Revert "Do execGrouping.c via expression eval machinery."

This reverts commit 773aec7aa9.

There's an unresolved issue in the reverted commit: It only creates
one comparator function, but in for the nodeSubplan.c case we need
more (c.f. FindTupleHashEntry vs LookupTupleHashEntry calls in
nodeSubplan.c).

This isn't too difficult to fix, but it's not entirely trivial
either. The fact that the issue only causes breakage on 32bit systems
shows that the current test coverage isn't that great.  To avoid
turning half the buildfarm red till those two issues are addressed,
revert.
This commit is contained in:
Andres Freund 2018-02-15 22:39:18 -08:00
parent 773aec7aa9
commit 2a41507dab
15 changed files with 365 additions and 497 deletions

View File

@ -3193,121 +3193,3 @@ ExecBuildAggTransCall(ExprState *state, AggState *aggstate,
as->d.agg_strict_trans_check.jumpnull = state->steps_len;
}
}
/*
* Build equality expression that can be evaluated using ExecQual(), returning
* true if the expression context's inner/outer tuple are NOT DISTINCT. I.e
* two nulls match, a null and a not-null don't match.
*
* desc: tuple descriptor of the to-be-compared tuples
* numCols: the number of attributes to be examined
* keyColIdx: array of attribute column numbers
* eqFunctions: array of function oids of the equality functions to use
* parent: parent executor node
*/
ExprState *
ExecBuildGroupingEqual(TupleDesc desc,
int numCols,
AttrNumber *keyColIdx,
Oid *eqfunctions,
PlanState *parent)
{
ExprState *state = makeNode(ExprState);
ExprEvalStep scratch = {0};
int natt;
int maxatt = -1;
List *adjust_jumps = NIL;
ListCell *lc;
/*
* When no columns are actually compared, the result's always true. See
* special case in ExecQual().
*/
if (numCols == 0)
return NULL;
state->expr = NULL;
state->flags = EEO_FLAG_IS_QUAL;
state->parent = parent;
scratch.resvalue = &state->resvalue;
scratch.resnull = &state->resnull;
/* compute max needed attribute */
for (natt = 0; natt < numCols; natt++)
{
int attno = keyColIdx[natt];
if (attno > maxatt)
maxatt = attno;
}
Assert(maxatt >= 0);
/* push deform steps */
scratch.opcode = EEOP_INNER_FETCHSOME;
scratch.d.fetch.last_var = maxatt;
ExprEvalPushStep(state, &scratch);
scratch.opcode = EEOP_OUTER_FETCHSOME;
scratch.d.fetch.last_var = maxatt;
ExprEvalPushStep(state, &scratch);
/*
* 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.
*/
for (natt = numCols; --natt >= 0;)
{
int attno = keyColIdx[natt];
Form_pg_attribute att = TupleDescAttr(desc, attno - 1);
Var *larg,
*rarg;
List *args;
/*
* Reusing ExecInitFunc() requires creating Vars, but still seems
* worth it from a code reuse perspective.
*/
/* left arg */
larg = makeVar(INNER_VAR, attno, att->atttypid,
att->atttypmod, InvalidOid, 0);
/* right arg */
rarg = makeVar(OUTER_VAR, attno, att->atttypid,
att->atttypmod, InvalidOid, 0);
args = list_make2(larg, rarg);
/* evaluate distinctness */
ExecInitFunc(&scratch, NULL,
args, eqfunctions[natt], InvalidOid,
state);
scratch.opcode = EEOP_NOT_DISTINCT;
ExprEvalPushStep(state, &scratch);
/* then emit EEOP_QUAL to detect if result is false (or null) */
scratch.opcode = EEOP_QUAL;
scratch.d.qualexpr.jumpdone = -1;
ExprEvalPushStep(state, &scratch);
adjust_jumps = lappend_int(adjust_jumps,
state->steps_len - 1);
}
/* adjust jump targets */
foreach(lc, adjust_jumps)
{
ExprEvalStep *as = &state->steps[lfirst_int(lc)];
Assert(as->opcode == EEOP_QUAL);
Assert(as->d.qualexpr.jumpdone == -1);
as->d.qualexpr.jumpdone = state->steps_len;
}
scratch.resvalue = NULL;
scratch.resnull = NULL;
scratch.opcode = EEOP_DONE;
ExprEvalPushStep(state, &scratch);
ExecReadyExpr(state);
return state;
}

View File

@ -355,7 +355,6 @@ ExecInterpExpr(ExprState *state, ExprContext *econtext, bool *isnull)
&&CASE_EEOP_MAKE_READONLY,
&&CASE_EEOP_IOCOERCE,
&&CASE_EEOP_DISTINCT,
&&CASE_EEOP_NOT_DISTINCT,
&&CASE_EEOP_NULLIF,
&&CASE_EEOP_SQLVALUEFUNCTION,
&&CASE_EEOP_CURRENTOFEXPR,
@ -1199,34 +1198,6 @@ ExecInterpExpr(ExprState *state, ExprContext *econtext, bool *isnull)
EEO_NEXT();
}
/* see EEOP_DISTINCT for comments, this is just inverted */
EEO_CASE(EEOP_NOT_DISTINCT)
{
FunctionCallInfo fcinfo = op->d.func.fcinfo_data;
if (fcinfo->argnull[0] && fcinfo->argnull[1])
{
*op->resvalue = BoolGetDatum(true);
*op->resnull = false;
}
else if (fcinfo->argnull[0] || fcinfo->argnull[1])
{
*op->resvalue = BoolGetDatum(false);
*op->resnull = false;
}
else
{
Datum eqresult;
fcinfo->isnull = false;
eqresult = op->d.func.fn_addr(fcinfo);
*op->resvalue = eqresult;
*op->resnull = fcinfo->isnull;
}
EEO_NEXT();
}
EEO_CASE(EEOP_NULLIF)
{
/*

