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/*-------------------------------------------------------------------------
*
* nodeTidscan.c
* Routines to support direct tid scans of relations
*
* Portions Copyright (c) 1996-2003, PostgreSQL Global Development Group
* Portions Copyright (c) 1994, Regents of the University of California
*
*
* IDENTIFICATION
* $Header: /cvsroot/pgsql/src/backend/executor/nodeTidscan.c,v 1.35 2003/09/26 01:17:01 tgl Exp $
*
*-------------------------------------------------------------------------
*/
/*
* INTERFACE ROUTINES
*
* ExecTidScan scans a relation using tids
* ExecInitTidScan creates and initializes state info.
* ExecTidReScan rescans the tid relation.
* ExecEndTidScan releases all storage.
* ExecTidMarkPos marks scan position.
* ExecTidRestrPos restores scan position.
*/
#include "postgres.h"
#include "executor/execdebug.h"
#include "executor/nodeTidscan.h"
#include "access/heapam.h"
#include "parser/parsetree.h"
static void TidListCreate(TidScanState *tidstate);
static TupleTableSlot *TidNext(TidScanState *node);
/*
* Compute the list of TIDs to be visited, by evaluating the expressions
* for them.
*/
static void
TidListCreate(TidScanState *tidstate)
{
List *evalList = tidstate->tss_tideval;
ExprContext *econtext = tidstate->ss.ps.ps_ExprContext;
ItemPointerData *tidList;
int numTids = 0;
List *lst;
tidList = (ItemPointerData *)
palloc(length(tidstate->tss_tideval) * sizeof(ItemPointerData));
foreach(lst, evalList)
{
ItemPointer itemptr;
bool isNull;
itemptr = (ItemPointer)
DatumGetPointer(ExecEvalExprSwitchContext(lfirst(lst),
econtext,
&isNull,
NULL));
if (!isNull && itemptr && ItemPointerIsValid(itemptr))
{
tidList[numTids] = *itemptr;
numTids++;
}
}
tidstate->tss_TidList = tidList;
tidstate->tss_NumTids = numTids;
tidstate->tss_TidPtr = -1;
}
/* ----------------------------------------------------------------
* TidNext
*
* Retrieve a tuple from the TidScan node's currentRelation
* using the tids in the TidScanState information.
*
* ----------------------------------------------------------------
*/
static TupleTableSlot *
TidNext(TidScanState *node)
{
EState *estate;
ScanDirection direction;
Snapshot snapshot;
Relation heapRelation;
HeapTuple tuple;
TupleTableSlot *slot;
Index scanrelid;
Buffer buffer = InvalidBuffer;
ItemPointerData *tidList;
int numTids;
bool bBackward;
int tidNumber;
/*
* extract necessary information from tid scan node
*/
estate = node->ss.ps.state;
direction = estate->es_direction;
snapshot = estate->es_snapshot;
heapRelation = node->ss.ss_currentRelation;
slot = node->ss.ss_ScanTupleSlot;
scanrelid = ((TidScan *) node->ss.ps.plan)->scan.scanrelid;
/*
* Check if we are evaluating PlanQual for tuple of this relation.
* Additional checking is not good, but no other way for now. We could
* introduce new nodes for this case and handle TidScan --> NewNode
* switching in Init/ReScan plan...
*/
if (estate->es_evTuple != NULL &&
estate->es_evTuple[scanrelid - 1] != NULL)
{
ExecClearTuple(slot);
if (estate->es_evTupleNull[scanrelid - 1])
return slot; /* return empty slot */
/*
* XXX shouldn't we check here to make sure tuple matches TID
* list? In runtime-key case this is not certain, is it?
*/
ExecStoreTuple(estate->es_evTuple[scanrelid - 1],
slot, InvalidBuffer, false);
/* Flag for the next call that no more tuples */
estate->es_evTupleNull[scanrelid - 1] = true;
return (slot);
}
/*
* First time through, compute the list of TIDs to be visited
*/
if (node->tss_TidList == NULL)
TidListCreate(node);
tidList = node->tss_TidList;
numTids = node->tss_NumTids;
tuple = &(node->tss_htup);
/*
* ok, now that we have what we need, fetch an tid tuple. if scanning
* this tid succeeded then return the appropriate heap tuple.. else
* return NULL.
