/*------------------------------------------------------------------------- * * nodeResult.c * support for constant nodes needing special code. * * DESCRIPTION * * Result nodes are used in queries where no relations are scanned. * Examples of such queries are: * * retrieve (x = 1) * and * append emp (name = "mike", salary = 15000) * * Result nodes are also used to optimise queries with constant * qualifications (ie, quals that do not depend on the scanned data), * such as: * * retrieve (emp.all) where 2 > 1 * * In this case, the plan generated is * * Result (with 2 > 1 qual) * / * SeqScan (emp.all) * * At runtime, the Result node evaluates the constant qual once. * If it's false, we can return an empty result set without running * the controlled plan at all. If it's true, we run the controlled * plan normally and pass back the results. * * * Portions Copyright (c) 1996-2000, PostgreSQL, Inc * Portions Copyright (c) 1994, Regents of the University of California * * IDENTIFICATION * $Header: /cvsroot/pgsql/src/backend/executor/nodeResult.c,v 1.15 2000/07/17 03:04:53 tgl Exp $ * *------------------------------------------------------------------------- */ #include "postgres.h" #include "executor/executor.h" #include "executor/nodeResult.h" #include "utils/memutils.h" /* ---------------------------------------------------------------- * ExecResult(node) * * returns the tuples from the outer plan which satisfy the * qualification clause. Since result nodes with right * subtrees are never planned, we ignore the right subtree * entirely (for now).. -cim 10/7/89 * * The qualification containing only constant clauses are * checked first before any processing is done. It always returns * 'nil' if the constant qualification is not satisfied. * ---------------------------------------------------------------- */ TupleTableSlot * ExecResult(Result *node) { ResultState *resstate; TupleTableSlot *outerTupleSlot; TupleTableSlot *resultSlot; Plan *outerPlan; ExprContext *econtext; bool isDone; ProjectionInfo *projInfo; /* ---------------- * initialize the result node's state * ---------------- */ resstate = node->resstate; econtext = resstate->cstate.cs_ExprContext; /* ---------------- * Reset per-tuple memory context to free any expression evaluation * storage allocated in the previous tuple cycle. * ---------------- */ ResetExprContext(econtext); /* ---------------- * check constant qualifications like (2 > 1), if not already done * ---------------- */ if (resstate->rs_checkqual) { bool qualResult = ExecQual((List *) node->resconstantqual, econtext, false); resstate->rs_checkqual = false; if (qualResult == false) { resstate->rs_done = true; return NULL; } } /* ---------------- * Check to see if we're still projecting out tuples from a previous * scan tuple (because there is a function-returning-set in the * projection expressions). If so, try to project another one. * ---------------- */ if (resstate->cstate.cs_TupFromTlist) { resultSlot = ExecProject(resstate->cstate.cs_ProjInfo, &isDone); if (!isDone) return resultSlot; /* Done with that source tuple... */ resstate->cstate.cs_TupFromTlist = false; } /* ---------------- * if rs_done is true then it means that we were asked to return * a constant tuple and we already did the last time ExecResult() * was called, OR that we failed the constant qual check. * Either way, now we are through. * ---------------- */ if (!resstate->rs_done) { outerPlan = outerPlan(node); if (outerPlan != NULL) { /* ---------------- * retrieve tuples from the outer plan until there are no more. * ---------------- */ outerTupleSlot = ExecProcNode(outerPlan, (Plan *) node); if (TupIsNull(outerTupleSlot)) return NULL; resstate->cstate.cs_OuterTupleSlot = outerTupleSlot; /* ---------------- * XXX gross hack. use outer tuple as scan tuple for projection * ---------------- */ econtext->ecxt_outertuple = outerTupleSlot; econtext->ecxt_scantuple = outerTupleSlot; } else { /* ---------------- * if we don't have an outer plan, then we are just generating * the results from a constant target list. Do it only once. * ---------------- */ resstate->rs_done = true; } /* ---------------- * form the result tuple using ExecProject(), and return it. * ---------------- */ projInfo = resstate->cstate.cs_ProjInfo; resultSlot = ExecProject(projInfo, &isDone); resstate->cstate.cs_TupFromTlist = !isDone; return resultSlot; } return NULL; } /* ---------------------------------------------------------------- * ExecInitResult * * Creates the run-time state information for the result node * produced by the planner and initailizes outer relations * (child nodes). * ---------------------------------------------------------------- */ bool ExecInitResult(Result *node, EState *estate, Plan *parent) { ResultState *resstate; /* ---------------- * assign execution state to node * ---------------- */ node->plan.state = estate; /* ---------------- * create new ResultState for node * ---------------- */ resstate = makeNode(ResultState); resstate->rs_done = false; resstate->rs_checkqual = (node->resconstantqual == NULL) ? false : true; node->resstate = resstate; /* ---------------- * Miscellaneous initialization * * + create expression context for node * ---------------- */ ExecAssignExprContext(estate, &resstate->cstate); #define RESULT_NSLOTS 1 /* ---------------- * tuple table initialization * ---------------- */ ExecInitResultTupleSlot(estate, &resstate->cstate); /* ---------------- * then initialize children * ---------------- */ ExecInitNode(outerPlan(node), estate, (Plan *) node); /* * we don't use inner plan */ Assert(innerPlan(node) == NULL); /* ---------------- * initialize tuple type and projection info * ---------------- */ ExecAssignResultTypeFromTL((Plan *) node, &resstate->cstate); ExecAssignProjectionInfo((Plan *) node, &resstate->cstate); return TRUE; } int ExecCountSlotsResult(Result *node) { return ExecCountSlotsNode(outerPlan(node)) + RESULT_NSLOTS; } /* ---------------------------------------------------------------- * ExecEndResult * * frees up storage allocated through C routines * ---------------------------------------------------------------- */ void ExecEndResult(Result *node) { ResultState *resstate; resstate = node->resstate; /* ---------------- * Free the projection info * * Note: we don't ExecFreeResultType(resstate) * because the rule manager depends on the tupType * returned by ExecMain(). So for now, this * is freed at end-transaction time. -cim 6/2/91 * ---------------- */ ExecFreeProjectionInfo(&resstate->cstate); ExecFreeExprContext(&resstate->cstate); /* ---------------- * shut down subplans * ---------------- */ ExecEndNode(outerPlan(node), (Plan *) node); /* ---------------- * clean out the tuple table * ---------------- */ ExecClearTuple(resstate->cstate.cs_ResultTupleSlot); pfree(resstate); node->resstate = NULL; /* XXX - new for us - er1p */ } void ExecReScanResult(Result *node, ExprContext *exprCtxt, Plan *parent) { ResultState *resstate = node->resstate; resstate->rs_done = false; resstate->cstate.cs_TupFromTlist = false; resstate->rs_checkqual = (node->resconstantqual == NULL) ? false : true; /* * if chgParam of subnode is not null then plan will be re-scanned by * first ExecProcNode. */ if (((Plan *) node)->lefttree && ((Plan *) node)->lefttree->chgParam == NULL) ExecReScan(((Plan *) node)->lefttree, exprCtxt, (Plan *) node); }