View File

@ -52,33 +52,172 @@ static int TupleHashTableMatch(struct tuplehash_hash *tb, const MinimalTuple tup
*****************************************************************************/
/*
* execTuplesMatchPrepare
* Build expression that can be evaluated using ExecQual(), returning
* whether an ExprContext's inner/outer tuples are NOT DISTINCT
* execTuplesMatch
* Return true if two tuples match in all the indicated fields.
*
* This actually implements SQL's notion of "not distinct". Two nulls
* match, a null and a not-null don't match.
*
* 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
*
* NB: evalContext is reset each time!
*/
ExprState *
execTuplesMatchPrepare(TupleDesc desc,
int numCols,
AttrNumber *keyColIdx,
Oid *eqOperators,
PlanState *parent)
bool
execTuplesMatch(TupleTableSlot *slot1,
TupleTableSlot *slot2,
int numCols,
AttrNumber *matchColIdx,
FmgrInfo *eqfunctions,
MemoryContext evalContext)
{
Oid *eqFunctions = (Oid *) palloc(numCols * sizeof(Oid));
MemoryContext oldContext;
bool result;
int i;
ExprState *expr;
if (numCols == 0)
return NULL;
/* 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 = true;
for (i = numCols; --i >= 0;)
{
AttrNumber att = matchColIdx[i];
Datum attr1,
attr2;
bool isNull1,
isNull2;
attr1 = slot_getattr(slot1, att, &isNull1);
attr2 = slot_getattr(slot2, att, &isNull2);
if (isNull1 != isNull2)
{
result = false; /* one null and one not; they aren't equal */
break;
}
if (isNull1)
continue; /* both are null, treat as equal */
/* Apply the type-specific equality function */
if (!DatumGetBool(FunctionCall2(&eqfunctions[i],
attr1, attr2)))
{
result = false; /* they aren't equal */
break;
}
}
MemoryContextSwitchTo(oldContext);
return result;
}
/*
* 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.
*
* Parameters are identical to execTuplesMatch.
*/
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;
}
/*
* execTuplesMatchPrepare
* Look up the equality functions needed for execTuplesMatch or
* execTuplesUnequal, given an array of equality operator OIDs.
*
* The result is a palloc'd array.
*/
FmgrInfo *
execTuplesMatchPrepare(int numCols,
Oid *eqOperators)
{
FmgrInfo *eqFunctions = (FmgrInfo *) palloc(numCols * sizeof(FmgrInfo));
int i;
/* lookup equality functions */
for (i = 0; i < numCols; i++)
eqFunctions[i] = get_opcode(eqOperators[i]);
{
Oid eq_opr = eqOperators[i];
Oid eq_function;
/* build actual expression */
expr = ExecBuildGroupingEqual(desc, numCols, keyColIdx, eqFunctions,
parent);
eq_function = get_opcode(eq_opr);
fmgr_info(eq_function, &eqFunctions[i]);
}
return expr;
return eqFunctions;
}
/*
@ -149,9 +288,7 @@ execTuplesHashPrepare(int numCols,
* storage that will live as long as the hashtable does.
*/
TupleHashTable
BuildTupleHashTable(PlanState *parent,
TupleDesc inputDesc,
int numCols, AttrNumber *keyColIdx,
BuildTupleHashTable(int numCols, AttrNumber *keyColIdx,
FmgrInfo *eqfunctions,
FmgrInfo *hashfunctions,
long nbuckets, Size additionalsize,
@ -160,9 +297,6 @@ BuildTupleHashTable(PlanState *parent,
{
TupleHashTable hashtable;
Size entrysize = sizeof(TupleHashEntryData) + additionalsize;
MemoryContext oldcontext;
Oid *eqoids = (Oid *) palloc(numCols * sizeof(Oid));
int i;
Assert(nbuckets > 0);
@ -199,26 +333,6 @@ BuildTupleHashTable(PlanState *parent,
hashtable->hashtab = tuplehash_create(tablecxt, nbuckets, hashtable);
oldcontext = MemoryContextSwitchTo(hashtable->tablecxt);
/*
* We copy the input tuple descriptor just for safety --- we assume all
* input tuples will have equivalent descriptors.
*/
hashtable->tableslot = MakeSingleTupleTableSlot(CreateTupleDescCopy(inputDesc));
/* build comparator for all columns */
for (i = 0; i < numCols; i++)
eqoids[i] = eqfunctions[i].fn_oid;
hashtable->eq_func = ExecBuildGroupingEqual(inputDesc,
numCols,
keyColIdx, eqoids,
parent);
MemoryContextSwitchTo(oldcontext);
hashtable->exprcontext = CreateExprContext(parent->state);
return hashtable;
}
@ -243,6 +357,22 @@ LookupTupleHashEntry(TupleHashTable hashtable, TupleTableSlot *slot,
bool found;
MinimalTuple key;
/* If first time through, clone the input slot to make table slot */
if (hashtable->tableslot == NULL)
{
TupleDesc tupdesc;
oldContext = MemoryContextSwitchTo(hashtable->tablecxt);
/*
* We copy the input tuple descriptor just for safety --- we assume
* all input tuples will have equivalent descriptors.
*/
tupdesc = CreateTupleDescCopy(slot->tts_tupleDescriptor);
hashtable->tableslot = MakeSingleTupleTableSlot(tupdesc);
MemoryContextSwitchTo(oldContext);
}
/* Need to run the hash functions in short-lived context */
oldContext = MemoryContextSwitchTo(hashtable->tempcxt);
@ -394,6 +524,9 @@ TupleHashTableHash(struct tuplehash_hash *tb, const MinimalTuple tuple)
* See whether two tuples (presumably of the same hash value) match
*
* As above, the passed pointers are pointers to TupleHashEntryData.
*
* Also, the caller must select an appropriate memory context for running
* the compare functions. (dynahash.c doesn't change CurrentMemoryContext.)
*/
static int
TupleHashTableMatch(struct tuplehash_hash *tb, const MinimalTuple tuple1, const MinimalTuple tuple2)
@ -401,7 +534,6 @@ TupleHashTableMatch(struct tuplehash_hash *tb, const MinimalTuple tuple1, const
TupleTableSlot *slot1;
TupleTableSlot *slot2;
TupleHashTable hashtable = (TupleHashTable) tb->private_data;
ExprContext *econtext = hashtable->exprcontext;
/*
* We assume that simplehash.h will only ever call us with the first
@ -416,7 +548,13 @@ TupleHashTableMatch(struct tuplehash_hash *tb, const MinimalTuple tuple1, const
slot2 = hashtable->inputslot;
/* For crosstype comparisons, the inputslot must be first */
econtext->ecxt_innertuple = slot1;
econtext->ecxt_outertuple = slot2;
return !ExecQualAndReset(hashtable->eq_func, econtext);
if (execTuplesMatch(slot2,
slot1,
hashtable->numCols,
hashtable->keyColIdx,
hashtable->cur_eq_funcs,
hashtable->tempcxt))
return 0;
else
return 1;
}

