/*-------------------------------------------------------------------------
*
* nodeSubplan.c
- * routines to support subselects
+ * routines to support sub-selects appearing in expressions
*
- * Portions Copyright (c) 1996-2007, PostgreSQL Global Development Group
+ * This module is concerned with executing SubPlan expression nodes, which
+ * should not be confused with sub-SELECTs appearing in FROM. SubPlans are
+ * divided into "initplans", which are those that need only one evaluation per
+ * query (among other restrictions, this requires that they don't use any
+ * direct correlation variables from the parent plan level), and "regular"
+ * subplans, which are re-evaluated every time their result is required.
+ *
+ *
+ * Portions Copyright (c) 1996-2019, PostgreSQL Global Development Group
* Portions Copyright (c) 1994, Regents of the University of California
*
* IDENTIFICATION
- * $PostgreSQL: pgsql/src/backend/executor/nodeSubplan.c,v 1.89 2007/05/17 19:35:08 tgl Exp $
+ * src/backend/executor/nodeSubplan.c
*
*-------------------------------------------------------------------------
*/
*/
#include "postgres.h"
+#include <limits.h>
#include <math.h>
-#include "access/heapam.h"
+#include "access/htup_details.h"
#include "executor/executor.h"
#include "executor/nodeSubplan.h"
#include "nodes/makefuncs.h"
-#include "optimizer/clauses.h"
+#include "nodes/nodeFuncs.h"
+#include "miscadmin.h"
#include "utils/array.h"
#include "utils/lsyscache.h"
#include "utils/memutils.h"
ExprContext *econtext,
bool *isNull);
static void buildSubPlanHash(SubPlanState *node, ExprContext *econtext);
-static bool findPartialMatch(TupleHashTable hashtable, TupleTableSlot *slot);
+static bool findPartialMatch(TupleHashTable hashtable, TupleTableSlot *slot,
+ FmgrInfo *eqfunctions);
static bool slotAllNulls(TupleTableSlot *slot);
static bool slotNoNulls(TupleTableSlot *slot);
/* ----------------------------------------------------------------
* ExecSubPlan
+ *
+ * This is the main entry point for execution of a regular SubPlan.
* ----------------------------------------------------------------
*/
Datum
ExecSubPlan(SubPlanState *node,
ExprContext *econtext,
- bool *isNull,
- ExprDoneCond *isDone)
+ bool *isNull)
{
- SubPlan *subplan = (SubPlan *) node->xprstate.expr;
+ SubPlan *subplan = node->subplan;
+ EState *estate = node->planstate->state;
+ ScanDirection dir = estate->es_direction;
+ Datum retval;
- /* Set default values for result flags: non-null, not a set result */
+ CHECK_FOR_INTERRUPTS();
+
+ /* Set non-null as default */
*isNull = false;
- if (isDone)
- *isDone = ExprSingleResult;
- if (subplan->setParam != NIL)
+ /* Sanity checks */
+ if (subplan->subLinkType == CTE_SUBLINK)
+ elog(ERROR, "CTE subplans should not be executed via ExecSubPlan");
+ if (subplan->setParam != NIL && subplan->subLinkType != MULTIEXPR_SUBLINK)
elog(ERROR, "cannot set parent params from subquery");
+ /* Force forward-scan mode for evaluation */
+ estate->es_direction = ForwardScanDirection;
+
+ /* Select appropriate evaluation strategy */
if (subplan->useHashTable)
- return ExecHashSubPlan(node, econtext, isNull);
+ retval = ExecHashSubPlan(node, econtext, isNull);
else
- return ExecScanSubPlan(node, econtext, isNull);
+ retval = ExecScanSubPlan(node, econtext, isNull);
+
+ /* restore scan direction */
+ estate->es_direction = dir;
+
+ return retval;
}
/*
ExprContext *econtext,
bool *isNull)
{
- SubPlan *subplan = (SubPlan *) node->xprstate.expr;
+ SubPlan *subplan = node->subplan;
PlanState *planstate = node->planstate;
- ExprContext *innerecontext = node->innerecontext;
TupleTableSlot *slot;
/* Shouldn't have any direct correlation Vars */
* have to set the econtext to use (hack alert!).
*/
node->projLeft->pi_exprContext = econtext;
- slot = ExecProject(node->projLeft, NULL);
+ slot = ExecProject(node->projLeft);
/*
* Note: because we are typically called in a per-tuple context, we have
* it still needs to free the tuple.
*/
- /*
- * Since the hashtable routines will use innerecontext's per-tuple memory
- * as working memory, be sure to reset it for each tuple.
