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author | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-05-04 12:15:05 +0000 |
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committer | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-05-04 12:15:05 +0000 |
commit | 46651ce6fe013220ed397add242004d764fc0153 (patch) | |
tree | 6e5299f990f88e60174a1d3ae6e48eedd2688b2b /src/backend/executor/nodeTidrangescan.c | |
parent | Initial commit. (diff) | |
download | postgresql-14-upstream.tar.xz postgresql-14-upstream.zip |
Adding upstream version 14.5.upstream/14.5upstream
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'src/backend/executor/nodeTidrangescan.c')
-rw-r--r-- | src/backend/executor/nodeTidrangescan.c | 413 |
1 files changed, 413 insertions, 0 deletions
diff --git a/src/backend/executor/nodeTidrangescan.c b/src/backend/executor/nodeTidrangescan.c new file mode 100644 index 0000000..2b0d205 --- /dev/null +++ b/src/backend/executor/nodeTidrangescan.c @@ -0,0 +1,413 @@ +/*------------------------------------------------------------------------- + * + * nodeTidrangescan.c + * Routines to support TID range scans of relations + * + * Portions Copyright (c) 1996-2021, PostgreSQL Global Development Group + * Portions Copyright (c) 1994, Regents of the University of California + * + * + * IDENTIFICATION + * src/backend/executor/nodeTidrangescan.c + * + *------------------------------------------------------------------------- + */ +#include "postgres.h" + +#include "access/relscan.h" +#include "access/sysattr.h" +#include "access/tableam.h" +#include "catalog/pg_operator.h" +#include "executor/execdebug.h" +#include "executor/nodeTidrangescan.h" +#include "nodes/nodeFuncs.h" +#include "storage/bufmgr.h" +#include "utils/rel.h" + + +#define IsCTIDVar(node) \ + ((node) != NULL && \ + IsA((node), Var) && \ + ((Var *) (node))->varattno == SelfItemPointerAttributeNumber && \ + ((Var *) (node))->varlevelsup == 0) + +typedef enum +{ + TIDEXPR_UPPER_BOUND, + TIDEXPR_LOWER_BOUND +} TidExprType; + +/* Upper or lower range bound for scan */ +typedef struct TidOpExpr +{ + TidExprType exprtype; /* type of op; lower or upper */ + ExprState *exprstate; /* ExprState for a TID-yielding subexpr */ + bool inclusive; /* whether op is inclusive */ +} TidOpExpr; + +/* + * For the given 'expr', build and return an appropriate TidOpExpr taking into + * account the expr's operator and operand order. + */ +static TidOpExpr * +MakeTidOpExpr(OpExpr *expr, TidRangeScanState *tidstate) +{ + Node *arg1 = get_leftop((Expr *) expr); + Node *arg2 = get_rightop((Expr *) expr); + ExprState *exprstate = NULL; + bool invert = false; + TidOpExpr *tidopexpr; + + if (IsCTIDVar(arg1)) + exprstate = ExecInitExpr((Expr *) arg2, &tidstate->ss.ps); + else if (IsCTIDVar(arg2)) + { + exprstate = ExecInitExpr((Expr *) arg1, &tidstate->ss.ps); + invert = true; + } + else + elog(ERROR, "could not identify CTID variable"); + + tidopexpr = (TidOpExpr *) palloc(sizeof(TidOpExpr)); + tidopexpr->inclusive = false; /* for now */ + + switch (expr->opno) + { + case TIDLessEqOperator: + tidopexpr->inclusive = true; + /* fall through */ + case TIDLessOperator: + tidopexpr->exprtype = invert ? TIDEXPR_LOWER_BOUND : TIDEXPR_UPPER_BOUND; + break; + case TIDGreaterEqOperator: + tidopexpr->inclusive = true; + /* fall through */ + case TIDGreaterOperator: + tidopexpr->exprtype = invert ? TIDEXPR_UPPER_BOUND : TIDEXPR_LOWER_BOUND; + break; + default: + elog(ERROR, "could not identify CTID operator"); + } + + tidopexpr->exprstate = exprstate; + + return tidopexpr; +} + +/* + * Extract the qual subexpressions that yield TIDs to search for, + * and compile them into ExprStates if they're ordinary expressions. + */ +static void +TidExprListCreate(TidRangeScanState *tidrangestate) +{ + TidRangeScan *node = (TidRangeScan *) tidrangestate->ss.ps.plan; + List *tidexprs = NIL; + ListCell *l; + + foreach(l, node->tidrangequals) + { + OpExpr *opexpr = lfirst(l); + TidOpExpr *tidopexpr; + + if (!IsA(opexpr, OpExpr)) + elog(ERROR, "could not identify CTID expression"); + + tidopexpr = MakeTidOpExpr(opexpr, tidrangestate); + tidexprs = lappend(tidexprs, tidopexpr); + } + + tidrangestate->trss_tidexprs = tidexprs; +} + +/* ---------------------------------------------------------------- + * TidRangeEval + * + * Compute and set node's block and offset range to scan by evaluating + * the trss_tidexprs. Returns false if we detect the range cannot + * contain any tuples. Returns true if it's possible for the range to + * contain tuples. + * ---------------------------------------------------------------- + */ +static bool +TidRangeEval(TidRangeScanState *node) +{ + ExprContext *econtext = node->ss.ps.ps_ExprContext; + ItemPointerData lowerBound; + ItemPointerData upperBound; + ListCell *l; + + /* + * Set the upper and lower bounds to the absolute limits of the range of + * the ItemPointer type. Below we'll try to narrow this range on either + * side by looking at the TidOpExprs. + */ + ItemPointerSet(&lowerBound, 0, 0); + ItemPointerSet(&upperBound, InvalidBlockNumber, PG_UINT16_MAX); + + foreach(l, node->trss_tidexprs) + { + TidOpExpr *tidopexpr = (TidOpExpr *) lfirst(l); + ItemPointer itemptr; + bool isNull; + + /* Evaluate this bound. */ + itemptr = (ItemPointer) + DatumGetPointer(ExecEvalExprSwitchContext(tidopexpr->exprstate, + econtext, + &isNull)); + + /* If the bound is NULL, *nothing* matches the qual. */ + if (isNull) + return false; + + if (tidopexpr->exprtype == TIDEXPR_LOWER_BOUND) + { + ItemPointerData lb; + + ItemPointerCopy(itemptr, &lb); + + /* + * Normalize non-inclusive ranges to become inclusive. The + * resulting ItemPointer here may not be a valid item pointer. + */ + if (!tidopexpr->inclusive) + ItemPointerInc(&lb); + + /* Check if we can narrow the range using this qual */ + if (ItemPointerCompare(&lb, &lowerBound) > 0) + ItemPointerCopy(&lb, &lowerBound); + } + + else if (tidopexpr->exprtype == TIDEXPR_UPPER_BOUND) + { + ItemPointerData ub; + + ItemPointerCopy(itemptr, &ub); + + /* + * Normalize non-inclusive ranges to become inclusive. The + * resulting ItemPointer here may not be a valid item pointer. + */ + if (!tidopexpr->inclusive) + ItemPointerDec(&ub); + + /* Check if we can narrow the range using this qual */ + if (ItemPointerCompare(&ub, &upperBound) < 0) + ItemPointerCopy(&ub, &upperBound); + } + } + + ItemPointerCopy(&lowerBound, &node->trss_mintid); + ItemPointerCopy(&upperBound, &node->trss_maxtid); + + return true; +} + +/* ---------------------------------------------------------------- + * TidRangeNext + * + * Retrieve a tuple from the TidRangeScan node's currentRelation + * using the TIDs in the TidRangeScanState information. + * + * ---------------------------------------------------------------- + */ +static TupleTableSlot * +TidRangeNext(TidRangeScanState *node) +{ + TableScanDesc scandesc; + EState *estate; + ScanDirection direction; + TupleTableSlot *slot; + + /* + * extract necessary information from TID scan node + */ + scandesc = node->ss.ss_currentScanDesc; + estate = node->ss.ps.state; + slot = node->ss.ss_ScanTupleSlot; + direction = estate->es_direction; + + if (!node->trss_inScan) + { + /* First time through, compute TID range to scan */ + if (!TidRangeEval(node)) + return NULL; + + if (scandesc == NULL) + { + scandesc = table_beginscan_tidrange(node->ss.ss_currentRelation, + estate->es_snapshot, + &node->trss_mintid, + &node->trss_maxtid); + node->ss.ss_currentScanDesc = scandesc; + } + else + { + /* rescan with the updated TID range */ + table_rescan_tidrange(scandesc, &node->trss_mintid, + &node->trss_maxtid); + } + + node->trss_inScan = true; + } + + /* Fetch the next tuple. */ + if (!table_scan_getnextslot_tidrange(scandesc, direction, slot)) + { + node->trss_inScan = false; + ExecClearTuple(slot); + } + + return slot; +} + +/* + * TidRangeRecheck -- access