View File

@ -755,7 +755,7 @@ process_ordered_aggregate_single(AggState *aggstate,
((oldIsNull && *isNull) ||
(!oldIsNull && !*isNull &&
oldAbbrevVal == newAbbrevVal &&
DatumGetBool(FunctionCall2(&pertrans->equalfnOne,
DatumGetBool(FunctionCall2(&pertrans->equalfns[0],
oldVal, *newVal)))))
{
/* equal to prior, so forget this one */
@ -802,7 +802,7 @@ process_ordered_aggregate_multi(AggState *aggstate,
AggStatePerTrans pertrans,
AggStatePerGroup pergroupstate)
{
ExprContext *tmpcontext = aggstate->tmpcontext;
MemoryContext workcontext = aggstate->tmpcontext->ecxt_per_tuple_memory;
FunctionCallInfo fcinfo = &pertrans->transfn_fcinfo;
TupleTableSlot *slot1 = pertrans->sortslot;
TupleTableSlot *slot2 = pertrans->uniqslot;
@ -811,7 +811,6 @@ process_ordered_aggregate_multi(AggState *aggstate,
Datum newAbbrevVal = (Datum) 0;
Datum oldAbbrevVal = (Datum) 0;
bool haveOldValue = false;
TupleTableSlot *save = aggstate->tmpcontext->ecxt_outertuple;
int i;
tuplesort_performsort(pertrans->sortstates[aggstate->current_set]);
@ -825,20 +824,22 @@ process_ordered_aggregate_multi(AggState *aggstate,
{
CHECK_FOR_INTERRUPTS();
tmpcontext->ecxt_outertuple = slot1;
tmpcontext->ecxt_innertuple = slot2;
/*
* Extract the first numTransInputs columns as datums to pass to the
* transfn. (This will help execTuplesMatch too, so we do it
* immediately.)
*/
slot_getsomeattrs(slot1, numTransInputs);
if (numDistinctCols == 0 ||
!haveOldValue ||
newAbbrevVal != oldAbbrevVal ||
!ExecQual(pertrans->equalfnMulti, tmpcontext))
!execTuplesMatch(slot1, slot2,
numDistinctCols,
pertrans->sortColIdx,
pertrans->equalfns,
workcontext))
{
/*
* Extract the first numTransInputs columns as datums to pass to
* the transfn.
*/
slot_getsomeattrs(slot1, numTransInputs);
/* Load values into fcinfo */
/* Start from 1, since the 0th arg will be the transition value */
for (i = 0; i < numTransInputs; i++)
@ -856,14 +857,15 @@ process_ordered_aggregate_multi(AggState *aggstate,
slot2 = slot1;
slot1 = tmpslot;
/* avoid ExecQual() calls by reusing abbreviated keys */
/* avoid execTuplesMatch() calls by reusing abbreviated keys */
oldAbbrevVal = newAbbrevVal;
haveOldValue = true;
}
}
/* Reset context each time */
ResetExprContext(tmpcontext);
/* Reset context each time, unless execTuplesMatch did it for us */
if (numDistinctCols == 0)
MemoryContextReset(workcontext);
ExecClearTuple(slot1);
}
@ -873,9 +875,6 @@ process_ordered_aggregate_multi(AggState *aggstate,
tuplesort_end(pertrans->sortstates[aggstate->current_set]);
pertrans->sortstates[aggstate->current_set] = NULL;
/* restore previous slot, potentially in use for grouping sets */
tmpcontext->ecxt_outertuple = save;
}
/*
@ -1277,9 +1276,7 @@ build_hash_table(AggState *aggstate)
Assert(perhash->aggnode->numGroups > 0);
perhash->hashtable = BuildTupleHashTable(&aggstate->ss.ps,
perhash->hashslot->tts_tupleDescriptor,
perhash->numCols,
perhash->hashtable = BuildTupleHashTable(perhash->numCols,
perhash->hashGrpColIdxHash,
perhash->eqfunctions,
perhash->hashfunctions,
@ -1317,7 +1314,6 @@ find_hash_columns(AggState *aggstate)
Bitmapset *base_colnos;
List *outerTlist = outerPlanState(aggstate)->plan->targetlist;
int numHashes = aggstate->num_hashes;
EState *estate = aggstate->ss.ps.state;
int j;
/* Find Vars that will be needed in tlist and qual */
@ -1397,12 +1393,6 @@ find_hash_columns(AggState *aggstate)
}
hashDesc = ExecTypeFromTL(hashTlist, false);
execTuplesHashPrepare(perhash->numCols,
perhash->aggnode->grpOperators,
&perhash->eqfunctions,
&perhash->hashfunctions);
perhash->hashslot = ExecAllocTableSlot(&estate->es_tupleTable);
ExecSetSlotDescriptor(perhash->hashslot, hashDesc);
list_free(hashTlist);
@ -1704,14 +1694,17 @@ agg_retrieve_direct(AggState *aggstate)
* of the next grouping set
*----------
*/
tmpcontext->ecxt_innertuple = econtext->ecxt_outertuple;
if (aggstate->input_done ||
(node->aggstrategy != AGG_PLAIN &&
aggstate->projected_set != -1 &&
aggstate->projected_set < (numGroupingSets - 1) &&
nextSetSize > 0 &&
!ExecQualAndReset(aggstate->phase->eqfunctions[nextSetSize - 1],
tmpcontext)))
!execTuplesMatch(econtext->ecxt_outertuple,
tmpcontext->ecxt_outertuple,
nextSetSize,
node->grpColIdx,
aggstate->phase->eqfunctions,
tmpcontext->ecxt_per_tuple_memory)))
{
aggstate->projected_set += 1;
@ -1854,9 +1847,12 @@ agg_retrieve_direct(AggState *aggstate)
*/
if (node->aggstrategy != AGG_PLAIN)
{
tmpcontext->ecxt_innertuple = firstSlot;
if (!ExecQual(aggstate->phase->eqfunctions[node->numCols - 1],
tmpcontext))
if (!execTuplesMatch(firstSlot,
outerslot,
node->numCols,
node->grpColIdx,
aggstate->phase->eqfunctions,
tmpcontext->ecxt_per_tuple_memory))
{
aggstate->grp_firstTuple = ExecCopySlotTuple(outerslot);
break;
@ -2082,7 +2078,6 @@ ExecInitAgg(Agg *node, EState *estate, int eflags)
AggStatePerGroup *pergroups;
Plan *outerPlan;
ExprContext *econtext;
TupleDesc scanDesc;
int numaggs,
transno,
aggno;
@ -2238,9 +2233,9 @@ ExecInitAgg(Agg *node, EState *estate, int eflags)
* initialize source tuple type.
*/
ExecAssignScanTypeFromOuterPlan(&aggstate->ss);
scanDesc = aggstate->ss.ss_ScanTupleSlot->tts_tupleDescriptor;
if (node->chain)
ExecSetSlotDescriptor(aggstate->sort_slot, scanDesc);
ExecSetSlotDescriptor(aggstate->sort_slot,
aggstate->ss.ss_ScanTupleSlot->tts_tupleDescriptor);
/*
* Initialize result tuple type and projection info.
@ -2360,43 +2355,11 @@ ExecInitAgg(Agg *node, EState *estate, int eflags)
*/
if (aggnode->aggstrategy == AGG_SORTED)
{
int i = 0;
Assert(aggnode->numCols > 0);
/*
* Build a separate function for each subset of columns that
* need to be compared.
*/
phasedata->eqfunctions =
(ExprState **) palloc0(aggnode->numCols * sizeof(ExprState *));
/* for each grouping set */
for (i = 0; i < phasedata->numsets; i++)
{
int length = phasedata->gset_lengths[i];
if (phasedata->eqfunctions[length - 1] != NULL)
continue;
phasedata->eqfunctions[length - 1] =
execTuplesMatchPrepare(scanDesc,
length,
aggnode->grpColIdx,
aggnode->grpOperators,
(PlanState *) aggstate);
}
/* and for all grouped columns, unless already computed */
if (phasedata->eqfunctions[aggnode->numCols - 1] == NULL)
{
phasedata->eqfunctions[aggnode->numCols - 1] =
execTuplesMatchPrepare(scanDesc,
aggnode->numCols,
aggnode->grpColIdx,
aggnode->grpOperators,
(PlanState *) aggstate);
}
execTuplesMatchPrepare(aggnode->numCols,
aggnode->grpOperators);
}
phasedata->aggnode = aggnode;
@ -2449,6 +2412,16 @@ ExecInitAgg(Agg *node, EState *estate, int eflags)
*/
if (use_hashing)
{
for (i = 0; i < numHashes; ++i)
{
aggstate->perhash[i].hashslot = ExecInitExtraTupleSlot(estate);
execTuplesHashPrepare(aggstate->perhash[i].numCols,
aggstate->perhash[i].aggnode->grpOperators,
&aggstate->perhash[i].eqfunctions,
&aggstate->perhash[i].hashfunctions);
}
/* this is an array of pointers, not structures */
aggstate->hash_pergroup = pergroups;
@ -3128,28 +3101,24 @@ build_pertrans_for_aggref(AggStatePerTrans pertrans,
if (aggref->aggdistinct)
{
Oid *ops;
Assert(numArguments > 0);
Assert(list_length(aggref->aggdistinct) == numDistinctCols);
ops = palloc(numDistinctCols * sizeof(Oid));
/*
* We need the equal function for each DISTINCT comparison we will
* make.
*/
pertrans->equalfns =
(FmgrInfo *) palloc(numDistinctCols * sizeof(FmgrInfo));
i = 0;
foreach(lc, aggref->aggdistinct)
ops[i++] = ((SortGroupClause *) lfirst(lc))->eqop;
{
SortGroupClause *sortcl = (SortGroupClause *) lfirst(lc);
/* lookup / build the necessary comparators */
if (numDistinctCols == 1)
fmgr_info(get_opcode(ops[0]), &pertrans->equalfnOne);
else
pertrans->equalfnMulti =
execTuplesMatchPrepare(pertrans->sortdesc,
numDistinctCols,
pertrans->sortColIdx,
ops,
&aggstate->ss.ps);
pfree(ops);
fmgr_info(get_opcode(sortcl->eqop), &pertrans->equalfns[i]);
i++;
}
Assert(i == numDistinctCols);
}
pertrans->sortstates = (Tuplesortstate **)