*/
bBackward = ScanDirectionIsBackward(direction);
if (bBackward)
{
tidNumber = numTids - node->tss_TidPtr - 1;
if (tidNumber < 0)
{
tidNumber = 0;
node->tss_TidPtr = numTids - 1;
}
}
else
{
if ((tidNumber = node->tss_TidPtr) < 0)
{
tidNumber = 0;
node->tss_TidPtr = 0;
}
}
while (tidNumber < numTids)
{
bool slot_is_valid = false;
tuple->t_self = tidList[node->tss_TidPtr];
if (heap_fetch(heapRelation, snapshot, tuple, &buffer, false, NULL))
{
bool prev_matches = false;
int prev_tid;
/*
* store the scanned tuple in the scan tuple slot of the scan
* state. Eventually we will only do this and not return a
* tuple. Note: we pass 'false' because tuples returned by
* amgetnext are pointers onto disk pages and were not created
* with palloc() and so should not be pfree()'d.
*/
ExecStoreTuple(tuple, /* tuple to store */
slot, /* slot to store in */
buffer, /* buffer associated with tuple */
false); /* don't pfree */
/*
* At this point we have an extra pin on the buffer, because
* ExecStoreTuple incremented the pin count. Drop our local
* pin.
*/
ReleaseBuffer(buffer);
/*
* We must check to see if the current tuple would have been
* matched by an earlier tid, so we don't double report it.
*/
for (prev_tid = 0; prev_tid < node->tss_TidPtr;
prev_tid++)
{
if (ItemPointerEquals(&tidList[prev_tid], &tuple->t_self))
{
prev_matches = true;
break;
}
}
if (!prev_matches)
slot_is_valid = true;
else
ExecClearTuple(slot);
}
tidNumber++;
if (bBackward)
node->tss_TidPtr--;
else
node->tss_TidPtr++;
if (slot_is_valid)
return slot;
}
/*
* if we get here it means the tid scan failed so we are at the end of
* the scan..
*/
return ExecClearTuple(slot);
}
/* ----------------------------------------------------------------
* ExecTidScan(node)
*
* Scans the relation using tids and returns
* the next qualifying tuple in the direction specified.
* It calls ExecScan() and passes it the access methods which returns
* the next tuple using the tids.
*
* Conditions:
* -- the "cursor" maintained by the AMI is positioned at the tuple
* returned previously.
*
* Initial States:
* -- the relation indicated is opened for scanning so that the
* "cursor" is positioned before the first qualifying tuple.
* -- tidPtr points to the first tid.
* -- state variable ruleFlag = nil.
* ----------------------------------------------------------------
*/
TupleTableSlot *
ExecTidScan(TidScanState *node)
{
/*
* use TidNext as access method
*/
return ExecScan(&node->ss, (ExecScanAccessMtd) TidNext);
}
/* ----------------------------------------------------------------
* ExecTidReScan(node)
* ----------------------------------------------------------------
*/
void
ExecTidReScan(TidScanState *node, ExprContext *exprCtxt)
{
EState *estate;
Index scanrelid;
estate = node->ss.ps.state;
scanrelid = ((TidScan *) node->ss.ps.plan)->scan.scanrelid;
/* If we are being passed an outer tuple, save it for runtime key calc */
if (exprCtxt != NULL)
node->ss.ps.ps_ExprContext->ecxt_outertuple =
exprCtxt->ecxt_outertuple;
/* If this is re-scanning of PlanQual ... */
if (estate->es_evTuple != NULL &&
estate->es_evTuple[scanrelid - 1] != NULL)
{
estate->es_evTupleNull[scanrelid - 1] = false;
return;
}
if (node->tss_TidList)
pfree(node->tss_TidList);
node->tss_TidList = NULL;
node->tss_NumTids = 0;
node->tss_TidPtr = -1;
}
/* ----------------------------------------------------------------
* ExecEndTidScan
*
* Releases any storage allocated through C routines.
* Returns nothing.
* ----------------------------------------------------------------
*/
void
ExecEndTidScan(TidScanState *node)
{
/*
* Free the exprcontext
*/
ExecFreeExprContext(&node->ss.ps);
/*
* clear out tuple table slots
*/
ExecClearTuple(node->ss.ps.ps_ResultTupleSlot);
ExecClearTuple(node->ss.ss_ScanTupleSlot);
/*
* close the heap relation.
