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postgres/src/backend/nodes/outfuncs.c
Tom Lane 6543d81d65 Restructure handling of inheritance queries so that they work with outer 
joins, and clean things up a good deal at the same time.  Append plan node
no longer hacks on rangetable at runtime --- instead, all child tables are
given their own RT entries during planning.  Concept of multiple target
tables pushed up into execMain, replacing bug-prone implementation within
nodeAppend.  Planner now supports generating Append plans for inheritance
sets either at the top of the plan (the old way) or at the bottom.  Expanding
at the bottom is appropriate for tables used as sources, since they may
appear inside an outer join; but we must still expand at the top when the
target of an UPDATE or DELETE is an inheritance set, because we actually need
a different targetlist and junkfilter for each target table in that case.
Fortunately a target table can't be inside an outer join...  Bizarre mutual
recursion between union_planner and prepunion.c is gone --- in fact,
union_planner doesn't really have much to do with union queries anymore,
so I renamed it grouping_planner.
2000-11-12 00:37:02 +00:00

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/*
*
* outfuncs.c
* routines to convert a node to ascii representation
*
* Portions Copyright (c) 1996-2000, PostgreSQL, Inc
* Portions Copyright (c) 1994, Regents of the University of California
*
* $Header: /cvsroot/pgsql/src/backend/nodes/outfuncs.c,v 1.132 2000/11/12 00:36:57 tgl Exp $
*
* NOTES
* Every (plan) node in POSTGRES has an associated "out" routine which
* knows how to create its ascii representation. These functions are
* useful for debugging as well as for storing plans in the system
* catalogs (eg. indexes). This is also the plan string sent out in
* Mariposa.
*
* These functions update the in/out argument of type StringInfo
* passed to them. This argument contains the string holding the ASCII
* representation plus some other information (string length, etc.)
*
*/
#include "postgres.h"
#include <ctype.h>
#include "access/heapam.h"
#include "access/htup.h"
#include "catalog/pg_type.h"
#include "fmgr.h"
#include "lib/stringinfo.h"
#include "nodes/execnodes.h"
#include "nodes/nodes.h"
#include "nodes/parsenodes.h"
#include "nodes/pg_list.h"
#include "nodes/plannodes.h"
#include "nodes/primnodes.h"
#include "nodes/relation.h"
#include "parser/parse.h"
#include "utils/datum.h"
#include "utils/lsyscache.h"
#include "utils/syscache.h"
static void _outDatum(StringInfo str, Datum value, Oid type);
static void _outNode(StringInfo str, void *obj);
/*
* _outToken
* Convert an ordinary string (eg, an identifier) into a form that
* will be decoded back to a plain token by read.c's functions.
*
* If a null or empty string is given, it is encoded as "<>".
*/
static void
_outToken(StringInfo str, char *s)
{
if (s == NULL || *s == '\0')
{
appendStringInfo(str, "<>");
return;
}
/*
* Look for characters or patterns that are treated specially by
* read.c (either in lsptok() or in nodeRead()), and therefore need a
* protective backslash.
*/
/* These characters only need to be quoted at the start of the string */
if (*s == '<' ||
*s == '\"' ||
*s == '@' ||
isdigit((int) *s) ||
(*s == '-' && isdigit((int) s[1])))
appendStringInfoChar(str, '\\');
while (*s)
{
/* These chars must be backslashed anywhere in the string */
if (*s == ' ' || *s == '\n' || *s == '\t' ||
*s == '(' || *s == ')' || *s == '{' || *s == '}' ||
*s == '\\')
appendStringInfoChar(str, '\\');
appendStringInfoChar(str, *s++);
}
}
/*
* _outIntList -
* converts a List of integers
*/
static void
_outIntList(StringInfo str, List *list)
{
List *l;
appendStringInfoChar(str, '(');
foreach(l, list)
appendStringInfo(str, " %d", lfirsti(l));
appendStringInfoChar(str, ')');
}
static void
_outCreateStmt(StringInfo str, CreateStmt *node)
{
appendStringInfo(str, " CREATE :relname ");
_outToken(str, node->relname);
appendStringInfo(str, " :istemp %s ",
node->istemp ? "true" : "false");
appendStringInfo(str, " :columns ");
_outNode(str, node->tableElts);
appendStringInfo(str, " :inhRelnames ");
_outNode(str, node->inhRelnames);
appendStringInfo(str, " :constraints ");
_outNode(str, node->constraints);
}
static void
_outIndexStmt(StringInfo str, IndexStmt *node)
{
appendStringInfo(str, " INDEX :idxname ");
_outToken(str, node->idxname);
appendStringInfo(str, " :relname ");
_outToken(str, node->relname);
appendStringInfo(str, " :accessMethod ");
_outToken(str, node->accessMethod);
appendStringInfo(str, " :indexParams ");
_outNode(str, node->indexParams);
appendStringInfo(str, " :withClause ");
_outNode(str, node->withClause);
appendStringInfo(str, " :whereClause ");
_outNode(str, node->whereClause);
appendStringInfo(str, " :rangetable ");
_outNode(str, node->rangetable);
appendStringInfo(str, " :unique %s :primary %s ",
node->unique ? "true" : "false",
node->primary ? "true" : "false");
}
static void
_outSelectStmt(StringInfo str, SelectStmt *node)
{
/* XXX this is pretty durn incomplete */
appendStringInfo(str, "SELECT :where ");
_outNode(str, node->whereClause);
}
static void
_outFuncCall(StringInfo str, FuncCall *node)
{
appendStringInfo(str, "FUNCTION ");
_outToken(str, node->funcname);
appendStringInfo(str, " :args ");
_outNode(str, node->args);
appendStringInfo(str, " :agg_star %s :agg_distinct %s ",
node->agg_star ? "true" : "false",
node->agg_distinct ? "true" : "false");
