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postgres/src/backend/nodes/readfuncs.c
Tom Lane 31edbadf4a Downgrade implicit casts to text to be assignment-only, except for the ones 
from the other string-category types; this eliminates a lot of surprising
interpretations that the parser could formerly make when there was no directly
applicable operator.

Create a general mechanism that supports casts to and from the standard string
types (text,varchar,bpchar) for *every* datatype, by invoking the datatype's
I/O functions.  These new casts are assignment-only in the to-string direction,
explicit-only in the other, and therefore should create no surprising behavior.
Remove a bunch of thereby-obsoleted datatype-specific casting functions.

The "general mechanism" is a new expression node type CoerceViaIO that can
actually convert between *any* two datatypes if their external text
representations are compatible.  This is more general than needed for the
immediate feature, but might be useful in plpgsql or other places in future.

This commit does nothing about the issue that applying the concatenation
operator || to non-text types will now fail, often with strange error messages
due to misinterpreting the operator as array concatenation.  Since it often
(not always) worked before, we should either make it succeed or at least give
a more user-friendly error; but details are still under debate.

Peter Eisentraut and Tom Lane
2007-06-05 21:31:09 +00:00

1183 lines
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/*-------------------------------------------------------------------------
*
* readfuncs.c
* Reader functions for Postgres tree nodes.
*
* Portions Copyright (c) 1996-2007, PostgreSQL Global Development Group
* Portions Copyright (c) 1994, Regents of the University of California
*
*
* IDENTIFICATION
* $PostgreSQL: pgsql/src/backend/nodes/readfuncs.c,v 1.207 2007/06/05 21:31:04 tgl Exp $
*
* NOTES
* Path and Plan nodes do not have any readfuncs support, because we
* never have occasion to read them in. (There was once code here that
* claimed to read them, but it was broken as well as unused.) We
* never read executor state trees, either.
*
*-------------------------------------------------------------------------
*/
#include "postgres.h"
#include <math.h>
#include "nodes/parsenodes.h"
#include "nodes/readfuncs.h"
/*
* Macros to simplify reading of different kinds of fields. Use these
* wherever possible to reduce the chance for silly typos. Note that these
* hard-wire conventions about the names of the local variables in a Read
* routine.
*/
/* Macros for declaring appropriate local variables */
/* A few guys need only local_node */
#define READ_LOCALS_NO_FIELDS(nodeTypeName) \
nodeTypeName *local_node = makeNode(nodeTypeName)
/* And a few guys need only the pg_strtok support fields */
#define READ_TEMP_LOCALS() \
char *token; \
int length
/* ... but most need both */
#define READ_LOCALS(nodeTypeName) \
READ_LOCALS_NO_FIELDS(nodeTypeName); \
READ_TEMP_LOCALS()
/* Read an integer field (anything written as ":fldname %d") */
#define READ_INT_FIELD(fldname) \
token = pg_strtok(&length); /* skip :fldname */ \
token = pg_strtok(&length); /* get field value */ \
local_node->fldname = atoi(token)
/* Read an unsigned integer field (anything written as ":fldname %u") */
#define READ_UINT_FIELD(fldname) \
token = pg_strtok(&length); /* skip :fldname */ \
token = pg_strtok(&length); /* get field value */ \
local_node->fldname = atoui(token)
/* Read an OID field (don't hard-wire assumption that OID is same as uint) */
#define READ_OID_FIELD(fldname) \
token = pg_strtok(&length); /* skip :fldname */ \
token = pg_strtok(&length); /* get field value */ \
local_node->fldname = atooid(token)
/* Read a char field (ie, one ascii character) */
#define READ_CHAR_FIELD(fldname) \
token = pg_strtok(&length); /* skip :fldname */ \
token = pg_strtok(&length); /* get field value */ \
local_node->fldname = token[0]
/* Read an enumerated-type field that was written as an integer code */