*
* Currently, we do not release the AccessShareLock acquired by
* ExecInitTidScan. This lock should be held till end of transaction.
* (There is a faction that considers this too much locking, however.)
*/
heap_close(node->ss.ss_currentRelation, NoLock);
}
/* ----------------------------------------------------------------
* ExecTidMarkPos
*
* Marks scan position by marking the current tid.
* Returns nothing.
* ----------------------------------------------------------------
*/
void
ExecTidMarkPos(TidScanState *node)
{
node->tss_MarkTidPtr = node->tss_TidPtr;
}
/* ----------------------------------------------------------------
* ExecTidRestrPos
*
* Restores scan position by restoring the current tid.
* Returns nothing.
*
* XXX Assumes previously marked scan position belongs to current tid
* ----------------------------------------------------------------
*/
void
ExecTidRestrPos(TidScanState *node)
{
node->tss_TidPtr = node->tss_MarkTidPtr;
}
/* ----------------------------------------------------------------
* ExecInitTidScan
*
* Initializes the tid scan's state information, creates
* scan keys, and opens the base and tid relations.
*
* Parameters:
* node: TidNode node produced by the planner.
* estate: the execution state initialized in InitPlan.
* ----------------------------------------------------------------
*/
TidScanState *
ExecInitTidScan(TidScan *node, EState *estate)
{
TidScanState *tidstate;
List *rangeTable;
RangeTblEntry *rtentry;
Oid relid;
Oid reloid;
Relation currentRelation;
Bitmapset *execParam = NULL;
/*
* create state structure
*/
tidstate = makeNode(TidScanState);
tidstate->ss.ps.plan = (Plan *) node;
tidstate->ss.ps.state = estate;
/*
* Miscellaneous initialization
*
* create expression context for node
*/
ExecAssignExprContext(estate, &tidstate->ss.ps);
/*
* initialize child expressions
*/
tidstate->ss.ps.targetlist = (List *)
ExecInitExpr((Expr *) node->scan.plan.targetlist,
(PlanState *) tidstate);
tidstate->ss.ps.qual = (List *)
ExecInitExpr((Expr *) node->scan.plan.qual,
(PlanState *) tidstate);
tidstate->tss_tideval = (List *)
ExecInitExpr((Expr *) node->tideval,
(PlanState *) tidstate);
#define TIDSCAN_NSLOTS 2
/*
* tuple table initialization
*/
ExecInitResultTupleSlot(estate, &tidstate->ss.ps);
ExecInitScanTupleSlot(estate, &tidstate->ss);
/*
* mark tid list as not computed yet
*/
tidstate->tss_TidList = NULL;
tidstate->tss_NumTids = 0;
tidstate->tss_TidPtr = -1;
/*
* get the range table and direction information from the execution
* state (these are needed to open the relations).
*/
rangeTable = estate->es_range_table;
/*
* open the base relation
*
* We acquire AccessShareLock for the duration of the scan.
*/
relid = node->scan.scanrelid;
rtentry = rt_fetch(relid, rangeTable);
reloid = rtentry->relid;
currentRelation = heap_open(reloid, AccessShareLock);
tidstate->ss.ss_currentRelation = currentRelation;
tidstate->ss.ss_currentScanDesc = NULL; /* no heap scan here */
/*
* get the scan type from the relation descriptor.
*/
ExecAssignScanType(&tidstate->ss, RelationGetDescr(currentRelation), false);
/*
* if there are some PARAM_EXEC in skankeys then force tid rescan on
* first scan.
*/
tidstate->ss.ps.chgParam = execParam;
/*
* Initialize result tuple type and projection info.
*/
ExecAssignResultTypeFromTL(&tidstate->ss.ps);
ExecAssignScanProjectionInfo(&tidstate->ss);
/*
* all done.
*/
return tidstate;
}
int
ExecCountSlotsTidScan(TidScan *node)
{
return ExecCountSlotsNode(outerPlan((Plan *) node)) +
ExecCountSlotsNode(innerPlan((Plan *) node)) + TIDSCAN_NSLOTS;
}
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