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/*-------------------------------------------------------------------------
*
* execAmi.c
* miscellaneous executor access method routines
*
* Portions Copyright (c) 1996-2022, PostgreSQL Global Development Group
* Portions Copyright (c) 1994, Regents of the University of California
*
* src/backend/executor/execAmi.c
*
*-------------------------------------------------------------------------
*/
#include "postgres.h"
#include "access/amapi.h"
#include "access/htup_details.h"
#include "executor/execdebug.h"
#include "executor/nodeAgg.h"
#include "executor/nodeAppend.h"
#include "executor/nodeBitmapAnd.h"
#include "executor/nodeBitmapHeapscan.h"
#include "executor/nodeBitmapIndexscan.h"
#include "executor/nodeBitmapOr.h"
#include "executor/nodeCtescan.h"
#include "executor/nodeCustom.h"
#include "executor/nodeForeignscan.h"
#include "executor/nodeFunctionscan.h"
#include "executor/nodeGather.h"
#include "executor/nodeGatherMerge.h"
#include "executor/nodeGroup.h"
#include "executor/nodeHash.h"
#include "executor/nodeHashjoin.h"
#include "executor/nodeIncrementalSort.h"
#include "executor/nodeIndexonlyscan.h"
#include "executor/nodeIndexscan.h"
#include "executor/nodeLimit.h"
#include "executor/nodeLockRows.h"
#include "executor/nodeMaterial.h"
#include "executor/nodeMemoize.h"
#include "executor/nodeMergeAppend.h"
#include "executor/nodeMergejoin.h"
#include "executor/nodeModifyTable.h"
#include "executor/nodeNamedtuplestorescan.h"
#include "executor/nodeNestloop.h"
#include "executor/nodeProjectSet.h"
#include "executor/nodeRecursiveunion.h"
#include "executor/nodeResult.h"
#include "executor/nodeSamplescan.h"
#include "executor/nodeSeqscan.h"
#include "executor/nodeSetOp.h"
#include "executor/nodeSort.h"
#include "executor/nodeSubplan.h"
#include "executor/nodeSubqueryscan.h"
#include "executor/nodeTableFuncscan.h"
#include "executor/nodeTidrangescan.h"
#include "executor/nodeTidscan.h"
#include "executor/nodeUnique.h"
#include "executor/nodeValuesscan.h"
#include "executor/nodeWindowAgg.h"
#include "executor/nodeWorktablescan.h"
#include "nodes/extensible.h"
#include "nodes/nodeFuncs.h"
#include "nodes/pathnodes.h"
#include "utils/rel.h"
#include "utils/syscache.h"
static bool IndexSupportsBackwardScan(Oid indexid);
/*
* ExecReScan
* Reset a plan node so that its output can be re-scanned.
*
* Note that if the plan node has parameters that have changed value,
* the output might be different from last time.
*/
void
ExecReScan(PlanState *node)
{
/* If collecting timing stats, update them */
if (node->instrument)
InstrEndLoop(node->instrument);
/*
* If we have changed parameters, propagate that info.
*
* Note: ExecReScanSetParamPlan() can add bits to node->chgParam,
* corresponding to the output param(s) that the InitPlan will update.
* Since we make only one pass over the list, that means that an InitPlan
* can depend on the output param(s) of a sibling InitPlan only if that
* sibling appears earlier in the list. This is workable for now given
* the limited ways in which one InitPlan could depend on another, but
* eventually we might need to work harder (or else make the planner
* enlarge the extParam/allParam sets to include the params of depended-on
* InitPlans).