View File

@ -25,7 +25,6 @@
#include "executor/executor.h"
#include "executor/nodeGroup.h"
#include "miscadmin.h"
#include "utils/memutils.h"
/*
@ -38,6 +37,8 @@ ExecGroup(PlanState *pstate)
{
GroupState *node = castNode(GroupState, pstate);
ExprContext *econtext;
int numCols;
AttrNumber *grpColIdx;
TupleTableSlot *firsttupleslot;
TupleTableSlot *outerslot;
@ -49,6 +50,8 @@ ExecGroup(PlanState *pstate)
if (node->grp_done)
return NULL;
econtext = node->ss.ps.ps_ExprContext;
numCols = ((Group *) node->ss.ps.plan)->numCols;
grpColIdx = ((Group *) node->ss.ps.plan)->grpColIdx;
/*
* The ScanTupleSlot holds the (copied) first tuple of each group.
@ -56,7 +59,7 @@ ExecGroup(PlanState *pstate)
firsttupleslot = node->ss.ss_ScanTupleSlot;
/*
* We need not call ResetExprContext here because ExecQualAndReset() will
* We need not call ResetExprContext here because execTuplesMatch will
* reset the per-tuple memory context once per input tuple.
*/
@ -121,9 +124,10 @@ ExecGroup(PlanState *pstate)
* Compare with first tuple and see if this tuple is of the same
* group. If so, ignore it and keep scanning.
*/
econtext->ecxt_innertuple = firsttupleslot;
econtext->ecxt_outertuple = outerslot;
if (!ExecQualAndReset(node->eqfunction, econtext))
if (!execTuplesMatch(firsttupleslot, outerslot,
numCols, grpColIdx,
node->eqfunctions,
econtext->ecxt_per_tuple_memory))
break;
}
@ -162,7 +166,6 @@ GroupState *
ExecInitGroup(Group *node, EState *estate, int eflags)
{
GroupState *grpstate;
AttrNumber *grpColIdx = grpColIdx = node->grpColIdx;
/* check for unsupported flags */
Assert(!(eflags & (EXEC_FLAG_BACKWARD | EXEC_FLAG_MARK)));
@ -212,12 +215,9 @@ ExecInitGroup(Group *node, EState *estate, int eflags)
/*
* Precompute fmgr lookup data for inner loop
*/
grpstate->eqfunction =
execTuplesMatchPrepare(ExecGetResultType(outerPlanState(grpstate)),
node->numCols,
grpColIdx,
node->grpOperators,
&grpstate->ss.ps);
grpstate->eqfunctions =
execTuplesMatchPrepare(node->numCols,
node->grpOperators);
return grpstate;
}