}
static void
_outColumnDef(StringInfo str, ColumnDef *node)
{
appendStringInfo(str, " COLUMNDEF :colname ");
_outToken(str, node->colname);
appendStringInfo(str, " :typename ");
_outNode(str, node->typename);
appendStringInfo(str, " :is_not_null %s :is_sequence %s :raw_default ",
node->is_not_null ? "true" : "false",
node->is_sequence ? "true" : "false");
_outNode(str, node->raw_default);
appendStringInfo(str, " :cooked_default ");
_outToken(str, node->cooked_default);
appendStringInfo(str, " :constraints ");
_outNode(str, node->constraints);
}
static void
_outTypeName(StringInfo str, TypeName *node)
{
appendStringInfo(str, " TYPENAME :name ");
_outToken(str, node->name);
appendStringInfo(str, " :timezone %s :setof %s typmod %d :arrayBounds ",
node->timezone ? "true" : "false",
node->setof ? "true" : "false",
node->typmod);
_outNode(str, node->arrayBounds);
}
static void
_outTypeCast(StringInfo str, TypeCast *node)
{
appendStringInfo(str, " TYPECAST :arg ");
_outNode(str, node->arg);
appendStringInfo(str, " :typename ");
_outNode(str, node->typename);
}
static void
_outIndexElem(StringInfo str, IndexElem *node)
{
appendStringInfo(str, " INDEXELEM :name ");
_outToken(str, node->name);
appendStringInfo(str, " :args ");
_outNode(str, node->args);
appendStringInfo(str, " :class ");
_outToken(str, node->class);
}
static void
_outQuery(StringInfo str, Query *node)
{
appendStringInfo(str, " QUERY :command %d ", node->commandType);
if (node->utilityStmt)
{
/*
* Hack to make up for lack of outfuncs for utility-stmt nodes
*/
switch (nodeTag(node->utilityStmt))
{
case T_CreateStmt:
appendStringInfo(str, " :create ");
_outToken(str, ((CreateStmt *) (node->utilityStmt))->relname);
appendStringInfo(str, " ");
_outNode(str, node->utilityStmt);
break;
case T_IndexStmt:
appendStringInfo(str, " :index ");
_outToken(str, ((IndexStmt *) (node->utilityStmt))->idxname);
appendStringInfo(str, " on ");
_outToken(str, ((IndexStmt *) (node->utilityStmt))->relname);
appendStringInfo(str, " ");
_outNode(str, node->utilityStmt);
break;
case T_NotifyStmt:
appendStringInfo(str, " :notify ");
_outToken(str, ((NotifyStmt *) (node->utilityStmt))->relname);
break;
default:
appendStringInfo(str, " :utility ? ");
}
}
else
appendStringInfo(str, " :utility <>");
appendStringInfo(str, " :resultRelation %d :into ",
node->resultRelation);
_outToken(str, node->into);
appendStringInfo(str, " :isPortal %s :isBinary %s :isTemp %s"
" :hasAggs %s :hasSubLinks %s :rtable ",
node->isPortal ? "true" : "false",
node->isBinary ? "true" : "false",
node->isTemp ? "true" : "false",
node->hasAggs ? "true" : "false",
node->hasSubLinks ? "true" : "false");
_outNode(str, node->rtable);
appendStringInfo(str, " :jointree ");
_outNode(str, node->jointree);
appendStringInfo(str, " :rowMarks ");
_outIntList(str, node->rowMarks);
appendStringInfo(str, " :targetList ");
_outNode(str, node->targetList);
appendStringInfo(str, " :groupClause ");
_outNode(str, node->groupClause);
appendStringInfo(str, " :havingQual ");
_outNode(str, node->havingQual);
appendStringInfo(str, " :distinctClause ");
_outNode(str, node->distinctClause);
appendStringInfo(str, " :sortClause ");
_outNode(str, node->sortClause);
appendStringInfo(str, " :limitOffset ");
_outNode(str, node->limitOffset);
appendStringInfo(str, " :limitCount ");
_outNode(str, node->limitCount);
appendStringInfo(str, " :setOperations ");
_outNode(str, node->setOperations);
appendStringInfo(str, " :resultRelations ");
_outIntList(str, node->resultRelations);
}
static void
_outSortClause(StringInfo str, SortClause *node)
{
appendStringInfo(str, " SORTCLAUSE :tleSortGroupRef %d :sortop %u ",
node->tleSortGroupRef, node->sortop);
}
static void
_outGroupClause(StringInfo str, GroupClause *node)
{
appendStringInfo(str, " GROUPCLAUSE :tleSortGroupRef %d :sortop %u ",
node->tleSortGroupRef, node->sortop);
}
static void
_outSetOperationStmt(StringInfo str, SetOperationStmt *node)
{
appendStringInfo(str, " SETOPERATIONSTMT :op %d :all %s :larg ",
(int) node->op,
node->all ? "true" : "false");
_outNode(str, node->larg);
appendStringInfo(str, " :rarg ");
_outNode(str, node->rarg);
appendStringInfo(str, " :colTypes ");
_outIntList(str, node->colTypes);
}
/*
* print the basic stuff of all nodes that inherit from Plan
*
* NOTE: we deliberately omit the execution state (EState)
*/
static void
_outPlanInfo(StringInfo str, Plan *node)
{
appendStringInfo(str,
":startup_cost %.2f :total_cost %.2f :rows %.0f :width %d :qptargetlist ",
node->startup_cost,
node->total_cost,
node->plan_rows,
node->plan_width);
_outNode(str, node->targetlist);
appendStringInfo(str, " :qpqual ");
_outNode(str, node->qual);
appendStringInfo(str, " :lefttree ");
_outNode(str, node->lefttree);
appendStringInfo(str, " :righttree ");
_outNode(str, node->righttree);
appendStringInfo(str, " :extprm ");
_outIntList(str, node->extParam);
appendStringInfo(str, " :locprm ");
_outIntList(str, node->locParam);
appendStringInfo(str, " :initplan ");
_outNode(str, node->initPlan);
appendStringInfo(str, " :nprm %d ", node->nParamExec);
}
/*
* Stuff from plannodes.h
*/
static void
_outPlan(StringInfo str, Plan *node)
{
appendStringInfo(str, " PLAN ");
_outPlanInfo(str, (Plan *) node);
}
static void
_outResult(StringInfo str, Result *node)
{
appendStringInfo(str, " RESULT ");
_outPlanInfo(str, (Plan *) node);
appendStringInfo(str, " :resconstantqual ");
_outNode(str, node->resconstantqual);
}
/*
* Append is a subclass of Plan.