*/
if (node->chgParam != NULL)
{
ListCell *l;
foreach(l, node->initPlan)
{
SubPlanState *sstate = (SubPlanState *) lfirst(l);
PlanState *splan = sstate->planstate;
if (splan->plan->extParam != NULL) /* don't care about child
* local Params */
UpdateChangedParamSet(splan, node->chgParam);
if (splan->chgParam != NULL)
ExecReScanSetParamPlan(sstate, node);
}
foreach(l, node->subPlan)
{
SubPlanState *sstate = (SubPlanState *) lfirst(l);
PlanState *splan = sstate->planstate;
if (splan->plan->extParam != NULL)
UpdateChangedParamSet(splan, node->chgParam);
}
/* Well. Now set chgParam for left/right trees. */
if (node->lefttree != NULL)
UpdateChangedParamSet(node->lefttree, node->chgParam);
if (node->righttree != NULL)
UpdateChangedParamSet(node->righttree, node->chgParam);
}
/* Call expression callbacks */
if (node->ps_ExprContext)
ReScanExprContext(node->ps_ExprContext);
/* And do node-type-specific processing */
switch (nodeTag(node))
{
case T_ResultState:
ExecReScanResult((ResultState *) node);
break;
case T_ProjectSetState:
ExecReScanProjectSet((ProjectSetState *) node);
break;
case T_ModifyTableState:
ExecReScanModifyTable((ModifyTableState *) node);
break;
case T_AppendState:
ExecReScanAppend((AppendState *) node);
break;
case T_MergeAppendState:
ExecReScanMergeAppend((MergeAppendState *) node);
break;
case T_RecursiveUnionState:
ExecReScanRecursiveUnion((RecursiveUnionState *) node);
break;
case T_BitmapAndState:
ExecReScanBitmapAnd((BitmapAndState *) node);
break;
case T_BitmapOrState:
ExecReScanBitmapOr((BitmapOrState *) node);
break;
case T_SeqScanState:
ExecReScanSeqScan((SeqScanState *) node);
break;
case T_SampleScanState:
ExecReScanSampleScan((SampleScanState *) node);
break;
case T_GatherState:
ExecReScanGather((GatherState *) node);
break;
case T_GatherMergeState:
ExecReScanGatherMerge((GatherMergeState *) node);
break;
case T_IndexScanState:
ExecReScanIndexScan((IndexScanState *) node);
break;
case T_IndexOnlyScanState:
ExecReScanIndexOnlyScan((IndexOnlyScanState *) node);
break;
case T_BitmapIndexScanState:
ExecReScanBitmapIndexScan((BitmapIndexScanState *) node);
break;
case T_BitmapHeapScanState:
ExecReScanBitmapHeapScan((BitmapHeapScanState *) node);
break;
case T_TidScanState:
ExecReScanTidScan((TidScanState *) node);
break;
case T_TidRangeScanState:
ExecReScanTidRangeScan((TidRangeScanState *) node);
break;
case T_SubqueryScanState:
ExecReScanSubqueryScan((SubqueryScanState *) node);
break;
case T_FunctionScanState:
ExecReScanFunctionScan((FunctionScanState *) node);
break;
case T_TableFuncScanState:
ExecReScanTableFuncScan((TableFuncScanState *) node);
break;
case T_ValuesScanState:
ExecReScanValuesScan((ValuesScanState *) node);
break;
case T_CteScanState:
ExecReScanCteScan((CteScanState *) node);
break;
case T_NamedTuplestoreScanState:
ExecReScanNamedTuplestoreScan((NamedTuplestoreScanState *) node);
break;
case T_WorkTableScanState:
ExecReScanWorkTableScan((WorkTableScanState *) node);
break;
case T_ForeignScanState:
ExecReScanForeignScan((ForeignScanState *) node);
break;
case T_CustomScanState:
ExecReScanCustomScan((CustomScanState *) node);
break;
case T_NestLoopState:
ExecReScanNestLoop((NestLoopState *) node);
break;
case T_MergeJoinState:
ExecReScanMergeJoin((MergeJoinState *) node);
break;
case T_HashJoinState:
ExecReScanHashJoin((HashJoinState *) node);
break;
case T_MaterialState:
ExecReScanMaterial((MaterialState *) node);
break;
case T_MemoizeState:
ExecReScanMemoize((MemoizeState *) node);
break;
case T_SortState:
ExecReScanSort((SortState *) node);
break;
case T_IncrementalSortState:
ExecReScanIncrementalSort((IncrementalSortState *) node);
break;
case T_GroupState:
ExecReScanGroup((GroupState *) node);
break;
case T_AggState:
ExecReScanAgg((AggState *) node);
break;
case T_WindowAggState:
ExecReScanWindowAgg((WindowAggState *) node);
break;
case T_UniqueState:
ExecReScanUnique((UniqueState *) node);
break;
case T_HashState:
ExecReScanHash((HashState *) node);
break;
case T_SetOpState:
ExecReScanSetOp((SetOpState *) node);
break;
case T_LockRowsState:
ExecReScanLockRows((LockRowsState *) node);
break;
case T_LimitState:
ExecReScanLimit((LimitState *) node);
break;
default:
elog(ERROR, "unrecognized node type: %d", (int) nodeTag(node));
break;
}
if (node->chgParam != NULL)
{
bms_free(node->chgParam);
node->chgParam = NULL;
}
}
/*
* ExecMarkPos
*
* Marks the current scan position.