- */
- ResetExprContext(innerecontext);
-
/*
* If the LHS is all non-null, probe for an exact match in the main hash
* table. If we find one, the result is TRUE. Otherwise, scan the
if (node->havehashrows &&
FindTupleHashEntry(node->hashtable,
slot,
- node->cur_eq_funcs,
+ node->cur_eq_comp,
node->lhs_hash_funcs) != NULL)
{
ExecClearTuple(slot);
return BoolGetDatum(true);
}
if (node->havenullrows &&
- findPartialMatch(node->hashnulls, slot))
+ findPartialMatch(node->hashnulls, slot, node->cur_eq_funcs))
{
ExecClearTuple(slot);
*isNull = true;
}
/* Scan partly-null table first, since more likely to get a match */
if (node->havenullrows &&
- findPartialMatch(node->hashnulls, slot))
+ findPartialMatch(node->hashnulls, slot, node->cur_eq_funcs))
{
ExecClearTuple(slot);
*isNull = true;
return BoolGetDatum(false);
}
if (node->havehashrows &&
- findPartialMatch(node->hashtable, slot))
+ findPartialMatch(node->hashtable, slot, node->cur_eq_funcs))
{
ExecClearTuple(slot);
*isNull = true;
ExprContext *econtext,
bool *isNull)
{
- SubPlan *subplan = (SubPlan *) node->xprstate.expr;
+ SubPlan *subplan = node->subplan;
PlanState *planstate = node->planstate;
SubLinkType subLinkType = subplan->subLinkType;
MemoryContext oldcontext;
TupleTableSlot *slot;
Datum result;
- bool found = false; /* TRUE if got at least one subplan tuple */
+ bool found = false; /* true if got at least one subplan tuple */
ListCell *pvar;
ListCell *l;
- ArrayBuildState *astate = NULL;
+ ArrayBuildStateAny *astate = NULL;
+
+ /*
+ * MULTIEXPR subplans, when "executed", just return NULL; but first we
+ * mark the subplan's output parameters as needing recalculation. (This
+ * is a bit of a hack: it relies on the subplan appearing later in its
+ * targetlist than any of the referencing Params, so that all the Params
+ * have been evaluated before we re-mark them for the next evaluation
+ * cycle. But in general resjunk tlist items appear after non-resjunk
+ * ones, so this should be safe.) Unlike ExecReScanSetParamPlan, we do
+ * *not* set bits in the parent plan node's chgParam, because we don't
+ * want to cause a rescan of the parent.
+ */
+ if (subLinkType == MULTIEXPR_SUBLINK)
+ {
+ EState *estate = node->parent->state;
+
+ foreach(l, subplan->setParam)
+ {
+ int paramid = lfirst_int(l);
+ ParamExecData *prm = &(estate->es_param_exec_vals[paramid]);
+
+ prm->execPlan = node;
+ }
+ *isNull = true;
+ return (Datum) 0;
+ }
+
+ /* Initialize ArrayBuildStateAny in caller's context, if needed */
+ if (subLinkType == ARRAY_SUBLINK)
+ astate = initArrayResultAny(subplan->firstColType,
+ CurrentMemoryContext, true);
/*
* We are probably in a short-lived expression-evaluation context. Switch
prm->value = ExecEvalExprSwitchContext((ExprState *) lfirst(pvar),
econtext,
- &(prm->isnull),
- NULL);
+ &(prm->isnull));
planstate->chgParam = bms_add_member(planstate->chgParam, paramid);
}
/*
* Now that we've set up its parameters, we can reset the subplan.
*/
- ExecReScan(planstate, NULL);
+ ExecReScan(planstate);
/*
* For all sublink types except EXPR_SUBLINK and ARRAY_SUBLINK, the result
* semantics for ANY_SUBLINK or AND semantics for ALL_SUBLINK.
* (ROWCOMPARE_SUBLINK doesn't allow multiple tuples from the subplan.)
* NULL results from the combining operators are handled according to the
- * usual SQL semantics for OR and AND. The result for no input tuples is
+ * usual SQL semantics for OR and AND. The result for no input tuples is
* FALSE for ANY_SUBLINK, TRUE for ALL_SUBLINK, NULL for
* ROWCOMPARE_SUBLINK.
*
* For EXPR_SUBLINK we require the subplan to produce no more than one
- * tuple, else an error is raised. For ARRAY_SUBLINK we allow the subplan
- * to produce more than one tuple. In either case, if zero tuples are
- * produced, we return NULL. Assuming we get a tuple, we just use its
- * first column (there can be only one non-junk column in this case).
+ * tuple, else an error is raised. If zero tuples are produced, we return
+ * NULL. Assuming we get a tuple, we just use its first column (there can
+ * be only one non-junk column in this case).
+ *
+ * For ARRAY_SUBLINK we allow the subplan to produce any number of tuples,
+ * and form an array of the first column's values. Note in particular
+ * that we produce a zero-element array if no tuples are produced (this is
+ * a change from pre-8.3 behavior of returning NULL).