View File

@ -32,14 +32,11 @@ static void
build_hash_table(RecursiveUnionState *rustate)
{
RecursiveUnion *node = (RecursiveUnion *) rustate->ps.plan;
TupleDesc desc = ExecGetResultType(outerPlanState(rustate));
Assert(node->numCols > 0);
Assert(node->numGroups > 0);
rustate->hashtable = BuildTupleHashTable(&rustate->ps,
desc,
node->numCols,
rustate->hashtable = BuildTupleHashTable(node->numCols,
node->dupColIdx,
rustate->eqfunctions,
rustate->hashfunctions,

View File

@ -120,22 +120,18 @@ static void
build_hash_table(SetOpState *setopstate)
{
SetOp *node = (SetOp *) setopstate->ps.plan;
ExprContext *econtext = setopstate->ps.ps_ExprContext;
TupleDesc desc = ExecGetResultType(outerPlanState(setopstate));
Assert(node->strategy == SETOP_HASHED);
Assert(node->numGroups > 0);
setopstate->hashtable = BuildTupleHashTable(&setopstate->ps,
desc,
node->numCols,
setopstate->hashtable = BuildTupleHashTable(node->numCols,
node->dupColIdx,
setopstate->eqfunctions,
setopstate->hashfunctions,
node->numGroups,
0,
setopstate->tableContext,
econtext->ecxt_per_tuple_memory,
setopstate->tempContext,
false);
}
@ -224,11 +220,11 @@ ExecSetOp(PlanState *pstate)
static TupleTableSlot *
setop_retrieve_direct(SetOpState *setopstate)
{
SetOp *node = (SetOp *) setopstate->ps.plan;
PlanState *outerPlan;
SetOpStatePerGroup pergroup;
TupleTableSlot *outerslot;
TupleTableSlot *resultTupleSlot;
ExprContext *econtext = setopstate->ps.ps_ExprContext;
/*
* get state info from node
@ -296,10 +292,11 @@ setop_retrieve_direct(SetOpState *setopstate)
/*
* Check whether we've crossed a group boundary.
*/
econtext->ecxt_outertuple = resultTupleSlot;
econtext->ecxt_innertuple = outerslot;
if (!ExecQualAndReset(setopstate->eqfunction, econtext))
if (!execTuplesMatch(resultTupleSlot,
outerslot,
node->numCols, node->dupColIdx,
setopstate->eqfunctions,
setopstate->tempContext))
{
/*
* Save the first input tuple of the next group.
@ -341,7 +338,6 @@ setop_fill_hash_table(SetOpState *setopstate)
PlanState *outerPlan;
int firstFlag;
bool in_first_rel PG_USED_FOR_ASSERTS_ONLY;
ExprContext *econtext = setopstate->ps.ps_ExprContext;
/*
* get state info from node
@ -408,8 +404,8 @@ setop_fill_hash_table(SetOpState *setopstate)
advance_counts((SetOpStatePerGroup) entry->additional, flag);
}
/* Must reset expression context after each hashtable lookup */
ResetExprContext(econtext);
/* Must reset temp context after each hashtable lookup */
MemoryContextReset(setopstate->tempContext);
}
setopstate->table_filled = true;
@ -480,7 +476,6 @@ SetOpState *
ExecInitSetOp(SetOp *node, EState *estate, int eflags)
{
SetOpState *setopstate;
TupleDesc outerDesc;
/* check for unsupported flags */
Assert(!(eflags & (EXEC_FLAG_BACKWARD | EXEC_FLAG_MARK)));
@ -503,9 +498,16 @@ ExecInitSetOp(SetOp *node, EState *estate, int eflags)
setopstate->tableContext = NULL;
/*
* create expression context
* Miscellaneous initialization
*
* SetOp nodes have no ExprContext initialization because they never call
* ExecQual or ExecProject. But they do need a per-tuple memory context
* anyway for calling execTuplesMatch.
*/
ExecAssignExprContext(estate, &setopstate->ps);
setopstate->tempContext =
AllocSetContextCreate(CurrentMemoryContext,
"SetOp",
ALLOCSET_DEFAULT_SIZES);
/*
* If hashing, we also need a longer-lived context to store the hash
@ -532,7 +534,6 @@ ExecInitSetOp(SetOp *node, EState *estate, int eflags)
if (node->strategy == SETOP_HASHED)
eflags &= ~EXEC_FLAG_REWIND;
outerPlanState(setopstate) = ExecInitNode(outerPlan(node), estate, eflags);
outerDesc = ExecGetResultType(outerPlanState(setopstate));
/*
* setop nodes do no projections, so initialize projection info for this
@ -552,12 +553,9 @@ ExecInitSetOp(SetOp *node, EState *estate, int eflags)
&setopstate->eqfunctions,
&setopstate->hashfunctions);
else
setopstate->eqfunction =
execTuplesMatchPrepare(outerDesc,
node->numCols,
node->dupColIdx,
node->dupOperators,
&setopstate->ps);
setopstate->eqfunctions =
execTuplesMatchPrepare(node->numCols,
node->dupOperators);
if (node->strategy == SETOP_HASHED)
{
@ -587,9 +585,9 @@ ExecEndSetOp(SetOpState *node)
ExecClearTuple(node->ps.ps_ResultTupleSlot);
/* free subsidiary stuff including hashtable */
MemoryContextDelete(node->tempContext);
if (node->tableContext)
MemoryContextDelete(node->tableContext);
ExecFreeExprContext(&node->ps);
ExecEndNode(outerPlanState(node));
}