*
* NOTE: mark/restore capability is currently needed only for plan nodes
* that are the immediate inner child of a MergeJoin node. Since MergeJoin
* requires sorted input, there is never any need to support mark/restore in
* node types that cannot produce sorted output. There are some cases in
* which a node can pass through sorted data from its child; if we don't
* implement mark/restore for such a node type, the planner compensates by
* inserting a Material node above that node.
*/
void
ExecMarkPos(PlanState *node)
{
switch (nodeTag(node))
{
case T_IndexScanState:
ExecIndexMarkPos((IndexScanState *) node);
break;
case T_IndexOnlyScanState:
ExecIndexOnlyMarkPos((IndexOnlyScanState *) node);
break;
case T_CustomScanState:
ExecCustomMarkPos((CustomScanState *) node);
break;
case T_MaterialState:
ExecMaterialMarkPos((MaterialState *) node);
break;
case T_SortState:
ExecSortMarkPos((SortState *) node);
break;
case T_ResultState:
ExecResultMarkPos((ResultState *) node);
break;
default:
/* don't make hard error unless caller asks to restore... */
elog(DEBUG2, "unrecognized node type: %d", (int) nodeTag(node));
break;
}
}
/*
* ExecRestrPos
*
* restores the scan position previously saved with ExecMarkPos()
*
* NOTE: the semantics of this are that the first ExecProcNode following
* the restore operation will yield the same tuple as the first one following
* the mark operation. It is unspecified what happens to the plan node's
* result TupleTableSlot. (In most cases the result slot is unchanged by
* a restore, but the node may choose to clear it or to load it with the
* restored-to tuple.) Hence the caller should discard any previously
* returned TupleTableSlot after doing a restore.
*/
void
ExecRestrPos(PlanState *node)
{
switch (nodeTag(node))
{
case T_IndexScanState:
ExecIndexRestrPos((IndexScanState *) node);
break;
case T_IndexOnlyScanState:
ExecIndexOnlyRestrPos((IndexOnlyScanState *) node);
break;
case T_CustomScanState:
ExecCustomRestrPos((CustomScanState *) node);
break;
case T_MaterialState:
ExecMaterialRestrPos((MaterialState *) node);
break;
case T_SortState:
ExecSortRestrPos((SortState *) node);
break;
case T_ResultState:
ExecResultRestrPos((ResultState *) node);
break;
default:
elog(ERROR, "unrecognized node type: %d", (int) nodeTag(node));
break;
}
}
/*
* ExecSupportsMarkRestore - does a Path support mark/restore?
*
* This is used during planning and so must accept a Path, not a Plan.
* We keep it here to be adjacent to the routines above, which also must
* know which plan types support mark/restore.
*/
bool
ExecSupportsMarkRestore(Path *pathnode)
{
/*
* For consistency with the routines above, we do not examine the nodeTag
* but rather the pathtype, which is the Plan node type the Path would
* produce.
*/
switch (pathnode->pathtype)
{
case T_IndexScan:
case T_IndexOnlyScan:
/*
* Not all index types support mark/restore.
*/
return castNode(IndexPath, pathnode)->indexinfo->amcanmarkpos;
case T_Material:
case T_Sort:
return true;
case T_CustomScan:
if (castNode(CustomPath, pathnode)->flags & CUSTOMPATH_SUPPORT_MARK_RESTORE)
return true;
return false;
case T_Result:
/*
* Result supports mark/restore iff it has a child plan that does.
*
* We have to be careful here because there is more than one Path
* type that can produce a Result plan node.
*/
if (IsA(pathnode, ProjectionPath))
return ExecSupportsMarkRestore(((ProjectionPath *) pathnode)->subpath);
else if (IsA(pathnode, MinMaxAggPath))
return false; /* childless Result */
else if (IsA(pathnode, GroupResultPath))
return false; /* childless Result */
else
{
/* Simple RTE_RESULT base relation */
Assert(IsA(pathnode, Path));
return false; /* childless Result */
}
case T_Append:
{
AppendPath *appendPath = castNode(AppendPath, pathnode);
/*
* If there's exactly one child, then there will be no Append
* in the final plan, so we can handle mark/restore if the
* child plan node can.