#define READ_ENUM_FIELD(fldname, enumtype) \
token = pg_strtok(&length); /* skip :fldname */ \
token = pg_strtok(&length); /* get field value */ \
local_node->fldname = (enumtype) atoi(token)
/* Read a float field */
#define READ_FLOAT_FIELD(fldname) \
token = pg_strtok(&length); /* skip :fldname */ \
token = pg_strtok(&length); /* get field value */ \
local_node->fldname = atof(token)
/* Read a boolean field */
#define READ_BOOL_FIELD(fldname) \
token = pg_strtok(&length); /* skip :fldname */ \
token = pg_strtok(&length); /* get field value */ \
local_node->fldname = strtobool(token)
/* Read a character-string field */
#define READ_STRING_FIELD(fldname) \
token = pg_strtok(&length); /* skip :fldname */ \
token = pg_strtok(&length); /* get field value */ \
local_node->fldname = nullable_string(token, length)
/* Read a Node field */
#define READ_NODE_FIELD(fldname) \
token = pg_strtok(&length); /* skip :fldname */ \
local_node->fldname = nodeRead(NULL, 0)
/* Routine exit */
#define READ_DONE() \
return local_node
/*
* NOTE: use atoi() to read values written with %d, or atoui() to read
* values written with %u in outfuncs.c. An exception is OID values,
* for which use atooid(). (As of 7.1, outfuncs.c writes OIDs as %u,
* but this will probably change in the future.)
*/
#define atoui(x) ((unsigned int) strtoul((x), NULL, 10))
#define atooid(x) ((Oid) strtoul((x), NULL, 10))
#define strtobool(x) ((*(x) == 't') ? true : false)
#define nullable_string(token,length) \
((length) == 0 ? NULL : debackslash(token, length))
static Datum readDatum(bool typbyval);
/*
* _readQuery
*/
static Query *
_readQuery(void)
{
READ_LOCALS(Query);
READ_ENUM_FIELD(commandType, CmdType);
READ_ENUM_FIELD(querySource, QuerySource);
READ_BOOL_FIELD(canSetTag);
READ_NODE_FIELD(utilityStmt);
READ_INT_FIELD(resultRelation);
READ_NODE_FIELD(intoClause);
READ_BOOL_FIELD(hasAggs);
READ_BOOL_FIELD(hasSubLinks);
READ_NODE_FIELD(rtable);
READ_NODE_FIELD(jointree);
READ_NODE_FIELD(targetList);
READ_NODE_FIELD(returningList);
READ_NODE_FIELD(groupClause);
READ_NODE_FIELD(havingQual);
READ_NODE_FIELD(distinctClause);
READ_NODE_FIELD(sortClause);
READ_NODE_FIELD(limitOffset);
READ_NODE_FIELD(limitCount);
READ_NODE_FIELD(rowMarks);
READ_NODE_FIELD(setOperations);
READ_DONE();
}
/*
* _readNotifyStmt
*/
static NotifyStmt *
_readNotifyStmt(void)
{
READ_LOCALS(NotifyStmt);
READ_NODE_FIELD(relation);
READ_DONE();
}
/*
* _readDeclareCursorStmt
*/
static DeclareCursorStmt *
_readDeclareCursorStmt(void)
{
READ_LOCALS(DeclareCursorStmt);
READ_STRING_FIELD(portalname);
READ_INT_FIELD(options);
READ_NODE_FIELD(query);
READ_DONE();
}
/*
* _readSortClause
*/
static SortClause *
_readSortClause(void)
{
READ_LOCALS(SortClause);
READ_UINT_FIELD(tleSortGroupRef);
READ_OID_FIELD(sortop);
READ_BOOL_FIELD(nulls_first);
READ_DONE();
}
/*
* _readGroupClause
*/
static GroupClause *
_readGroupClause(void)
{
READ_LOCALS(GroupClause);
READ_UINT_FIELD(tleSortGroupRef);
READ_OID_FIELD(sortop);
READ_BOOL_FIELD(nulls_first);
READ_DONE();
}
/*
* _readRowMarkClause
*/
static RowMarkClause *
_readRowMarkClause(void)
{
READ_LOCALS(RowMarkClause);
READ_UINT_FIELD(rti);
READ_BOOL_FIELD(forUpdate);
READ_BOOL_FIELD(noWait);
READ_DONE();
}
/*
* _readSetOperationStmt
*/
static SetOperationStmt *
_readSetOperationStmt(void)
{
READ_LOCALS(SetOperationStmt);
READ_ENUM_FIELD(op, SetOperation);
READ_BOOL_FIELD(all);
READ_NODE_FIELD(larg);
READ_NODE_FIELD(rarg);
READ_NODE_FIELD(colTypes);
READ_NODE_FIELD(colTypmods);
READ_DONE();
}
/*
* Stuff from primnodes.h.
*/
static Alias *
_readAlias(void)
{
READ_LOCALS(Alias);
READ_STRING_FIELD(aliasname);
READ_NODE_FIELD(colnames);
READ_DONE();
}
static RangeVar *
_readRangeVar(void)
{
READ_LOCALS(RangeVar);
local_node->catalogname = NULL; /* not currently saved in output
* format */
READ_STRING_FIELD(schemaname);
READ_STRING_FIELD(relname);
READ_ENUM_FIELD(inhOpt, InhOption);
READ_BOOL_FIELD(istemp);
READ_NODE_FIELD(alias);
READ_DONE();
}
static IntoClause *
_readIntoClause(void)
{
READ_LOCALS(IntoClause);
READ_NODE_FIELD(rel);
READ_NODE_FIELD(colNames);