*/
result = BoolGetDatum(subLinkType == ALL_SUBLINK);
*isNull = false;
*/
if (node->curTuple)
heap_freetuple(node->curTuple);
- node->curTuple = ExecCopySlotTuple(slot);
+ node->curTuple = ExecCopySlotHeapTuple(slot);
result = heap_getattr(node->curTuple, 1, tdesc, isNull);
/* keep scanning subplan to make sure there's only one tuple */
found = true;
/* stash away current value */
+ Assert(subplan->firstColType == TupleDescAttr(tdesc, 0)->atttypid);
dvalue = slot_getattr(slot, 1, &disnull);
- astate = accumArrayResult(astate, dvalue, disnull,
- tdesc->attrs[0]->atttypid,
- oldcontext);
+ astate = accumArrayResultAny(astate, dvalue, disnull,
+ subplan->firstColType, oldcontext);
/* keep scanning subplan to collect all values */
continue;
}
}
rowresult = ExecEvalExprSwitchContext(node->testexpr, econtext,
- &rownull, NULL);
+ &rownull);
if (subLinkType == ANY_SUBLINK)
{
}
}
- if (!found)
+ MemoryContextSwitchTo(oldcontext);
+
+ if (subLinkType == ARRAY_SUBLINK)
+ {
+ /* We return the result in the caller's context */
+ result = makeArrayResultAny(astate, oldcontext, true);
+ }
+ else if (!found)
{
/*
- * deal with empty subplan result. result/isNull were previously
- * initialized correctly for all sublink types except EXPR, ARRAY, and
+ * deal with empty subplan result. result/isNull were previously
+ * initialized correctly for all sublink types except EXPR and
* ROWCOMPARE; for those, return NULL.
*/
if (subLinkType == EXPR_SUBLINK ||
- subLinkType == ARRAY_SUBLINK ||
subLinkType == ROWCOMPARE_SUBLINK)
{
result = (Datum) 0;
*isNull = true;
}
}
- else if (subLinkType == ARRAY_SUBLINK)
- {
- Assert(astate != NULL);
- /* We return the result in the caller's context */
- result = makeArrayResult(astate, oldcontext);
- }
-
- MemoryContextSwitchTo(oldcontext);
return result;
}
static void
buildSubPlanHash(SubPlanState *node, ExprContext *econtext)
{
- SubPlan *subplan = (SubPlan *) node->xprstate.expr;
+ SubPlan *subplan = node->subplan;
PlanState *planstate = node->planstate;
int ncols = list_length(subplan->paramIds);
ExprContext *innerecontext = node->innerecontext;
- MemoryContext tempcxt = innerecontext->ecxt_per_tuple_memory;
MemoryContext oldcontext;
- int nbuckets;
+ long nbuckets;
TupleTableSlot *slot;
Assert(subplan->subLinkType == ANY_SUBLINK);
* If it's not necessary to distinguish FALSE and UNKNOWN, then we don't
* need to store subplan output rows that contain NULL.
*/
- MemoryContextReset(node->tablecxt);
+ MemoryContextReset(node->hashtablecxt);
node->hashtable = NULL;
node->hashnulls = NULL;
node->havehashrows = false;
node->havenullrows = false;
- nbuckets = (int) ceil(planstate->plan->plan_rows);
+ nbuckets = (long) Min(planstate->plan->plan_rows, (double) LONG_MAX);
if (nbuckets < 1)
nbuckets = 1;
- node->hashtable = BuildTupleHashTable(ncols,
+ node->hashtable = BuildTupleHashTable(node->parent,
+ node->descRight,
+ ncols,
node->keyColIdx,
- node->tab_eq_funcs,
+ node->tab_eq_funcoids,
node->tab_hash_funcs,
nbuckets,
- sizeof(TupleHashEntryData),
- node->tablecxt,
- tempcxt);
+ 0,
+ node->hashtablecxt,
+ node->hashtempcxt,
+ false);
if (!subplan->unknownEqFalse)
{
if (nbuckets < 1)
nbuckets = 1;
}
- node->hashnulls = BuildTupleHashTable(ncols,
+ node->hashnulls = BuildTupleHashTable(node->parent,
+ node->descRight,
+ ncols,
node->keyColIdx,
- node->tab_eq_funcs,
+ node->tab_eq_funcoids,
node->tab_hash_funcs,
nbuckets,
- sizeof(TupleHashEntryData),
- node->tablecxt,
- tempcxt);
+ 0,
+ node->hashtablecxt,
+ node->hashtempcxt,
+ false);
}
/*
/*
* Reset subplan to start.
*/
- ExecReScan(planstate, NULL);
+ ExecReScan(planstate);
/*
* Scan the subplan and load the hash table(s). Note that when there are
&(prmdata->isnull));
col++;
}
- slot = ExecProject(node->projRight, NULL);
+ slot = ExecProject(node->projRight);
/*
* If result contains any nulls, store separately or not at all.
/*
* Reset innerecontext after each inner tuple to free any memory used
- * in hash computation or comparison routines.
+ * during ExecProject.
*/
ResetExprContext(innerecontext);
}
* potential for a double free attempt. (XXX possibly no longer needed,
* but can't hurt.)
*/
- ExecClearTuple(node->projRight->pi_slot);
+ ExecClearTuple(node->projRight->pi_state.resultslot);
MemoryContextSwitchTo(oldcontext);
}
+/*
+ * execTuplesUnequal
+ * Return true if two tuples are definitely unequal in the indicated
+ * fields.
+ *
+ * Nulls are neither equal nor unequal to anything else. A true result
+ * is obtained only if there are non-null fields that compare not-equal.
+ *
+ * slot1, slot2: the tuples to compare (must have same columns!)