*/
if (list_length(appendPath->subpaths) == 1)
return ExecSupportsMarkRestore((Path *) linitial(appendPath->subpaths));
/* Otherwise, Append can't handle it */
return false;
}
case T_MergeAppend:
{
MergeAppendPath *mapath = castNode(MergeAppendPath, pathnode);
/*
* Like the Append case above, single-subpath MergeAppends
* won't be in the final plan, so just return the child's
* mark/restore ability.
*/
if (list_length(mapath->subpaths) == 1)
return ExecSupportsMarkRestore((Path *) linitial(mapath->subpaths));
/* Otherwise, MergeAppend can't handle it */
return false;
}
default:
break;
}
return false;
}
/*
* ExecSupportsBackwardScan - does a plan type support backwards scanning?
*
* Ideally, all plan types would support backwards scan, but that seems
* unlikely to happen soon. In some cases, a plan node passes the backwards
* scan down to its children, and so supports backwards scan only if its
* children do. Therefore, this routine must be passed a complete plan tree.
*/
bool
ExecSupportsBackwardScan(Plan *node)
{
if (node == NULL)
return false;
/*
* Parallel-aware nodes return a subset of the tuples in each worker, and
* in general we can't expect to have enough bookkeeping state to know
* which ones we returned in this worker as opposed to some other worker.
*/
if (node->parallel_aware)
return false;
switch (nodeTag(node))
{
case T_Result:
if (outerPlan(node) != NULL)
return ExecSupportsBackwardScan(outerPlan(node));
else
return false;
case T_Append:
{
ListCell *l;
/* With async, tuples may be interleaved, so can't back up. */
if (((Append *) node)->nasyncplans > 0)
return false;
foreach(l, ((Append *) node)->appendplans)
{
if (!ExecSupportsBackwardScan((Plan *) lfirst(l)))
return false;
}
/* need not check tlist because Append doesn't evaluate it */
return true;
}
case T_SampleScan:
/* Simplify life for tablesample methods by disallowing this */
return false;
case T_Gather:
return false;
case T_IndexScan:
return IndexSupportsBackwardScan(((IndexScan *) node)->indexid);
case T_IndexOnlyScan:
return IndexSupportsBackwardScan(((IndexOnlyScan *) node)->indexid);
case T_SubqueryScan:
return ExecSupportsBackwardScan(((SubqueryScan *) node)->subplan);
case T_CustomScan:
if (((CustomScan *) node)->flags & CUSTOMPATH_SUPPORT_BACKWARD_SCAN)
return true;
return false;
case T_SeqScan:
case T_TidScan:
case T_TidRangeScan:
case T_FunctionScan:
case T_ValuesScan:
case T_CteScan:
case T_Material:
case T_Sort:
/* these don't evaluate tlist */
return true;
case T_IncrementalSort:
/*
* Unlike full sort, incremental sort keeps only a single group of
* tuples in memory, so it can't scan backwards.
*/
return false;
case T_LockRows:
case T_Limit:
return ExecSupportsBackwardScan(outerPlan(node));
default:
return false;
}
}
/*
* An IndexScan or IndexOnlyScan node supports backward scan only if the
* index's AM does.
*/
static bool
IndexSupportsBackwardScan(Oid indexid)
{
bool result;
HeapTuple ht_idxrel;
Form_pg_class idxrelrec;
IndexAmRoutine *amroutine;
/* Fetch the pg_class tuple of the index relation */
ht_idxrel = SearchSysCache1(RELOID, ObjectIdGetDatum(indexid));
if (!HeapTupleIsValid(ht_idxrel))
elog(ERROR, "cache lookup failed for relation %u", indexid);
idxrelrec = (Form_pg_class) GETSTRUCT(ht_idxrel);
/* Fetch the index AM's API struct */
amroutine = GetIndexAmRoutineByAmId(idxrelrec->relam, false);
result = amroutine->amcanbackward;
pfree(amroutine);
ReleaseSysCache(ht_idxrel);
return result;
}
/*
* ExecMaterializesOutput - does a plan type materialize its output?
*
* Returns true if the plan node type is one that automatically materializes
* its output (typically by keeping it in a tuplestore). For such plans,
* a rescan without any parameter change will have zero startup cost and
* very low per-tuple cost.
*/
bool
ExecMaterializesOutput(NodeTag plantype)
{
switch (plantype)
{
case T_Material:
case T_FunctionScan:
case T_TableFuncScan:
case T_CteScan:
case T_NamedTuplestoreScan:
case T_WorkTableScan:
case T_Sort:
return true;
default:
break;
}
return false;
}
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