method routine to recheck a tuple in EvalPlanQual + */ +static bool +TidRangeRecheck(TidRangeScanState *node, TupleTableSlot *slot) +{ + return true; +} + +/* ---------------------------------------------------------------- + * ExecTidRangeScan(node) + * + * Scans the relation using tids and returns the next qualifying tuple. + * We call the ExecScan() routine and pass it the appropriate + * access method functions. + * + * Conditions: + * -- the "cursor" maintained by the AMI is positioned at the tuple + * returned previously. + * + * Initial States: + * -- the relation indicated is opened for TID range scanning. + * ---------------------------------------------------------------- + */ +static TupleTableSlot * +ExecTidRangeScan(PlanState *pstate) +{ + TidRangeScanState *node = castNode(TidRangeScanState, pstate); + + return ExecScan(&node->ss, + (ExecScanAccessMtd) TidRangeNext, + (ExecScanRecheckMtd) TidRangeRecheck); +} + +/* ---------------------------------------------------------------- + * ExecReScanTidRangeScan(node) + * ---------------------------------------------------------------- + */ +void +ExecReScanTidRangeScan(TidRangeScanState *node) +{ + /* mark scan as not in progress, and tid range list as not computed yet */ + node->trss_inScan = false; + + /* + * We must wait until TidRangeNext before calling table_rescan_tidrange. + */ + ExecScanReScan(&node->ss); +} + +/* ---------------------------------------------------------------- + * ExecEndTidRangeScan + * + * Releases any storage allocated through C routines. + * Returns nothing. + * ---------------------------------------------------------------- + */ +void +ExecEndTidRangeScan(TidRangeScanState *node) +{ + TableScanDesc scan = node->ss.ss_currentScanDesc; + + if (scan != NULL) + table_endscan(scan); + + /* + * Free the exprcontext + */ + ExecFreeExprContext(&node->ss.ps); + + /* + * clear out tuple table slots + */ + if (node->ss.ps.ps_ResultTupleSlot) + ExecClearTuple(node->ss.ps.ps_ResultTupleSlot); + ExecClearTuple(node->ss.ss_ScanTupleSlot); +} + +/* ---------------------------------------------------------------- + * ExecInitTidRangeScan + * + * Initializes the tid range scan's state information, creates + * scan keys, and opens the scan relation. + * + * Parameters: + * node: TidRangeScan node produced by the planner. + * estate: the execution state initialized in InitPlan. + * ---------------------------------------------------------------- + */ +TidRangeScanState * +ExecInitTidRangeScan(TidRangeScan *node, EState *estate, int eflags) +{ + TidRangeScanState *tidrangestate; + Relation currentRelation; + + /* + * create state structure + */ + tidrangestate = makeNode(TidRangeScanState); + tidrangestate->ss.ps.plan = (Plan *) node; + tidrangestate->ss.ps.state = estate; + tidrangestate->ss.ps.ExecProcNode = ExecTidRangeScan; + + /* + * Miscellaneous initialization + * + * create expression context for node + */ + ExecAssignExprContext(estate, &tidrangestate->ss.ps); + + /* + * mark scan as not in progress, and TID range as not computed yet + */ + tidrangestate->trss_inScan = false; + + /* + * open the scan relation + */ + currentRelation = ExecOpenScanRelation(estate, node->scan.scanrelid, eflags); + + tidrangestate->ss.ss_currentRelation = currentRelation; + tidrangestate->ss.ss_currentScanDesc = NULL; /* no table scan here */ + + /* + * get the scan type from the relation descriptor. + */ + ExecInitScanTupleSlot(estate, &tidrangestate->ss, + RelationGetDescr(currentRelation), + table_slot_callbacks(currentRelation)); + + /* + * Initialize result type and projection. + */ + ExecInitResultTypeTL(&tidrangestate->ss.ps); + ExecAssignScanProjectionInfo(&tidrangestate->ss); + + /* + * initialize child expressions + */ + tidrangestate->ss.ps.qual = + ExecInitQual(node->scan.plan.qual, (PlanState *) tidrangestate); + + TidExprListCreate(tidrangestate); + + /* + * all done. + */ + return tidrangestate; +} |