+ * numCols: the number of attributes to be examined
+ * matchColIdx: array of attribute column numbers
+ * eqFunctions: array of fmgr lookup info for the equality functions to use
+ * evalContext: short-term memory context for executing the functions
+ */
+static bool
+execTuplesUnequal(TupleTableSlot *slot1,
+ TupleTableSlot *slot2,
+ int numCols,
+ AttrNumber *matchColIdx,
+ FmgrInfo *eqfunctions,
+ MemoryContext evalContext)
+{
+ MemoryContext oldContext;
+ bool result;
+ int i;
+
+ /* Reset and switch into the temp context. */
+ MemoryContextReset(evalContext);
+ oldContext = MemoryContextSwitchTo(evalContext);
+
+ /*
+ * We cannot report a match without checking all the fields, but we can
+ * report a non-match as soon as we find unequal fields. So, start
+ * comparing at the last field (least significant sort key). That's the
+ * most likely to be different if we are dealing with sorted input.
+ */
+ result = false;
+
+ for (i = numCols; --i >= 0;)
+ {
+ AttrNumber att = matchColIdx[i];
+ Datum attr1,
+ attr2;
+ bool isNull1,
+ isNull2;
+
+ attr1 = slot_getattr(slot1, att, &isNull1);
+
+ if (isNull1)
+ continue; /* can't prove anything here */
+
+ attr2 = slot_getattr(slot2, att, &isNull2);
+
+ if (isNull2)
+ continue; /* can't prove anything here */
+
+ /* Apply the type-specific equality function */
+
+ if (!DatumGetBool(FunctionCall2(&eqfunctions[i],
+ attr1, attr2)))
+ {
+ result = true; /* they are unequal */
+ break;
+ }
+ }
+
+ MemoryContextSwitchTo(oldContext);
+
+ return result;
+}
+
/*
* findPartialMatch: does the hashtable contain an entry that is not
* provably distinct from the tuple?
* We have to scan the whole hashtable; we can't usefully use hashkeys
* to guide probing, since we might get partial matches on tuples with
* hashkeys quite unrelated to what we'd get from the given tuple.
+ *
+ * Caller must provide the equality functions to use, since in cross-type
+ * cases these are different from the hashtable's internal functions.
*/
static bool
-findPartialMatch(TupleHashTable hashtable, TupleTableSlot *slot)
+findPartialMatch(TupleHashTable hashtable, TupleTableSlot *slot,
+ FmgrInfo *eqfunctions)
{
int numCols = hashtable->numCols;
AttrNumber *keyColIdx = hashtable->keyColIdx;
TupleHashEntry entry;
InitTupleHashIterator(hashtable, &hashiter);
- while ((entry = ScanTupleHashTable(&hashiter)) != NULL)
+ while ((entry = ScanTupleHashTable(hashtable, &hashiter)) != NULL)
{
+ CHECK_FOR_INTERRUPTS();
+
ExecStoreMinimalTuple(entry->firstTuple, hashtable->tableslot, false);
if (!execTuplesUnequal(slot, hashtable->tableslot,
numCols, keyColIdx,
- hashtable->cur_eq_funcs,
+ eqfunctions,
hashtable->tempcxt))
{
TermTupleHashIterator(&hashiter);
SubPlanState *sstate = makeNode(SubPlanState);
EState *estate = parent->state;
- sstate->xprstate.evalfunc = (ExprStateEvalFunc) ExecSubPlan;
- sstate->xprstate.expr = (Expr *) subplan;
+ sstate->subplan = subplan;
/* Link the SubPlanState to already-initialized subplan */
sstate->planstate = (PlanState *) list_nth(estate->es_subplanstates,
subplan->plan_id - 1);
+ /* ... and to its parent's state */
+ sstate->parent = parent;
+
/* Initialize subexpressions */
sstate->testexpr = ExecInitExpr((Expr *) subplan->testexpr, parent);
- sstate->args = (List *) ExecInitExpr((Expr *) subplan->args, parent);
+ sstate->args = ExecInitExprList(subplan->args, parent);
/*
* initialize my state
*/
sstate->curTuple = NULL;
+ sstate->curArray = PointerGetDatum(NULL);
sstate->projLeft = NULL;
sstate->projRight = NULL;
sstate->hashtable = NULL;
sstate->hashnulls = NULL;
- sstate->tablecxt = NULL;
+ sstate->hashtablecxt = NULL;
+ sstate->hashtempcxt = NULL;
sstate->innerecontext = NULL;
sstate->keyColIdx = NULL;
+ sstate->tab_eq_funcoids = NULL;
sstate->tab_hash_funcs = NULL;
sstate->tab_eq_funcs = NULL;
sstate->lhs_hash_funcs = NULL;
sstate->cur_eq_funcs = NULL;
/*
- * If this plan is un-correlated or undirect correlated one and want to
- * set params for parent plan then mark parameters as needing evaluation.
+ * If this is an initplan or MULTIEXPR subplan, it has output parameters
+ * that the parent plan will use, so mark those parameters as needing
+ * evaluation. We don't actually run the subplan until we first need one
+ * of its outputs.
+ *
+ * A CTE subplan's output parameter is never to be evaluated in the normal
+ * way, so skip this in that case.
*
- * Note that in the case of un-correlated subqueries we don't care about
- * setting parent->chgParam here: indices take care about it, for others -
- * it doesn't matter...
+ * Note that we don't set parent->chgParam here: the parent plan hasn't
+ * been run yet, so no need to force it to re-run.