*/
static void
_outAppend(StringInfo str, Append *node)
{
appendStringInfo(str, " APPEND ");
_outPlanInfo(str, (Plan *) node);
appendStringInfo(str, " :appendplans ");
_outNode(str, node->appendplans);
appendStringInfo(str, " :isTarget %s ",
node->isTarget ? "true" : "false");
}
/*
* Join is a subclass of Plan
*/
static void
_outJoin(StringInfo str, Join *node)
{
appendStringInfo(str, " JOIN ");
_outPlanInfo(str, (Plan *) node);
appendStringInfo(str, " :jointype %d :joinqual ",
(int) node->jointype);
_outNode(str, node->joinqual);
}
/*
* NestLoop is a subclass of Join
*/
static void
_outNestLoop(StringInfo str, NestLoop *node)
{
appendStringInfo(str, " NESTLOOP ");
_outPlanInfo(str, (Plan *) node);
appendStringInfo(str, " :jointype %d :joinqual ",
(int) node->join.jointype);
_outNode(str, node->join.joinqual);
}
/*
* MergeJoin is a subclass of Join
*/
static void
_outMergeJoin(StringInfo str, MergeJoin *node)
{
appendStringInfo(str, " MERGEJOIN ");
_outPlanInfo(str, (Plan *) node);
appendStringInfo(str, " :jointype %d :joinqual ",
(int) node->join.jointype);
_outNode(str, node->join.joinqual);
appendStringInfo(str, " :mergeclauses ");
_outNode(str, node->mergeclauses);
}
/*
* HashJoin is a subclass of Join.
*/
static void
_outHashJoin(StringInfo str, HashJoin *node)
{
appendStringInfo(str, " HASHJOIN ");
_outPlanInfo(str, (Plan *) node);
appendStringInfo(str, " :jointype %d :joinqual ",
(int) node->join.jointype);
_outNode(str, node->join.joinqual);
appendStringInfo(str, " :hashclauses ");
_outNode(str, node->hashclauses);
appendStringInfo(str, " :hashjoinop %u ",
node->hashjoinop);
}
static void
_outSubPlan(StringInfo str, SubPlan *node)
{
appendStringInfo(str, " SUBPLAN :plan ");
_outNode(str, node->plan);
appendStringInfo(str, " :planid %u :rtable ", node->plan_id);
_outNode(str, node->rtable);
appendStringInfo(str, " :setprm ");
_outIntList(str, node->setParam);
appendStringInfo(str, " :parprm ");
_outIntList(str, node->parParam);
appendStringInfo(str, " :slink ");
_outNode(str, node->sublink);
}
/*
* Scan is a subclass of Node
*/
static void
_outScan(StringInfo str, Scan *node)
{
appendStringInfo(str, " SCAN ");
_outPlanInfo(str, (Plan *) node);
appendStringInfo(str, " :scanrelid %u ", node->scanrelid);
}
/*
* SeqScan is a subclass of Scan
*/
static void
_outSeqScan(StringInfo str, SeqScan *node)
{
appendStringInfo(str, " SEQSCAN ");
_outPlanInfo(str, (Plan *) node);
appendStringInfo(str, " :scanrelid %u ", node->scanrelid);
}
/*
* IndexScan is a subclass of Scan
*/
static void
_outIndexScan(StringInfo str, IndexScan *node)
{
appendStringInfo(str, " INDEXSCAN ");
_outPlanInfo(str, (Plan *) node);
appendStringInfo(str, " :scanrelid %u :indxid ", node->scan.scanrelid);
_outIntList(str, node->indxid);
appendStringInfo(str, " :indxqual ");
_outNode(str, node->indxqual);
appendStringInfo(str, " :indxqualorig ");
_outNode(str, node->indxqualorig);
appendStringInfo(str, " :indxorderdir %d ", node->indxorderdir);
}
/*
* TidScan is a subclass of Scan
*/
static void
_outTidScan(StringInfo str, TidScan *node)
{
appendStringInfo(str, " TIDSCAN ");
_outPlanInfo(str, (Plan *) node);
appendStringInfo(str, " :scanrelid %u ", node->scan.scanrelid);
appendStringInfo(str, " :needrescan %d ", node->needRescan);
appendStringInfo(str, " :tideval ");
_outNode(str, node->tideval);
}
/*
* SubqueryScan is a subclass of Scan
*/
static void
_outSubqueryScan(StringInfo str, SubqueryScan *node)
{
appendStringInfo(str, " SUBQUERYSCAN ");
_outPlanInfo(str, (Plan *) node);
appendStringInfo(str, " :scanrelid %u :subplan ", node->scan.scanrelid);
_outNode(str, node->subplan);
}
/*
* Material is a subclass of Plan
*/
static void
_outMaterial(StringInfo str, Material *node)
{
appendStringInfo(str, " MATERIAL ");
_outPlanInfo(str, (Plan *) node);
}
/*
* Sort is a subclass of Plan
*/
static void
_outSort(StringInfo str, Sort *node)
{
appendStringInfo(str, " SORT ");
_outPlanInfo(str, (Plan *) node);
appendStringInfo(str, " :keycount %d ", node->keycount);
}
static void
_outAgg(StringInfo str, Agg *node)
{
appendStringInfo(str, " AGG ");
_outPlanInfo(str, (Plan *) node);
}
static void
_outGroup(StringInfo str, Group *node)
{
appendStringInfo(str, " GRP ");
_outPlanInfo(str, (Plan *) node);
/* the actual Group fields */
appendStringInfo(str, " :numCols %d :tuplePerGroup %s ",
node->numCols,
node->tuplePerGroup ? "true" : "false");
}
static void
_outUnique(StringInfo str, Unique *node)
{
int i;
appendStringInfo(str, " UNIQUE ");
_outPlanInfo(str, (Plan *) node);
appendStringInfo(str, " :numCols %d :uniqColIdx ",
node->numCols);
for (i = 0; i < node->numCols; i++)
