/*------------------------------------------------------------------------- * * nodeBitmapOr.c * routines to handle BitmapOr nodes. * * Portions Copyright (c) 1996-2020, PostgreSQL Global Development Group * Portions Copyright (c) 1994, Regents of the University of California * * * IDENTIFICATION * src/backend/executor/nodeBitmapOr.c * *------------------------------------------------------------------------- */ /* INTERFACE ROUTINES * ExecInitBitmapOr - initialize the BitmapOr node * MultiExecBitmapOr - retrieve the result bitmap from the node * ExecEndBitmapOr - shut down the BitmapOr node * ExecReScanBitmapOr - rescan the BitmapOr node * * NOTES * BitmapOr nodes don't make use of their left and right * subtrees, rather they maintain a list of subplans, * much like Append nodes. The logic is much simpler than * Append, however, since we needn't cope with forward/backward * execution. */ #include "postgres.h" #include "executor/execdebug.h" #include "executor/nodeBitmapOr.h" #include "miscadmin.h" /* ---------------------------------------------------------------- * ExecBitmapOr * * stub for pro forma compliance * ---------------------------------------------------------------- */ static TupleTableSlot * ExecBitmapOr(PlanState *pstate) { elog(ERROR, "BitmapOr node does not support ExecProcNode call convention"); return NULL; } /* ---------------------------------------------------------------- * ExecInitBitmapOr * * Begin all of the subscans of the BitmapOr node. * ---------------------------------------------------------------- */ BitmapOrState * ExecInitBitmapOr(BitmapOr *node, EState *estate, int eflags) { BitmapOrState *bitmaporstate = makeNode(BitmapOrState); PlanState **bitmapplanstates; int nplans; int i; ListCell *l; Plan *initNode; /* check for unsupported flags */ Assert(!(eflags & (EXEC_FLAG_BACKWARD | EXEC_FLAG_MARK))); /* * Set up empty vector of subplan states */ nplans = list_length(node->bitmapplans); bitmapplanstates = (PlanState **) palloc0(nplans * sizeof(PlanState *)); /* * create new BitmapOrState for our BitmapOr node */ bitmaporstate->ps.plan = (Plan *) node; bitmaporstate->ps.state = estate; bitmaporstate->ps.ExecProcNode = ExecBitmapOr; bitmaporstate->bitmapplans = bitmapplanstates; bitmaporstate->nplans = nplans; /* * call ExecInitNode on each of the plans to be executed and save the * results into the array "bitmapplanstates". */ i = 0; foreach(l, node->bitmapplans) { initNode = (Plan *) lfirst(l); bitmapplanstates[i] = ExecInitNode(initNode, estate, eflags); i++; } /* * Miscellaneous initialization * * BitmapOr plans don't have expression contexts because they never call * ExecQual or ExecProject. They don't need any tuple slots either. */ return bitmaporstate; } /* ---------------------------------------------------------------- * MultiExecBitmapOr * ---------------------------------------------------------------- */ Node * MultiExecBitmapOr(BitmapOrState *node) { PlanState **bitmapplans; int nplans; int i; TIDBitmap *result = NULL; /* must provide our own instrumentation support */ if (node->ps.instrument) InstrStartNode(node->ps.instrument); /* * get information from the node */ bitmapplans = node->bitmapplans; nplans = node->nplans; /* * Scan all the subplans and OR their result bitmaps */ for (i = 0; i < nplans; i++) { PlanState *subnode = bitmapplans[i]; TIDBitmap *subresult; /* * We can special-case BitmapIndexScan children to avoid an explicit * tbm_union step for each child: just pass down the current result * bitmap and let the child OR directly into it. */ if (IsA(subnode, BitmapIndexScanState)) { if (result == NULL) /* first subplan */ { /* XXX should we use less than work_mem for this? */ result = tbm_create(work_mem * 1024L, ((BitmapOr *) node->ps.plan)->isshared ? node->ps.state->es_query_dsa : NULL); } ((BitmapIndexScanState *) subnode)->biss_result = result; subresult = (TIDBitmap *) MultiExecProcNode(subnode); if (subresult != result) elog(ERROR, "unrecognized result from subplan"); } else { /* standard implementation */ subresult = (TIDBitmap *) MultiExecProcNode(subnode); if (!subresult || !IsA(subresult, TIDBitmap)) elog(ERROR, "unrecognized result from subplan"); if (result == NULL) result = subresult; /* first subplan */ else { tbm_union(result, subresult); tbm_free(subresult); } } } /* We could return an empty result set here? */ if (result == NULL) elog(ERROR, "BitmapOr doesn't support zero inputs"); /* must provide our own instrumentation support */ if (node->ps.instrument) InstrStopNode(node->ps.instrument, 0 /* XXX */ ); return (Node *) result; } /* ---------------------------------------------------------------- * ExecEndBitmapOr * * Shuts down the subscans of the BitmapOr node. * * Returns nothing of interest. * ---------------------------------------------------------------- */ void ExecEndBitmapOr(BitmapOrState *node) { PlanState **bitmapplans; int nplans; int i; /* * get information from the node */ bitmapplans = node->bitmapplans; nplans = node->nplans; /* * shut down each of the subscans (that we've initialized) */ for (i = 0; i < nplans; i++) { if (bitmapplans[i]) ExecEndNode(bitmapplans[i]); } } void ExecReScanBitmapOr(BitmapOrState *node) { int i; for (i = 0; i < node->nplans; i++) { PlanState *subnode = node->bitmapplans[i]; /* * ExecReScan doesn't know about my subplans, so I have to do * changed-parameter signaling myself. */ if (node->ps.chgParam != NULL) UpdateChangedParamSet(subnode, node->ps.chgParam); /* * If chgParam of subnode is not null then plan will be re-scanned by * first ExecProcNode. */ if (subnode->chgParam == NULL) ExecReScan(subnode); } }