View File

@ -494,9 +494,7 @@ buildSubPlanHash(SubPlanState *node, ExprContext *econtext)
if (nbuckets < 1)
nbuckets = 1;
node->hashtable = BuildTupleHashTable(node->parent,
node->descRight,
ncols,
node->hashtable = BuildTupleHashTable(ncols,
node->keyColIdx,
node->tab_eq_funcs,
node->tab_hash_funcs,
@ -516,9 +514,7 @@ buildSubPlanHash(SubPlanState *node, ExprContext *econtext)
if (nbuckets < 1)
nbuckets = 1;
}
node->hashnulls = BuildTupleHashTable(node->parent,
node->descRight,
ncols,
node->hashnulls = BuildTupleHashTable(ncols,
node->keyColIdx,
node->tab_eq_funcs,
node->tab_hash_funcs,
@ -602,78 +598,6 @@ buildSubPlanHash(SubPlanState *node, ExprContext *econtext)
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?
@ -963,7 +887,6 @@ ExecInitSubPlan(SubPlan *subplan, PlanState *parent)
NULL);
tupDesc = ExecTypeFromTL(righttlist, false);
sstate->descRight = tupDesc;
slot = ExecInitExtraTupleSlot(estate);
ExecSetSlotDescriptor(slot, tupDesc);
sstate->projRight = ExecBuildProjectionInfo(righttlist,

View File

@ -47,7 +47,7 @@ static TupleTableSlot * /* return: a tuple or NULL */
ExecUnique(PlanState *pstate)
{
UniqueState *node = castNode(UniqueState, pstate);
ExprContext *econtext = node->ps.ps_ExprContext;
Unique *plannode = (Unique *) node->ps.plan;
TupleTableSlot *resultTupleSlot;
TupleTableSlot *slot;
PlanState *outerPlan;
@ -89,9 +89,10 @@ ExecUnique(PlanState *pstate)
* If so then we loop back and fetch another new tuple from the
* subplan.
*/
econtext->ecxt_innertuple = slot;
econtext->ecxt_outertuple = resultTupleSlot;
if (!ExecQualAndReset(node->eqfunction, econtext))
if (!execTuplesMatch(slot, resultTupleSlot,
plannode->numCols, plannode->uniqColIdx,
node->eqfunctions,
node->tempContext))
break;
}
@ -128,9 +129,16 @@ ExecInitUnique(Unique *node, EState *estate, int eflags)
uniquestate->ps.ExecProcNode = ExecUnique;
/*
* create expression context
* Miscellaneous initialization
*
* Unique nodes have no ExprContext initialization because they never call
* ExecQual or ExecProject. But they do need a per-tuple memory context
* anyway for calling execTuplesMatch.
*/
ExecAssignExprContext(estate, &uniquestate->ps);
uniquestate->tempContext =
AllocSetContextCreate(CurrentMemoryContext,
"Unique",
ALLOCSET_DEFAULT_SIZES);
/*
* Tuple table initialization
@ -152,12 +160,9 @@ ExecInitUnique(Unique *node, EState *estate, int eflags)
/*
* Precompute fmgr lookup data for inner loop
*/
uniquestate->eqfunction =
execTuplesMatchPrepare(ExecGetResultType(outerPlanState(uniquestate)),
node->numCols,
node->uniqColIdx,
node->uniqOperators,
&uniquestate->ps);
uniquestate->eqfunctions =
execTuplesMatchPrepare(node->numCols,
node->uniqOperators);
return uniquestate;
}
@ -175,7 +180,7 @@ ExecEndUnique(UniqueState *node)
/* clean up tuple table */
ExecClearTuple(node->ps.ps_ResultTupleSlot);
ExecFreeExprContext(&node->ps);
MemoryContextDelete(node->tempContext);
ExecEndNode(outerPlanState(node));
}

View File

@ -1272,13 +1272,12 @@ spool_tuples(WindowAggState *winstate, int64 pos)
if (node->partNumCols > 0)
{
ExprContext *econtext = winstate->tmpcontext;
econtext->ecxt_innertuple = winstate->first_part_slot;
econtext->ecxt_outertuple = outerslot;
/* Check if this tuple still belongs to the current partition */
if (!ExecQualAndReset(winstate->partEqfunction, econtext))
if (!execTuplesMatch(winstate->first_part_slot,
outerslot,
node->partNumCols, node->partColIdx,
winstate->partEqfunctions,
winstate->tmpcontext->ecxt_per_tuple_memory))
{
/*
* end of partition; copy the tuple for the next cycle.
@ -2246,7 +2245,6 @@ ExecInitWindowAgg(WindowAgg *node, EState *estate, int eflags)
wfuncno,
numaggs,
aggno;
TupleDesc scanDesc;
ListCell *l;
/* check for unsupported flags */
@ -2329,7 +2327,6 @@ ExecInitWindowAgg(WindowAgg *node, EState *estate, int eflags)
* store in the tuplestore and use in all our working slots).
*/
ExecAssignScanTypeFromOuterPlan(&winstate->ss);
scanDesc = winstate->ss.ss_ScanTupleSlot->tts_tupleDescriptor;
ExecSetSlotDescriptor(winstate->first_part_slot,
winstate->ss.ss_ScanTupleSlot->tts_tupleDescriptor);
@ -2354,20 +2351,11 @@ ExecInitWindowAgg(WindowAgg *node, EState *estate, int eflags)
/* Set up data for comparing tuples */
if (node->partNumCols > 0)
winstate->partEqfunction =
execTuplesMatchPrepare(scanDesc,
node->partNumCols,
node->partColIdx,
node->partOperators,
&winstate->ss.ps);
winstate->partEqfunctions = execTuplesMatchPrepare(node->partNumCols,
node->partOperators);
if (node->ordNumCols > 0)
winstate->ordEqfunction =
execTuplesMatchPrepare(scanDesc,
node->ordNumCols,
node->ordColIdx,
node->ordOperators,
&winstate->ss.ps);
winstate->ordEqfunctions = execTuplesMatchPrepare(node->ordNumCols,
node->ordOperators);
/*
* WindowAgg nodes use aggvalues and aggnulls as well as Agg nodes.
@ -2891,15 +2879,15 @@ are_peers(WindowAggState *winstate, TupleTableSlot *slot1,
TupleTableSlot *slot2)
{
WindowAgg *node = (WindowAgg *) winstate->ss.ps.plan;
ExprContext *econtext = winstate->tmpcontext;
/* If no ORDER BY, all rows are peers with each other */
if (node->ordNumCols == 0)
return true;
econtext->ecxt_outertuple = slot1;
econtext->ecxt_innertuple = slot2;
return ExecQualAndReset(winstate->ordEqfunction, econtext);
return execTuplesMatch(slot1, slot2,
node->ordNumCols, node->ordColIdx,
winstate->ordEqfunctions,
winstate->tmpcontext->ecxt_per_tuple_memory);
}
/*