appendStringInfo(str, "%d ", (int) node->uniqColIdx[i]);
}
static void
_outSetOp(StringInfo str, SetOp *node)
{
int i;
appendStringInfo(str, " SETOP ");
_outPlanInfo(str, (Plan *) node);
appendStringInfo(str, " :cmd %d :numCols %d :dupColIdx ",
(int) node->cmd, node->numCols);
for (i = 0; i < node->numCols; i++)
appendStringInfo(str, "%d ", (int) node->dupColIdx[i]);
appendStringInfo(str, " :flagColIdx %d ",
(int) node->flagColIdx);
}
static void
_outLimit(StringInfo str, Limit *node)
{
appendStringInfo(str, " LIMIT ");
_outPlanInfo(str, (Plan *) node);
appendStringInfo(str, " :limitOffset ");
_outNode(str, node->limitOffset);
appendStringInfo(str, " :limitCount ");
_outNode(str, node->limitCount);
}
/*
* Hash is a subclass of Plan
*/
static void
_outHash(StringInfo str, Hash *node)
{
appendStringInfo(str, " HASH ");
_outPlanInfo(str, (Plan *) node);
appendStringInfo(str, " :hashkey ");
_outNode(str, node->hashkey);
}
/*****************************************************************************
*
* Stuff from primnodes.h.
*
*****************************************************************************/
/*
* Resdom is a subclass of Node
*/
static void
_outResdom(StringInfo str, Resdom *node)
{
appendStringInfo(str,
" RESDOM :resno %d :restype %u :restypmod %d :resname ",
node->resno,
node->restype,
node->restypmod);
_outToken(str, node->resname);
appendStringInfo(str, " :reskey %d :reskeyop %u :ressortgroupref %d :resjunk %s ",
node->reskey,
node->reskeyop,
node->ressortgroupref,
node->resjunk ? "true" : "false");
}
static void
_outFjoin(StringInfo str, Fjoin *node)
{
int i;
appendStringInfo(str, " FJOIN :initialized %s :nNodes %d ",
node->fj_initialized ? "true" : "false",
node->fj_nNodes);
appendStringInfo(str, " :innerNode ");
_outNode(str, node->fj_innerNode);
appendStringInfo(str, " :results @ 0x%x :alwaysdone",
(int) node->fj_results);
for (i = 0; i < node->fj_nNodes; i++)
appendStringInfo(str, (node->fj_alwaysDone[i]) ? "true" : "false");
}
/*
* Expr is a subclass of Node
*/
static void
_outExpr(StringInfo str, Expr *node)
{
char *opstr = NULL;
appendStringInfo(str, " EXPR :typeOid %u ",
node->typeOid);
switch (node->opType)
{
case OP_EXPR:
opstr = "op";
break;
case FUNC_EXPR:
opstr = "func";
break;
case OR_EXPR:
opstr = "or";
break;
case AND_EXPR:
opstr = "and";
break;
case NOT_EXPR:
opstr = "not";
break;
case SUBPLAN_EXPR:
opstr = "subp";
break;
}
appendStringInfo(str, " :opType ");
_outToken(str, opstr);
appendStringInfo(str, " :oper ");
_outNode(str, node->oper);
appendStringInfo(str, " :args ");
_outNode(str, node->args);
}
/*
* Var is a subclass of Expr
*/
static void
_outVar(StringInfo str, Var *node)
{
appendStringInfo(str,
" VAR :varno %d :varattno %d :vartype %u :vartypmod %d ",
node->varno,
node->varattno,
node->vartype,
node->vartypmod);
appendStringInfo(str, " :varlevelsup %u :varnoold %d :varoattno %d",
node->varlevelsup,
node->varnoold,
node->varoattno);
}
/*
* Const is a subclass of Expr
*/
static void
_outConst(StringInfo str, Const *node)
{
appendStringInfo(str,
" CONST :consttype %u :constlen %d :constisnull %s :constvalue ",
node->consttype,
node->constlen,
node->constisnull ? "true" : "false");
if (node->constisnull)
appendStringInfo(str, "<>");
else
_outDatum(str, node->constvalue, node->consttype);
appendStringInfo(str, " :constbyval %s ",
node->constbyval ? "true" : "false");
}
/*
* Aggref
*/
static void
_outAggref(StringInfo str, Aggref *node)
{
appendStringInfo(str, " AGGREG :aggname ");
_outToken(str, node->aggname);
appendStringInfo(str, " :basetype %u :aggtype %u :target ",
node->basetype, node->aggtype);
_outNode(str, node->target);
appendStringInfo(str, " :aggstar %s :aggdistinct %s ",
node->aggstar ? "true" : "false",
node->aggdistinct ? "true" : "false");
/* aggno is not dumped */
}
/*
* SubLink
*/
static void
_outSubLink(StringInfo str, SubLink *node)
{
appendStringInfo(str,
" SUBLINK :subLinkType %d :useor %s :lefthand ",
node->subLinkType,
node->useor ? "true" : "false");
_outNode(str, node->lefthand);
appendStringInfo(str, " :oper ");
_outNode(str, node->oper);
appendStringInfo(str, " :subselect ");
_outNode(str, node->subselect);
}
/*
* ArrayRef is a subclass of Expr
*/
static void
_outArrayRef(StringInfo str, ArrayRef *node)
{
appendStringInfo(str,
" ARRAYREF :refelemtype %u :refattrlength %d :refelemlength %d ",
node->refelemtype,
node->refattrlength,
node->refelemlength);
appendStringInfo(str, " :refelembyval %c :refupperindex ",
node->refelembyval ? 't' : 'f');
_outNode(str, node->refupperindexpr);
appendStringInfo(str, " :reflowerindex ");
_outNode(str, node->reflowerindexpr);
