYS]; bool cachesearch = (!IsBootstrapProcessingMode()) && IsCacheInitialized(); if (cachesearch) { tuple = SearchSysCache(INDEXRELID, ObjectIdGetDatum(indexObjectId), 0, 0, 0); } else { ScanKeyEntryInitialize(&entry[0], 0, Anum_pg_index_indexrelid, F_OIDEQ, ObjectIdGetDatum(indexObjectId)); relation = heap_openr(IndexRelationName, AccessShareLock); scan = heap_beginscan(relation, false, SnapshotNow, 1, entry); tuple = heap_getnext(scan, 0); } if (!HeapTupleIsValid(tuple)) elog(ERROR, "IndexSupportInitialize: no pg_index entry for index %u", indexObjectId); iform = (Form_pg_index) GETSTRUCT(tuple); *isUnique = iform->indisunique; maxStrategyNumber = AMStrategies(maxStrategyNumber); /* * XXX note that the following assumes the INDEX tuple is well formed * and that the *key and *class are 0 terminated. */ for (attIndex = 0; attIndex < maxAttributeNumber; attIndex++) { if (!OidIsValid(iform->indkey[attIndex])) { if (attIndex == InvalidAttrNumber) elog(ERROR, "IndexSupportInitialize: no pg_index tuple"); break; } operatorClassObjectId[attIndex] = iform->indclass[attIndex]; } if (cachesearch) ReleaseSysCache(tuple); else { heap_endscan(scan); heap_close(relation, AccessShareLock); } /* if support routines exist for this access method, load them */ if (maxSupportNumber > 0) { ScanKeyEntryInitialize(&entry[0], 0, Anum_pg_amproc_amid, F_OIDEQ, ObjectIdGetDatum(accessMethodObjectId)); ScanKeyEntryInitialize(&entry[1], 0, Anum_pg_amproc_amopclaid, F_OIDEQ, 0); relation = heap_openr(AccessMethodProcedureRelationName, AccessShareLock); for (attNumber = 1; attNumber <= maxAttributeNumber; attNumber++) { int16 support; Form_pg_amproc aform; RegProcedure *loc; loc = &indexSupport[((attNumber - 1) * maxSupportNumber)]; for (support = 0; support < maxSupportNumber; ++support) loc[support] = InvalidOid; entry[1].sk_argument = ObjectIdGetDatum(operatorClassObjectId[attNumber - 1]); scan = heap_beginscan(relation, false, SnapshotNow, 2, entry); while (HeapTupleIsValid(tuple = heap_getnext(scan, 0))) { aform = (Form_pg_amproc) GETSTRUCT(tuple); loc[(aform->amprocnum - 1)] = aform->amproc; } heap_endscan(scan); } heap_close(relation, AccessShareLock); } ScanKeyEntryInitialize(&entry[0], 0, Anum_pg_amop_amopid, F_OIDEQ, ObjectIdGetDatum(accessMethodObjectId)); ScanKeyEntryInitialize(&entry[1], 0, Anum_pg_amop_amopclaid, F_OIDEQ, 0); relation = heap_openr(AccessMethodOperatorRelationName, AccessShareLock); operatorRelation = heap_openr(OperatorRelationName, AccessShareLock); for (attNumber = maxAttributeNumber; attNumber > 0; attNumber--) { StrategyNumber strategy; entry[1].sk_argument = ObjectIdGetDatum(operatorClassObjectId[attNumber - 1]); map = IndexStrategyGetStrategyMap(indexStrategy, maxStrategyNumber, attNumber); for (strategy = 1; strategy <= maxStrategyNumber; strategy++) ScanKeyEntrySetIllegal(StrategyMapGetScanKeyEntry(map, strategy)); scan = heap_beginscan(relation, false, SnapshotNow, 2, entry); while (HeapTupleIsValid(tuple = heap_getnext(scan, 0))) { Form_pg_amop aform; aform = (Form_pg_amop) GETSTRUCT(tuple); OperatorRelationFillScanKeyEntry(operatorRelation, aform->amopopr, StrategyMapGetScanKeyEntry(map, aform->amopstrategy)); } heap_endscan(scan); } heap_close(operatorRelation, AccessShareLock); heap_close(relation, AccessShareLock); } /* ---------------- * IndexStrategyDisplay * ---------------- */ #ifdef ISTRATDEBUG int IndexStrategyDisplay(IndexStrategy indexStrategy, StrategyNumber numberOfStrategies, int numberOfAttributes) { StrategyMap strategyMap; AttrNumber attributeNumber; StrategyNumber strategyNumber; for (attributeNumber = 1; attributeNumber <= numberOfAttributes; attributeNumber += 1) { strategyMap = IndexStrategyGetStrategyMap(indexStrategy, numberOfStrategies, attributeNumber); for (strategyNumber = 1; strategyNumber <= AMStrategies(numberOfStrategies); strategyNumber += 1) { printf(":att %d\t:str %d\t:opr 0x%x(%d)\n", attributeNumber, strategyNumber, strategyMap->entry[strategyNumber - 1].sk_procedure, strategyMap->entry[strategyNumber - 1].sk_procedure); } } } #endif /* defined(ISTRATDEBUG) */