*/
- if (subplan->setParam != NIL)
+ if (subplan->setParam != NIL && subplan->subLinkType != CTE_SUBLINK)
{
ListCell *lst;
{
int ncols,
i;
- TupleDesc tupDesc;
- TupleTable tupTable;
+ TupleDesc tupDescLeft;
+ TupleDesc tupDescRight;
TupleTableSlot *slot;
List *oplist,
*lefttlist,
- *righttlist,
- *leftptlist,
- *rightptlist;
+ *righttlist;
ListCell *l;
/* We need a memory context to hold the hash table(s) */
- sstate->tablecxt =
+ sstate->hashtablecxt =
AllocSetContextCreate(CurrentMemoryContext,
"Subplan HashTable Context",
- ALLOCSET_DEFAULT_MINSIZE,
- ALLOCSET_DEFAULT_INITSIZE,
- ALLOCSET_DEFAULT_MAXSIZE);
+ ALLOCSET_DEFAULT_SIZES);
+ /* and a small one for the hash tables to use as temp storage */
+ sstate->hashtempcxt =
+ AllocSetContextCreate(CurrentMemoryContext,
+ "Subplan HashTable Temp Context",
+ ALLOCSET_SMALL_SIZES);
/* and a short-lived exprcontext for function evaluation */
sstate->innerecontext = CreateExprContext(estate);
/* Silly little array of column numbers 1..n */
* use the sub-select's output tuples directly, but that is not the
* case if we had to insert any run-time coercions of the sub-select's
* output datatypes; anyway this avoids storing any resjunk columns
- * that might be in the sub-select's output.) Run through the
+ * that might be in the sub-select's output.) Run through the
* combining expressions to build tlists for the lefthand and
- * righthand sides. We need both the ExprState list (for ExecProject)
- * and the underlying parse Exprs (for ExecTypeFromTL).
+ * righthand sides.
*
* We also extract the combining operators themselves to initialize
* the equality and hashing functions for the hash tables.
*/
- if (IsA(sstate->testexpr->expr, OpExpr))
+ if (IsA(subplan->testexpr, OpExpr))
{
/* single combining operator */
- oplist = list_make1(sstate->testexpr);
+ oplist = list_make1(subplan->testexpr);
}
- else if (and_clause((Node *) sstate->testexpr->expr))
+ else if (is_andclause(subplan->testexpr))
{
/* multiple combining operators */
- Assert(IsA(sstate->testexpr, BoolExprState));
- oplist = ((BoolExprState *) sstate->testexpr)->args;
+ oplist = castNode(BoolExpr, subplan->testexpr)->args;
}
else
{
/* shouldn't see anything else in a hashable subplan */
elog(ERROR, "unrecognized testexpr type: %d",
- (int) nodeTag(sstate->testexpr->expr));
+ (int) nodeTag(subplan->testexpr));
oplist = NIL; /* keep compiler quiet */
}
Assert(list_length(oplist) == ncols);
lefttlist = righttlist = NIL;
- leftptlist = rightptlist = NIL;
+ sstate->tab_eq_funcoids = (Oid *) palloc(ncols * sizeof(Oid));
sstate->tab_hash_funcs = (FmgrInfo *) palloc(ncols * sizeof(FmgrInfo));
sstate->tab_eq_funcs = (FmgrInfo *) palloc(ncols * sizeof(FmgrInfo));
sstate->lhs_hash_funcs = (FmgrInfo *) palloc(ncols * sizeof(FmgrInfo));
i = 1;
foreach(l, oplist)
{
- FuncExprState *fstate = (FuncExprState *) lfirst(l);
- OpExpr *opexpr = (OpExpr *) fstate->xprstate.expr;
- ExprState *exstate;
+ OpExpr *opexpr = lfirst_node(OpExpr, l);
Expr *expr;
TargetEntry *tle;
- GenericExprState *tlestate;
Oid rhs_eq_oper;
Oid left_hashfn;
Oid right_hashfn;
- Assert(IsA(fstate, FuncExprState));
- Assert(IsA(opexpr, OpExpr));
- Assert(list_length(fstate->args) == 2);
+ Assert(list_length(opexpr->args) == 2);
/* Process lefthand argument */
- exstate = (ExprState *) linitial(fstate->args);
- expr = exstate->expr;
+ expr = (Expr *) linitial(opexpr->args);
tle = makeTargetEntry(expr,
i,
NULL,
false);
- tlestate = makeNode(GenericExprState);
- tlestate->xprstate.expr = (Expr *) tle;
- tlestate->xprstate.evalfunc = NULL;
- tlestate->arg = exstate;
- lefttlist = lappend(lefttlist, tlestate);
- leftptlist = lappend(leftptlist, tle);
+ lefttlist = lappend(lefttlist, tle);
/* Process righthand argument */
- exstate = (ExprState *) lsecond(fstate->args);
- expr = exstate->expr;
+ expr = (Expr *) lsecond(opexpr->args);
tle = makeTargetEntry(expr,
i,
NULL,
false);
- tlestate = makeNode(GenericExprState);
- tlestate->xprstate.expr = (Expr *) tle;
- tlestate->xprstate.evalfunc = NULL;
- tlestate->arg = exstate;
- righttlist = lappend(righttlist, tlestate);
- rightptlist = lappend(rightptlist, tle);
+ righttlist = lappend(righttlist, tle);
/* Lookup the equality function (potentially cross-type) */
+ sstate->tab_eq_funcoids[i - 1] = opexpr->opfuncid;
fmgr_info(opexpr->opfuncid, &sstate->cur_eq_funcs[i - 1]);
- sstate->cur_eq_funcs[i - 1].fn_expr = (Node *) opexpr;
+ fmgr_info_set_expr((Node *) opexpr, &sstate->cur_eq_funcs[i - 1]);
/* Look up the equality function for the RHS type */
if (!get_compatible_hash_operators(opexpr->opno,
i++;
}
- /*
- * Create a tupletable to hold these tuples. (Note: we never bother
- * to free the tupletable explicitly; that's okay because it will
- * never store raw disk tuples that might have associated buffer pins.