appendStringInfo(str, " :refexpr ");
_outNode(str, node->refexpr);
appendStringInfo(str, " :refassgnexpr ");
_outNode(str, node->refassgnexpr);
}
/*
* Func is a subclass of Expr
*/
static void
_outFunc(StringInfo str, Func *node)
{
appendStringInfo(str, " FUNC :funcid %u :functype %u ",
node->funcid,
node->functype);
}
/*
* Oper is a subclass of Expr
*/
static void
_outOper(StringInfo str, Oper *node)
{
appendStringInfo(str,
" OPER :opno %u :opid %u :opresulttype %u ",
node->opno,
node->opid,
node->opresulttype);
}
/*
* Param is a subclass of Expr
*/
static void
_outParam(StringInfo str, Param *node)
{
appendStringInfo(str, " PARAM :paramkind %d :paramid %d :paramname ",
node->paramkind,
node->paramid);
_outToken(str, node->paramname);
appendStringInfo(str, " :paramtype %u ", node->paramtype);
}
/*
* FieldSelect
*/
static void
_outFieldSelect(StringInfo str, FieldSelect *node)
{
appendStringInfo(str, " FIELDSELECT :arg ");
_outNode(str, node->arg);
appendStringInfo(str, " :fieldnum %d :resulttype %u :resulttypmod %d ",
node->fieldnum, node->resulttype, node->resulttypmod);
}
/*
* RelabelType
*/
static void
_outRelabelType(StringInfo str, RelabelType *node)
{
appendStringInfo(str, " RELABELTYPE :arg ");
_outNode(str, node->arg);
appendStringInfo(str, " :resulttype %u :resulttypmod %d ",
node->resulttype, node->resulttypmod);
}
/*
* RangeTblRef
*/
static void
_outRangeTblRef(StringInfo str, RangeTblRef *node)
{
appendStringInfo(str, " RANGETBLREF %d ",
node->rtindex);
}
/*
* FromExpr
*/
static void
_outFromExpr(StringInfo str, FromExpr *node)
{
appendStringInfo(str, " FROMEXPR :fromlist ");
_outNode(str, node->fromlist);
appendStringInfo(str, " :quals ");
_outNode(str, node->quals);
}
/*
* JoinExpr
*/
static void
_outJoinExpr(StringInfo str, JoinExpr *node)
{
appendStringInfo(str, " JOINEXPR :jointype %d :isNatural %s :larg ",
(int) node->jointype,
node->isNatural ? "true" : "false");
_outNode(str, node->larg);
appendStringInfo(str, " :rarg ");
_outNode(str, node->rarg);
appendStringInfo(str, " :using ");
_outNode(str, node->using);
appendStringInfo(str, " :quals ");
_outNode(str, node->quals);
appendStringInfo(str, " :alias ");
_outNode(str, node->alias);
appendStringInfo(str, " :colnames ");
_outNode(str, node->colnames);
appendStringInfo(str, " :colvars ");
_outNode(str, node->colvars);
}
/*
* Stuff from relation.h
*/
static void
_outRelOptInfo(StringInfo str, RelOptInfo *node)
{
appendStringInfo(str, " RELOPTINFO :relids ");
_outIntList(str, node->relids);
appendStringInfo(str, " :rows %.0f :width %d :targetlist ",
node->rows,
node->width);
_outNode(str, node->targetlist);
appendStringInfo(str, " :pathlist ");
_outNode(str, node->pathlist);
appendStringInfo(str, " :cheapest_startup_path ");
_outNode(str, node->cheapest_startup_path);
appendStringInfo(str, " :cheapest_total_path ");
_outNode(str, node->cheapest_total_path);
appendStringInfo(str, " :pruneable %s :issubquery %s :indexed %s :pages %ld :tuples %.0f :subplan ",
node->pruneable ? "true" : "false",
node->issubquery ? "true" : "false",
node->indexed ? "true" : "false",
node->pages,
node->tuples);
_outNode(str, node->subplan);
appendStringInfo(str, " :baserestrictinfo ");
_outNode(str, node->baserestrictinfo);
appendStringInfo(str, " :baserestrictcost %.2f :outerjoinset ",
node->baserestrictcost);
_outIntList(str, node->outerjoinset);
appendStringInfo(str, " :joininfo ");
_outNode(str, node->joininfo);
appendStringInfo(str, " :innerjoin ");
_outNode(str, node->innerjoin);
}
static void
_outIndexOptInfo(StringInfo str, IndexOptInfo *node)
{
appendStringInfo(str, " INDEXOPTINFO :indexoid %u :pages %ld :tuples %g ",
node->indexoid,
node->pages,
node->tuples);
}
/*
* TargetEntry is a subclass of Node.
*/
static void
_outTargetEntry(StringInfo str, TargetEntry *node)
{
appendStringInfo(str, " TARGETENTRY :resdom ");
_outNode(str, node->resdom);
appendStringInfo(str, " :expr ");
_outNode(str, node->expr);
}
static void
_outRangeTblEntry(StringInfo str, RangeTblEntry *node)
{
appendStringInfo(str, " RTE :relname ");
_outToken(str, node->relname);
appendStringInfo(str, " :relid %u ",
node->relid);
appendStringInfo(str, " :subquery ");
_outNode(str, node->subquery);
appendStringInfo(str, " :alias ");
_outNode(str, node->alias);
appendStringInfo(str, " :eref ");
_outNode(str, node->eref);
appendStringInfo(str, " :inh %s :inFromCl %s :checkForRead %s"
" :checkForWrite %s :checkAsUser %u",
node->inh ? "true" : "false",
node->inFromCl ? "true" : "false",
node->checkForRead ? "true" : "false",
node->checkForWrite ? "true" : "false",
node->checkAsUser);
}
/*
* Path is a subclass of Node.