View File

@ -27,7 +27,6 @@
#include "utils/array.h"
#include "utils/builtins.h"
#include "utils/lsyscache.h"
#include "utils/memutils.h"
#include "utils/timestamp.h"
#include "utils/tuplesort.h"
@ -55,8 +54,6 @@ typedef struct OSAPerQueryState
Aggref *aggref;
/* Memory context containing this struct and other per-query data: */
MemoryContext qcontext;
/* Context for expression evaluation */
ExprContext *econtext;
/* Do we expect multiple final-function calls within one group? */
bool rescan_needed;
@ -74,7 +71,7 @@ typedef struct OSAPerQueryState
Oid *sortCollations;
bool *sortNullsFirsts;
/* Equality operator call info, created only if needed: */
ExprState *compareTuple;
FmgrInfo *equalfns;
/* These fields are used only when accumulating datums: */
@ -1290,8 +1287,6 @@ hypothetical_cume_dist_final(PG_FUNCTION_ARGS)
Datum
hypothetical_dense_rank_final(PG_FUNCTION_ARGS)
{
ExprContext *econtext;
ExprState *compareTuple;
int nargs = PG_NARGS() - 1;
int64 rank = 1;
int64 duplicate_count = 0;
@ -1299,9 +1294,12 @@ hypothetical_dense_rank_final(PG_FUNCTION_ARGS)
int numDistinctCols;
Datum abbrevVal = (Datum) 0;
Datum abbrevOld = (Datum) 0;
AttrNumber *sortColIdx;
FmgrInfo *equalfns;
TupleTableSlot *slot;
TupleTableSlot *extraslot;
TupleTableSlot *slot2;
MemoryContext tmpcontext;
int i;
Assert(AggCheckCallContext(fcinfo, NULL) == AGG_CONTEXT_AGGREGATE);
@ -1311,9 +1309,6 @@ hypothetical_dense_rank_final(PG_FUNCTION_ARGS)
PG_RETURN_INT64(rank);
osastate = (OSAPerGroupState *) PG_GETARG_POINTER(0);
econtext = osastate->qstate->econtext;
if (!econtext)
osastate->qstate->econtext = econtext = CreateStandaloneExprContext();
/* Adjust nargs to be the number of direct (or aggregated) args */
if (nargs % 2 != 0)
@ -1328,22 +1323,26 @@ hypothetical_dense_rank_final(PG_FUNCTION_ARGS)
*/
numDistinctCols = osastate->qstate->numSortCols - 1;
/* Build tuple comparator, if we didn't already */
compareTuple = osastate->qstate->compareTuple;
if (compareTuple == NULL)
/* Look up the equality function(s), if we didn't already */
equalfns = osastate->qstate->equalfns;
if (equalfns == NULL)
{
AttrNumber *sortColIdx = osastate->qstate->sortColIdx;
MemoryContext oldContext;
MemoryContext qcontext = osastate->qstate->qcontext;
oldContext = MemoryContextSwitchTo(osastate->qstate->qcontext);
compareTuple = execTuplesMatchPrepare(osastate->qstate->tupdesc,
numDistinctCols,
sortColIdx,
osastate->qstate->eqOperators,
NULL);
MemoryContextSwitchTo(oldContext);
osastate->qstate->compareTuple = compareTuple;
equalfns = (FmgrInfo *)
MemoryContextAlloc(qcontext, numDistinctCols * sizeof(FmgrInfo));
for (i = 0; i < numDistinctCols; i++)
{
fmgr_info_cxt(get_opcode(osastate->qstate->eqOperators[i]),
&equalfns[i],
qcontext);
}
osastate->qstate->equalfns = equalfns;
}
sortColIdx = osastate->qstate->sortColIdx;
/* Get short-term context we can use for execTuplesMatch */
tmpcontext = AggGetTempMemoryContext(fcinfo);
/* because we need a hypothetical row, we can't share transition state */
Assert(!osastate->sort_done);
@ -1386,18 +1385,19 @@ hypothetical_dense_rank_final(PG_FUNCTION_ARGS)
break;
/* count non-distinct tuples */
econtext->ecxt_outertuple = slot;
econtext->ecxt_innertuple = slot2;
if (!TupIsNull(slot2) &&
abbrevVal == abbrevOld &&
ExecQualAndReset(compareTuple, econtext))
execTuplesMatch(slot, slot2,
numDistinctCols,
sortColIdx,
equalfns,
tmpcontext))
duplicate_count++;
tmpslot = slot2;
slot2 = slot;
slot = tmpslot;
/* avoid ExecQual() calls by reusing abbreviated keys */
/* avoid execTuplesMatch() calls by reusing abbreviated keys */
abbrevOld = abbrevVal;
rank++;

View File

@ -148,7 +148,6 @@ typedef enum ExprEvalOp
/* evaluate assorted special-purpose expression types */
EEOP_IOCOERCE,
EEOP_DISTINCT,
EEOP_NOT_DISTINCT,
EEOP_NULLIF,
EEOP_SQLVALUEFUNCTION,
EEOP_CURRENTOFEXPR,