- * The only resource involved is memory, which will be cleaned up by
- * freeing the query context.)
- */
- tupTable = ExecCreateTupleTable(2);
-
/*
* Construct tupdescs, slots and projection nodes for left and right
* sides. The lefthand expressions will be evaluated in the parent
* (hack alert!). The righthand expressions will be evaluated in our
* own innerecontext.
*/
- tupDesc = ExecTypeFromTL(leftptlist, false);
- slot = ExecAllocTableSlot(tupTable);
- ExecSetSlotDescriptor(slot, tupDesc);
+ tupDescLeft = ExecTypeFromTL(lefttlist);
+ slot = ExecInitExtraTupleSlot(estate, tupDescLeft, &TTSOpsVirtual);
sstate->projLeft = ExecBuildProjectionInfo(lefttlist,
- NULL,
- slot,
- NULL);
+ NULL,
+ slot,
+ parent,
+ NULL);
- tupDesc = ExecTypeFromTL(rightptlist, false);
- slot = ExecAllocTableSlot(tupTable);
- ExecSetSlotDescriptor(slot, tupDesc);
+ sstate->descRight = tupDescRight = ExecTypeFromTL(righttlist);
+ slot = ExecInitExtraTupleSlot(estate, tupDescRight, &TTSOpsVirtual);
sstate->projRight = ExecBuildProjectionInfo(righttlist,
- sstate->innerecontext,
- slot,
- NULL);
+ sstate->innerecontext,
+ slot,
+ sstate->planstate,
+ NULL);
+
+ /*
+ * Create comparator for lookups of rows in the table (potentially
+ * across-type comparison).
+ */
+ sstate->cur_eq_comp = ExecBuildGroupingEqual(tupDescLeft, tupDescRight,
+ &TTSOpsVirtual, &TTSOpsMinimalTuple,
+ ncols,
+ sstate->keyColIdx,
+ sstate->tab_eq_funcoids,
+ parent);
+
}
return sstate;
/* ----------------------------------------------------------------
* ExecSetParamPlan
*
- * Executes an InitPlan subplan and sets its output parameters.
+ * Executes a subplan and sets its output parameters.
*
- * This is called from ExecEvalParam() when the value of a PARAM_EXEC
+ * This is called from ExecEvalParamExec() when the value of a PARAM_EXEC
* parameter is requested and the param's execPlan field is set (indicating
- * that the param has not yet been evaluated). This allows lazy evaluation
+ * that the param has not yet been evaluated). This allows lazy evaluation
* of initplans: we don't run the subplan until/unless we need its output.
* Note that this routine MUST clear the execPlan fields of the plan's
* output parameters after evaluating them!
+ *
+ * The results of this function are stored in the EState associated with the
+ * ExprContext (particularly, its ecxt_param_exec_vals); any pass-by-ref
+ * result Datums are allocated in the EState's per-query memory. The passed
+ * econtext can be any ExprContext belonging to that EState; which one is
+ * important only to the extent that the ExprContext's per-tuple memory
+ * context is used to evaluate any parameters passed down to the subplan.
+ * (Thus in principle, the shorter-lived the ExprContext the better, since
+ * that data isn't needed after we return. In practice, because initplan
+ * parameters are never more complex than Vars, Aggrefs, etc, evaluating them
+ * currently never leaks any memory anyway.)
* ----------------------------------------------------------------
*/
void
ExecSetParamPlan(SubPlanState *node, ExprContext *econtext)
{
- SubPlan *subplan = (SubPlan *) node->xprstate.expr;
+ SubPlan *subplan = node->subplan;
PlanState *planstate = node->planstate;
SubLinkType subLinkType = subplan->subLinkType;
+ EState *estate = planstate->state;
+ ScanDirection dir = estate->es_direction;
MemoryContext oldcontext;
TupleTableSlot *slot;
+ ListCell *pvar;
ListCell *l;
bool found = false;
- ArrayBuildState *astate = NULL;
+ ArrayBuildStateAny *astate = NULL;
+
+ if (subLinkType == ANY_SUBLINK ||
+ subLinkType == ALL_SUBLINK)
+ elog(ERROR, "ANY/ALL subselect unsupported as initplan");
+ if (subLinkType == CTE_SUBLINK)
+ elog(ERROR, "CTE subplans should not be executed via ExecSetParamPlan");
+
+ /*
+ * Enforce forward scan direction regardless of caller. It's hard but not
+ * impossible to get here in backward scan, so make it work anyway.