*/
static void
_outPath(StringInfo str, Path *node)
{
appendStringInfo(str,
" PATH :pathtype %d :startup_cost %.2f :total_cost %.2f :pathkeys ",
node->pathtype,
node->startup_cost,
node->total_cost);
_outNode(str, node->pathkeys);
}
/*
* IndexPath is a subclass of Path.
*/
static void
_outIndexPath(StringInfo str, IndexPath *node)
{
appendStringInfo(str,
" INDEXPATH :pathtype %d :startup_cost %.2f :total_cost %.2f :pathkeys ",
node->path.pathtype,
node->path.startup_cost,
node->path.total_cost);
_outNode(str, node->path.pathkeys);
appendStringInfo(str, " :indexid ");
_outIntList(str, node->indexid);
appendStringInfo(str, " :indexqual ");
_outNode(str, node->indexqual);
appendStringInfo(str, " :indexscandir %d :joinrelids ",
(int) node->indexscandir);
_outIntList(str, node->joinrelids);
appendStringInfo(str, " :alljoinquals %s :rows %.2f ",
node->alljoinquals ? "true" : "false",
node->rows);
}
/*
* TidPath is a subclass of Path.
*/
static void
_outTidPath(StringInfo str, TidPath *node)
{
appendStringInfo(str,
" TIDPATH :pathtype %d :startup_cost %.2f :total_cost %.2f :pathkeys ",
node->path.pathtype,
node->path.startup_cost,
node->path.total_cost);
_outNode(str, node->path.pathkeys);
appendStringInfo(str, " :tideval ");
_outNode(str, node->tideval);
appendStringInfo(str, " :unjoined_relids ");
_outIntList(str, node->unjoined_relids);
}
/*
* AppendPath is a subclass of Path.
*/
static void
_outAppendPath(StringInfo str, AppendPath *node)
{
appendStringInfo(str,
" APPENDPATH :pathtype %d :startup_cost %.2f :total_cost %.2f :pathkeys ",
node->path.pathtype,
node->path.startup_cost,
node->path.total_cost);
_outNode(str, node->path.pathkeys);
appendStringInfo(str, " :subpaths ");
_outNode(str, node->subpaths);
}
/*
* NestPath is a subclass of Path
*/
static void
_outNestPath(StringInfo str, NestPath *node)
{
appendStringInfo(str,
" NESTPATH :pathtype %d :startup_cost %.2f :total_cost %.2f :pathkeys ",
node->path.pathtype,
node->path.startup_cost,
node->path.total_cost);
_outNode(str, node->path.pathkeys);
appendStringInfo(str, " :jointype %d :outerjoinpath ",
(int) node->jointype);
_outNode(str, node->outerjoinpath);
appendStringInfo(str, " :innerjoinpath ");
_outNode(str, node->innerjoinpath);
appendStringInfo(str, " :joinrestrictinfo ");
_outNode(str, node->joinrestrictinfo);
}
/*
* MergePath is a subclass of NestPath.
*/
static void
_outMergePath(StringInfo str, MergePath *node)
{
appendStringInfo(str,
" MERGEPATH :pathtype %d :startup_cost %.2f :total_cost %.2f :pathkeys ",
node->jpath.path.pathtype,
node->jpath.path.startup_cost,
node->jpath.path.total_cost);
_outNode(str, node->jpath.path.pathkeys);
appendStringInfo(str, " :jointype %d :outerjoinpath ",
(int) node->jpath.jointype);
_outNode(str, node->jpath.outerjoinpath);
appendStringInfo(str, " :innerjoinpath ");
_outNode(str, node->jpath.innerjoinpath);
appendStringInfo(str, " :joinrestrictinfo ");
_outNode(str, node->jpath.joinrestrictinfo);
appendStringInfo(str, " :path_mergeclauses ");
_outNode(str, node->path_mergeclauses);
appendStringInfo(str, " :outersortkeys ");
_outNode(str, node->outersortkeys);
appendStringInfo(str, " :innersortkeys ");
_outNode(str, node->innersortkeys);
}
/*
* HashPath is a subclass of NestPath.
*/
static void
_outHashPath(StringInfo str, HashPath *node)
{
appendStringInfo(str,
" HASHPATH :pathtype %d :startup_cost %.2f :total_cost %.2f :pathkeys ",
node->jpath.path.pathtype,
node->jpath.path.startup_cost,
node->jpath.path.total_cost);
_outNode(str, node->jpath.path.pathkeys);
appendStringInfo(str, " :jointype %d :outerjoinpath ",
(int) node->jpath.jointype);
_outNode(str, node->jpath.outerjoinpath);
appendStringInfo(str, " :innerjoinpath ");
_outNode(str, node->jpath.innerjoinpath);
appendStringInfo(str, " :joinrestrictinfo ");
_outNode(str, node->jpath.joinrestrictinfo);
appendStringInfo(str, " :path_hashclauses ");
_outNode(str, node->path_hashclauses);
}
/*
* PathKeyItem is a subclass of Node.
*/
static void
_outPathKeyItem(StringInfo str, PathKeyItem *node)
{
appendStringInfo(str, " PATHKEYITEM :sortop %u :key ",
node->sortop);
_outNode(str, node->key);
}
/*
* RestrictInfo is a subclass of Node.
*/
static void
_outRestrictInfo(StringInfo str, RestrictInfo *node)
{
appendStringInfo(str, " RESTRICTINFO :clause ");
_outNode(str, node->clause);
appendStringInfo(str, " :ispusheddown %s :subclauseindices ",
node->ispusheddown ? "true" : "false");
_outNode(str, node->subclauseindices);
appendStringInfo(str, " :mergejoinoperator %u ", node->mergejoinoperator);
appendStringInfo(str, " :left_sortop %u ", node->left_sortop);
appendStringInfo(str, " :right_sortop %u ", node->right_sortop);
appendStringInfo(str, " :hashjoinoperator %u ", node->hashjoinoperator);
}
/*
* JoinInfo is a subclass of Node.