View File

@ -113,18 +113,25 @@ extern bool execCurrentOf(CurrentOfExpr *cexpr,
/*
* prototypes from functions in execGrouping.c
*/
extern ExprState *execTuplesMatchPrepare(TupleDesc desc,
int numCols,
AttrNumber *keyColIdx,
Oid *eqOperators,
PlanState *parent);
extern bool execTuplesMatch(TupleTableSlot *slot1,
TupleTableSlot *slot2,
int numCols,
AttrNumber *matchColIdx,
FmgrInfo *eqfunctions,
MemoryContext evalContext);
extern bool execTuplesUnequal(TupleTableSlot *slot1,
TupleTableSlot *slot2,
int numCols,
AttrNumber *matchColIdx,
FmgrInfo *eqfunctions,
MemoryContext evalContext);
extern FmgrInfo *execTuplesMatchPrepare(int numCols,
Oid *eqOperators);
extern void execTuplesHashPrepare(int numCols,
Oid *eqOperators,
FmgrInfo **eqFunctions,
FmgrInfo **hashFunctions);
extern TupleHashTable BuildTupleHashTable(PlanState *parent,
TupleDesc inputDesc,
int numCols, AttrNumber *keyColIdx,
extern TupleHashTable BuildTupleHashTable(int numCols, AttrNumber *keyColIdx,
FmgrInfo *eqfunctions,
FmgrInfo *hashfunctions,
long nbuckets, Size additionalsize,
@ -250,11 +257,6 @@ extern ExprState *ExecInitCheck(List *qual, PlanState *parent);
extern List *ExecInitExprList(List *nodes, PlanState *parent);
extern ExprState *ExecBuildAggTrans(AggState *aggstate, struct AggStatePerPhaseData *phase,
bool doSort, bool doHash);
extern ExprState *ExecBuildGroupingEqual(TupleDesc desc,
int numCols,
AttrNumber *keyColIdx,
Oid *eqfunctions,
PlanState *parent);
extern ProjectionInfo *ExecBuildProjectionInfo(List *targetList,
ExprContext *econtext,
TupleTableSlot *slot,

View File

@ -102,12 +102,11 @@ typedef struct AggStatePerTransData
bool *sortNullsFirst;
/*
* Comparators for input columns --- only set/used when aggregate has
* DISTINCT flag. equalfnOne version is used for single-column
* commparisons, equalfnMulti for the case of multiple columns.
* fmgr lookup data for input columns' equality operators --- only
* set/used when aggregate has DISTINCT flag. Note that these are in
* order of sort column index, not parameter index.
*/
FmgrInfo equalfnOne;
ExprState *equalfnMulti;
FmgrInfo *equalfns; /* array of length numDistinctCols */
/*
* initial value from pg_aggregate entry
@ -271,8 +270,7 @@ typedef struct AggStatePerPhaseData
int numsets; /* number of grouping sets (or 0) */
int *gset_lengths; /* lengths of grouping sets */
Bitmapset **grouped_cols; /* column groupings for rollup */
ExprState **eqfunctions; /* expression returning equality, indexed by
* nr of cols to compare */
FmgrInfo *eqfunctions; /* per-grouping-field equality fns */
Agg *aggnode; /* Agg node for phase data */
Sort *sortnode; /* Sort node for input ordering for phase */

View File

@ -635,8 +635,6 @@ typedef struct TupleHashTableData
FmgrInfo *in_hash_funcs; /* hash functions for input datatype(s) */
FmgrInfo *cur_eq_funcs; /* equality functions for input vs. table */
uint32 hash_iv; /* hash-function IV */
ExprState *eq_func; /* tuple equality comparator */
ExprContext *exprcontext; /* expression context */
} TupleHashTableData;
typedef tuplehash_iterator TupleHashIterator;
@ -783,7 +781,6 @@ typedef struct SubPlanState
HeapTuple curTuple; /* copy of most recent tuple from subplan */
Datum curArray; /* most recent array from ARRAY() subplan */
/* these are used when hashing the subselect's output: */
TupleDesc descRight; /* subselect desc after projection */
ProjectionInfo *projLeft; /* for projecting lefthand exprs */
ProjectionInfo *projRight; /* for projecting subselect output */
TupleHashTable hashtable; /* hash table for no-nulls subselect rows */
@ -1798,7 +1795,7 @@ typedef struct SortState
typedef struct GroupState
{
ScanState ss; /* its first field is NodeTag */
ExprState *eqfunction; /* equality function */
FmgrInfo *eqfunctions; /* per-field lookup data for equality fns */
bool grp_done; /* indicates completion of Group scan */
} GroupState;
@ -1888,8 +1885,8 @@ typedef struct WindowAggState
WindowStatePerFunc perfunc; /* per-window-function information */
WindowStatePerAgg peragg; /* per-plain-aggregate information */
ExprState *partEqfunction; /* equality funcs for partition columns */
ExprState *ordEqfunction; /* equality funcs for ordering columns */
FmgrInfo *partEqfunctions; /* equality funcs for partition columns */
FmgrInfo *ordEqfunctions; /* equality funcs for ordering columns */
Tuplestorestate *buffer; /* stores rows of current partition */
int current_ptr; /* read pointer # for current row */
int framehead_ptr; /* read pointer # for frame head, if used */
@ -1967,7 +1964,8 @@ typedef struct WindowAggState
typedef struct UniqueState
{
PlanState ps; /* its first field is NodeTag */
ExprState *eqfunction; /* tuple equality qual */
FmgrInfo *eqfunctions; /* per-field lookup data for equality fns */
MemoryContext tempContext; /* short-term context for comparisons */
} UniqueState;
/* ----------------
@ -2081,11 +2079,11 @@ typedef struct SetOpStatePerGroupData *SetOpStatePerGroup;
typedef struct SetOpState
{
PlanState ps; /* its first field is NodeTag */
ExprState *eqfunction; /* equality comparator */
FmgrInfo *eqfunctions; /* per-grouping-field equality fns */
FmgrInfo *hashfunctions; /* per-grouping-field hash fns */
bool setop_done; /* indicates completion of output scan */
long numOutput; /* number of dups left to output */
MemoryContext tempContext; /* short-term context for comparisons */
/* these fields are used in SETOP_SORTED mode: */
SetOpStatePerGroup pergroup; /* per-group working state */
HeapTuple grp_firstTuple; /* copy of first tuple of current group */