+ */
+ estate->es_direction = ForwardScanDirection;
+
+ /* Initialize ArrayBuildStateAny in caller's context, if needed */
+ if (subLinkType == ARRAY_SUBLINK)
+ astate = initArrayResultAny(subplan->firstColType,
+ CurrentMemoryContext, true);
/*
* Must switch to per-query memory context.
*/
oldcontext = MemoryContextSwitchTo(econtext->ecxt_per_query_memory);
- if (subLinkType == ANY_SUBLINK ||
- subLinkType == ALL_SUBLINK)
- elog(ERROR, "ANY/ALL subselect unsupported as initplan");
-
/*
- * By definition, an initplan has no parameters from our query level,
- * but it could have some from an outer level. Rescan it if needed.
+ * Set Params of this plan from parent plan correlation values. (Any
+ * calculation we have to do is done in the parent econtext, since the
+ * Param values don't need to have per-query lifetime.) Currently, we
+ * expect only MULTIEXPR_SUBLINK plans to have any correlation values.
*/
- if (planstate->chgParam != NULL)
- ExecReScan(planstate, NULL);
+ Assert(subplan->parParam == NIL || subLinkType == MULTIEXPR_SUBLINK);
+ Assert(list_length(subplan->parParam) == list_length(node->args));
+ forboth(l, subplan->parParam, pvar, node->args)
+ {
+ int paramid = lfirst_int(l);
+ ParamExecData *prm = &(econtext->ecxt_param_exec_vals[paramid]);
+
+ prm->value = ExecEvalExprSwitchContext((ExprState *) lfirst(pvar),
+ econtext,
+ &(prm->isnull));
+ planstate->chgParam = bms_add_member(planstate->chgParam, paramid);
+ }
+
+ /*
+ * Run the plan. (If it needs to be rescanned, the first ExecProcNode
+ * call will take care of that.)
+ */
for (slot = ExecProcNode(planstate);
!TupIsNull(slot);
slot = ExecProcNode(planstate))
if (subLinkType == EXISTS_SUBLINK)
{
- /* There can be only one param... */
+ /* There can be only one setParam... */
int paramid = linitial_int(subplan->setParam);
ParamExecData *prm = &(econtext->ecxt_param_exec_vals[paramid]);
found = true;
/* stash away current value */
+ Assert(subplan->firstColType == TupleDescAttr(tdesc, 0)->atttypid);
dvalue = slot_getattr(slot, 1, &disnull);
- astate = accumArrayResult(astate, dvalue, disnull,
- tdesc->attrs[0]->atttypid,
- oldcontext);
+ astate = accumArrayResultAny(astate, dvalue, disnull,
+ subplan->firstColType, oldcontext);
/* keep scanning subplan to collect all values */
continue;
}
if (found &&
(subLinkType == EXPR_SUBLINK ||
+ subLinkType == MULTIEXPR_SUBLINK ||
subLinkType == ROWCOMPARE_SUBLINK))
ereport(ERROR,
(errcode(ERRCODE_CARDINALITY_VIOLATION),
*/
if (node->curTuple)
heap_freetuple(node->curTuple);
- node->curTuple = ExecCopySlotTuple(slot);
+ node->curTuple = ExecCopySlotHeapTuple(slot);
/*
* Now set all the setParam params from the columns of the tuple
}
}
- if (!found)
+ if (subLinkType == ARRAY_SUBLINK)
+ {
+ /* There can be only one setParam... */
+ int paramid = linitial_int(subplan->setParam);
+ ParamExecData *prm = &(econtext->ecxt_param_exec_vals[paramid]);
+
+ /*
+ * We build the result array in query context so it won't disappear;
+ * to avoid leaking memory across repeated calls, we have to remember
+ * the latest value, much as for curTuple above.
+ */
+ if (node->curArray != PointerGetDatum(NULL))
+ pfree(DatumGetPointer(node->curArray));
+ node->curArray = makeArrayResultAny(astate,
+ econtext->ecxt_per_query_memory,
+ true);
+ prm->execPlan = NULL;
+ prm->value = node->curArray;
+ prm->isnull = false;
+ }
+ else if (!found)
{
if (subLinkType == EXISTS_SUBLINK)
{
- /* There can be only one param... */
+ /* There can be only one setParam... */
int paramid = linitial_int(subplan->setParam);
ParamExecData *prm = &(econtext->ecxt_param_exec_vals[paramid]);
}
else
{
+ /* For other sublink types, set all the output params to NULL */
foreach(l, subplan->setParam)
{
int paramid = lfirst_int(l);
}
}
}
- else if (subLinkType == ARRAY_SUBLINK)
+
+ MemoryContextSwitchTo(oldcontext);
+
+ /* restore scan direction */
+ estate->es_direction = dir;
+}
+
+/*
+ * ExecSetParamPlanMulti
+ *
+ * Apply ExecSetParamPlan to evaluate any not-yet-evaluated initplan output
+ * parameters whose ParamIDs are listed in "params". Any listed params that
+ * are not initplan outputs are ignored.