*/
static void
_outJoinInfo(StringInfo str, JoinInfo *node)
{
appendStringInfo(str, " JINFO :unjoined_relids ");
_outIntList(str, node->unjoined_relids);
appendStringInfo(str, " :jinfo_restrictinfo ");
_outNode(str, node->jinfo_restrictinfo);
}
/*
* Print the value of a Datum given its type.
*/
static void
_outDatum(StringInfo str, Datum value, Oid type)
{
bool byValue;
int typeLength;
Size length;
char *s;
int i;
/*
* find some information about the type and the "real" length of the
* datum.
*/
byValue = get_typbyval(type);
typeLength = get_typlen(type);
length = datumGetSize(value, byValue, typeLength);
if (byValue)
{
s = (char *) (&value);
appendStringInfo(str, " %u [ ", (unsigned int) length);
for (i = 0; i < (int) sizeof(Datum); i++)
appendStringInfo(str, "%d ", (int) (s[i]));
appendStringInfo(str, "] ");
}
else
{ /* !byValue */
s = (char *) DatumGetPointer(value);
if (!PointerIsValid(s))
appendStringInfo(str, " 0 [ ] ");
else
{
appendStringInfo(str, " %u [ ", (unsigned int) length);
for (i = 0; i < (int) length; i++)
appendStringInfo(str, "%d ", (int) (s[i]));
appendStringInfo(str, "] ");
}
}
}
static void
_outIter(StringInfo str, Iter *node)
{
appendStringInfo(str, " ITER :iterexpr ");
_outNode(str, node->iterexpr);
}
static void
_outStream(StringInfo str, Stream *node)
{
appendStringInfo(str,
" STREAM :pathptr @ 0x%x :cinfo @ 0x%x :clausetype %d :upstream @ 0x%x ",
(int) node->pathptr,
(int) node->cinfo,
(int) node->clausetype,
(int) node->upstream);
appendStringInfo(str,
" :downstream @ 0x%x :groupup %d :groupcost %f :groupsel %f ",
(int) node->downstream,
node->groupup,
node->groupcost,
node->groupsel);
}
static void
_outAExpr(StringInfo str, A_Expr *node)
{
appendStringInfo(str, " AEXPR ");
switch (node->oper)
{
case AND:
appendStringInfo(str, "AND ");
break;
case OR:
appendStringInfo(str, "OR ");
break;
case NOT:
appendStringInfo(str, "NOT ");
break;
case ISNULL:
appendStringInfo(str, "ISNULL ");
break;
case NOTNULL:
appendStringInfo(str, "NOTNULL ");
break;
case OP:
_outToken(str, node->opname);
appendStringInfo(str, " ");
break;
default:
appendStringInfo(str, "?? ");
break;
}
_outNode(str, node->lexpr);
appendStringInfo(str, " ");
_outNode(str, node->rexpr);
}
static void
_outValue(StringInfo str, Value *value)
{
switch (value->type)
{
case T_Integer:
appendStringInfo(str, " %ld ", value->val.ival);
break;
case T_Float:
/*
* We assume the value is a valid numeric literal and so does
* not need quoting.
*/
appendStringInfo(str, " %s ", value->val.str);
break;
case T_String:
appendStringInfo(str, " \"");
_outToken(str, value->val.str);
appendStringInfo(str, "\" ");
break;
case T_BitString:
/* internal representation already has leading 'b' */
appendStringInfo(str, " %s ", value->val.str);
break;
default:
elog(NOTICE, "_outValue: don't know how to print type %d ",
value->type);
break;
}
}
static void
_outIdent(StringInfo str, Ident *node)
{
appendStringInfo(str, " IDENT ");
_outToken(str, node->name);
}
static void
_outAttr(StringInfo str, Attr *node)
{
appendStringInfo(str, " ATTR :relname ");
_outToken(str, node->relname);
appendStringInfo(str, " :attrs ");
_outNode(str, node->attrs);
}
static void
_outAConst(StringInfo str, A_Const *node)
{
appendStringInfo(str, "CONST ");
_outValue(str, &(node->val));
appendStringInfo(str, " :typename ");
_outNode(str, node->typename);
}
static void
_outConstraint(StringInfo str, Constraint *node)
{
appendStringInfo(str, " ");
_outToken(str, node->name);
appendStringInfo(str, " :type ");
switch (node->contype)
{
case CONSTR_PRIMARY:
appendStringInfo(str, "PRIMARY KEY ");
_outNode(str, node->keys);
break;
case CONSTR_CHECK:
appendStringInfo(str, "CHECK :raw ");
_outNode(str, node->raw_expr);
appendStringInfo(str, " :cooked ");
_outToken(str, node->cooked_expr);
break;
case CONSTR_DEFAULT:
appendStringInfo(str, "DEFAULT :raw ");
_outNode(str, node->raw_expr);
appendStringInfo(str, " :cooked ");
_outToken(str, node->cooked_expr);
break;
case CONSTR_NOTNULL:
appendStringInfo(str, "NOT NULL");
break;
case CONSTR_UNIQUE:
appendStringInfo(str, "UNIQUE ");
_outNode(str, node->keys);
break;
default:
appendStringInfo(str, "<unrecognized_constraint>");
break;
}
}
static void
_outCaseExpr(StringInfo str, CaseExpr *node)
{
appendStringInfo(str, " CASE :casetype %u :arg ",
node->casetype);
_outNode(str, node->arg);
appendStringInfo(str, " :args ");
_outNode(str, node->args);
appendStringInfo(str, " :defresult ");
_outNode(str, node->defresult);
}
static void
_outCaseWhen(StringInfo str, CaseWhen *node)
{