+ *
+ * As with ExecSetParamPlan, any ExprContext belonging to the current EState
+ * can be used, but in principle a shorter-lived ExprContext is better than a
+ * longer-lived one.
+ */
+void
+ExecSetParamPlanMulti(const Bitmapset *params, ExprContext *econtext)
+{
+ int paramid;
+
+ paramid = -1;
+ while ((paramid = bms_next_member(params, paramid)) >= 0)
{
- /* There can be only one param... */
- int paramid = linitial_int(subplan->setParam);
ParamExecData *prm = &(econtext->ecxt_param_exec_vals[paramid]);
- Assert(astate != NULL);
- prm->execPlan = NULL;
- /* We build the result in query context so it won't disappear */
- prm->value = makeArrayResult(astate, econtext->ecxt_per_query_memory);
- prm->isnull = false;
+ if (prm->execPlan != NULL)
+ {
+ /* Parameter not evaluated yet, so go do it */
+ ExecSetParamPlan(prm->execPlan, econtext);
+ /* ExecSetParamPlan should have processed this param... */
+ Assert(prm->execPlan == NULL);
+ }
}
-
- MemoryContextSwitchTo(oldcontext);
}
/*
ExecReScanSetParamPlan(SubPlanState *node, PlanState *parent)
{
PlanState *planstate = node->planstate;
- SubPlan *subplan = (SubPlan *) node->xprstate.expr;
+ SubPlan *subplan = node->subplan;
EState *estate = parent->state;
ListCell *l;
elog(ERROR, "extParam set of initplan is empty");
/*
- * Don't actually re-scan: ExecSetParamPlan does it if needed.
+ * Don't actually re-scan: it'll happen inside ExecSetParamPlan if needed.
*/
/*
- * Mark this subplan's output parameters as needing recalculation
+ * Mark this subplan's output parameters as needing recalculation.
+ *
+ * CTE subplans are never executed via parameter recalculation; instead
+ * they get run when called by nodeCtescan.c. So don't mark the output
+ * parameter of a CTE subplan as dirty, but do set the chgParam bit for it
+ * so that dependent plan nodes will get told to rescan.
*/
foreach(l, subplan->setParam)
{
int paramid = lfirst_int(l);
ParamExecData *prm = &(estate->es_param_exec_vals[paramid]);
- prm->execPlan = node;
+ if (subplan->subLinkType != CTE_SUBLINK)
+ prm->execPlan = node;
+
parent->chgParam = bms_add_member(parent->chgParam, paramid);
}
}
+
+
+/*
+ * ExecInitAlternativeSubPlan
+ *
+ * Initialize for execution of one of a set of alternative subplans.
+ */
+AlternativeSubPlanState *
+ExecInitAlternativeSubPlan(AlternativeSubPlan *asplan, PlanState *parent)
+{
+ AlternativeSubPlanState *asstate = makeNode(AlternativeSubPlanState);
+ double num_calls;
+ SubPlan *subplan1;
+ SubPlan *subplan2;
+ Cost cost1;
+ Cost cost2;
+ ListCell *lc;
+
+ asstate->subplan = asplan;
+
+ /*
+ * Initialize subplans. (Can we get away with only initializing the one
+ * we're going to use?)
+ */
+ foreach(lc, asplan->subplans)
+ {
+ SubPlan *sp = lfirst_node(SubPlan, lc);
+ SubPlanState *sps = ExecInitSubPlan(sp, parent);
+
+ asstate->subplans = lappend(asstate->subplans, sps);
+ parent->subPlan = lappend(parent->subPlan, sps);
+ }
+
+ /*
+ * Select the one to be used. For this, we need an estimate of the number
+ * of executions of the subplan. We use the number of output rows
+ * expected from the parent plan node. This is a good estimate if we are
+ * in the parent's targetlist, and an underestimate (but probably not by
+ * more than a factor of 2) if we are in the qual.
+ */
+ num_calls = parent->plan->plan_rows;
+
+ /*
+ * The planner saved enough info so that we don't have to work very hard
+ * to estimate the total cost, given the number-of-calls estimate.
+ */
+ Assert(list_length(asplan->subplans) == 2);
+ subplan1 = (SubPlan *) linitial(asplan->subplans);
+ subplan2 = (SubPlan *) lsecond(asplan->subplans);
+
+ cost1 = subplan1->startup_cost + num_calls * subplan1->per_call_cost;
+ cost2 = subplan2->startup_cost + num_calls * subplan2->per_call_cost;
+
+ if (cost1 < cost2)
+ asstate->active = 0;
+ else
+ asstate->active = 1;
+
+ return asstate;
+}
+
+/*
+ * ExecAlternativeSubPlan
+ *
+ * Execute one of a set of alternative subplans.
+ *
+ * Note: in future we might consider changing to different subplans on the
+ * fly, in case the original rowcount estimate turns out to be way off.
+ */
+Datum
+ExecAlternativeSubPlan(AlternativeSubPlanState *node,
+ ExprContext *econtext,
+ bool *isNull)
+{
+ /* Just pass control to the active subplan */
+ SubPlanState *activesp = list_nth_node(SubPlanState,
+ node->subplans, node->active);
+
+ return ExecSubPlan(activesp, econtext, isNull);
+}