appendStringInfo(str, " WHEN ");
_outNode(str, node->expr);
appendStringInfo(str, " :then ");
_outNode(str, node->result);
}
/*
* _outNode -
* converts a Node into ascii string and append it to 'str'
*/
static void
_outNode(StringInfo str, void *obj)
{
if (obj == NULL)
{
appendStringInfo(str, "<>");
return;
}
if (IsA(obj, List))
{
List *l;
appendStringInfoChar(str, '(');
foreach(l, (List *) obj)
{
_outNode(str, lfirst(l));
if (lnext(l))
appendStringInfoChar(str, ' ');
}
appendStringInfoChar(str, ')');
}
else if (IsA_Value(obj))
{
/* nodeRead does not want to see { } around these! */
_outValue(str, obj);
}
else
{
appendStringInfoChar(str, '{');
switch (nodeTag(obj))
{
case T_CreateStmt:
_outCreateStmt(str, obj);
break;
case T_IndexStmt:
_outIndexStmt(str, obj);
break;
case T_ColumnDef:
_outColumnDef(str, obj);
break;
case T_TypeName:
_outTypeName(str, obj);
break;
case T_TypeCast:
_outTypeCast(str, obj);
break;
case T_IndexElem:
_outIndexElem(str, obj);
break;
case T_Query:
_outQuery(str, obj);
break;
case T_SortClause:
_outSortClause(str, obj);
break;
case T_GroupClause:
_outGroupClause(str, obj);
break;
case T_SetOperationStmt:
_outSetOperationStmt(str, obj);
break;
case T_Plan:
_outPlan(str, obj);
break;
case T_Result:
_outResult(str, obj);
break;
case T_Append:
_outAppend(str, obj);
break;
case T_Join:
_outJoin(str, obj);
break;
case T_NestLoop:
_outNestLoop(str, obj);
break;
case T_MergeJoin:
_outMergeJoin(str, obj);
break;
case T_HashJoin:
_outHashJoin(str, obj);
break;
case T_Scan:
_outScan(str, obj);
break;
case T_SeqScan:
_outSeqScan(str, obj);
break;
case T_IndexScan:
_outIndexScan(str, obj);
break;
case T_TidScan:
_outTidScan(str, obj);
break;
case T_SubqueryScan:
_outSubqueryScan(str, obj);
break;
case T_Material:
_outMaterial(str, obj);
break;
case T_Sort:
_outSort(str, obj);
break;
case T_Agg:
_outAgg(str, obj);
break;
case T_Group:
_outGroup(str, obj);
break;
case T_Unique:
_outUnique(str, obj);
break;
case T_SetOp:
_outSetOp(str, obj);
break;
case T_Limit:
_outLimit(str, obj);
break;
case T_Hash:
_outHash(str, obj);
break;
case T_SubPlan:
_outSubPlan(str, obj);
break;
case T_Resdom:
_outResdom(str, obj);
break;
case T_Fjoin:
_outFjoin(str, obj);
break;
case T_Expr:
_outExpr(str, obj);
break;
case T_Var:
_outVar(str, obj);
break;
case T_Const:
_outConst(str, obj);
break;
case T_Aggref:
_outAggref(str, obj);
break;
case T_SubLink:
_outSubLink(str, obj);
break;
case T_ArrayRef:
_outArrayRef(str, obj);
break;
case T_Func:
_outFunc(str, obj);
break;
case T_Oper:
_outOper(str, obj);
break;
case T_Param:
_outParam(str, obj);
break;
case T_FieldSelect:
_outFieldSelect(str, obj);
break;
case T_RelabelType:
_outRelabelType(str, obj);
break;
case T_RangeTblRef:
_outRangeTblRef(str, obj);
break;
case T_FromExpr:
_outFromExpr(str, obj);
break;
case T_JoinExpr:
_outJoinExpr(str, obj);
break;
case T_RelOptInfo:
_outRelOptInfo(str, obj);
break;
case T_IndexOptInfo:
_outIndexOptInfo(str, obj);
break;
case T_TargetEntry:
_outTargetEntry(str, obj);
break;
case T_RangeTblEntry:
_outRangeTblEntry(str, obj);
break;
case T_Path:
_outPath(str, obj);
break;
case T_IndexPath:
_outIndexPath(str, obj);
break;
case T_TidPath:
_outTidPath(str, obj);
break;
case T_AppendPath:
_outAppendPath(str, obj);
break;
case T_NestPath:
_outNestPath(str, obj);
break;
case T_MergePath:
_outMergePath(str, obj);
break;
case T_HashPath:
_outHashPath(str, obj);
break;
case T_PathKeyItem:
_outPathKeyItem(str, obj);
break;
case T_RestrictInfo:
_outRestrictInfo(str, obj);
break;
case T_JoinInfo:
_outJoinInfo(str, obj);
break;
case T_Iter:
_outIter(str, obj);
break;
case T_Stream:
_outStream(str, obj);
break;
case T_A_Expr:
_outAExpr(str, obj);
break;
case T_Ident:
_outIdent(str, obj);
break;
case T_A_Const:
_outAConst(str, obj);
break;
case T_Constraint:
_outConstraint(str, obj);
break;
case T_CaseExpr:
_outCaseExpr(str, obj);
break;
case T_CaseWhen:
_outCaseWhen(str, obj);
break;
case T_VariableSetStmt:
break;
case T_SelectStmt:
_outSelectStmt(str, obj);
break;
case T_FuncCall:
_outFuncCall(str, obj);
break;
case T_Attr:
_outAttr(str, obj);
break;
default:
elog(NOTICE, "_outNode: don't know how to print type %d ",
nodeTag(obj));
break;
}
appendStringInfoChar(str, '}');
}
}
/*
* nodeToString -
* returns the ascii representation of the Node as a palloc'd string
*/
char *
nodeToString(void *obj)
{
StringInfoData str;
/* see stringinfo.h for an explanation of this maneuver */
initStringInfo(&str);
_outNode(&str, obj);
return str.data;
}
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