READ_NODE_FIELD(options);
READ_ENUM_FIELD(onCommit, OnCommitAction);
READ_STRING_FIELD(tableSpaceName);
READ_DONE();
}
/*
* _readVar
*/
static Var *
_readVar(void)
{
READ_LOCALS(Var);
READ_UINT_FIELD(varno);
READ_INT_FIELD(varattno);
READ_OID_FIELD(vartype);
READ_INT_FIELD(vartypmod);
READ_UINT_FIELD(varlevelsup);
READ_UINT_FIELD(varnoold);
READ_INT_FIELD(varoattno);
READ_DONE();
}
/*
* _readConst
*/
static Const *
_readConst(void)
{
READ_LOCALS(Const);
READ_OID_FIELD(consttype);
READ_INT_FIELD(consttypmod);
READ_INT_FIELD(constlen);
READ_BOOL_FIELD(constbyval);
READ_BOOL_FIELD(constisnull);
token = pg_strtok(&length); /* skip :constvalue */
if (local_node->constisnull)
token = pg_strtok(&length); /* skip "<>" */
else
local_node->constvalue = readDatum(local_node->constbyval);
READ_DONE();
}
/*
* _readParam
*/
static Param *
_readParam(void)
{
READ_LOCALS(Param);
READ_ENUM_FIELD(paramkind, ParamKind);
READ_INT_FIELD(paramid);
READ_OID_FIELD(paramtype);
READ_INT_FIELD(paramtypmod);
READ_DONE();
}
/*
* _readAggref
*/
static Aggref *
_readAggref(void)
{
READ_LOCALS(Aggref);
READ_OID_FIELD(aggfnoid);
READ_OID_FIELD(aggtype);
READ_NODE_FIELD(args);
READ_UINT_FIELD(agglevelsup);
READ_BOOL_FIELD(aggstar);
READ_BOOL_FIELD(aggdistinct);
READ_DONE();
}
/*
* _readArrayRef
*/
static ArrayRef *
_readArrayRef(void)
{
READ_LOCALS(ArrayRef);
READ_OID_FIELD(refarraytype);
READ_OID_FIELD(refelemtype);
READ_INT_FIELD(reftypmod);
READ_NODE_FIELD(refupperindexpr);
READ_NODE_FIELD(reflowerindexpr);
READ_NODE_FIELD(refexpr);
READ_NODE_FIELD(refassgnexpr);
READ_DONE();
}
/*
* _readFuncExpr
*/
static FuncExpr *
_readFuncExpr(void)
{
READ_LOCALS(FuncExpr);
READ_OID_FIELD(funcid);
READ_OID_FIELD(funcresulttype);
READ_BOOL_FIELD(funcretset);
READ_ENUM_FIELD(funcformat, CoercionForm);
READ_NODE_FIELD(args);
READ_DONE();
}
/*
* _readOpExpr
*/
static OpExpr *
_readOpExpr(void)
{
READ_LOCALS(OpExpr);
READ_OID_FIELD(opno);
READ_OID_FIELD(opfuncid);
/*
* The opfuncid is stored in the textual format primarily for debugging
* and documentation reasons. We want to always read it as zero to force
* it to be re-looked-up in the pg_operator entry. This ensures that
* stored rules don't have hidden dependencies on operators' functions.
* (We don't currently support an ALTER OPERATOR command, but might
* someday.)
*/
local_node->opfuncid = InvalidOid;
READ_OID_FIELD(opresulttype);
READ_BOOL_FIELD(opretset);
READ_NODE_FIELD(args);
READ_DONE();
}
/*
* _readDistinctExpr
*/
static DistinctExpr *
_readDistinctExpr(void)
{
READ_LOCALS(DistinctExpr);
READ_OID_FIELD(opno);
READ_OID_FIELD(opfuncid);
/*
* The opfuncid is stored in the textual format primarily for debugging
* and documentation reasons. We want to always read it as zero to force
* it to be re-looked-up in the pg_operator entry. This ensures that
* stored rules don't have hidden dependencies on operators' functions.
* (We don't currently support an ALTER OPERATOR command, but might
* someday.)
*/
local_node->opfuncid = InvalidOid;
READ_OID_FIELD(opresulttype);
READ_BOOL_FIELD(opretset);
READ_NODE_FIELD(args);
READ_DONE();
}
/*
* _readScalarArrayOpExpr
*/
static ScalarArrayOpExpr *
_readScalarArrayOpExpr(void)
{
READ_LOCALS(ScalarArrayOpExpr);
READ_OID_FIELD(opno);
READ_OID_FIELD(opfuncid);
/*
* The opfuncid is stored in the textual format primarily for debugging
* and documentation reasons. We want to always read it as zero to force
* it to be re-looked-up in the pg_operator entry. This ensures that
* stored rules don't have hidden dependencies on operators' functions.
* (We don't currently support an ALTER OPERATOR command, but might
* someday.)
*/
local_node->opfuncid = InvalidOid;
READ_BOOL_FIELD(useOr);
READ_NODE_FIELD(args);
READ_DONE();
}
/*
* _readBoolExpr
*/
static BoolExpr *
_readBoolExpr(void)
{
READ_LOCALS(BoolExpr);
/* do-it-yourself enum representation */
token = pg_strtok(&length); /* skip :boolop */
token = pg_strtok(&length); /* get field value */
if (strncmp(token, "and", 3) == 0)
local_node->boolop = AND_EXPR;
else if (strncmp(token, "or", 2) == 0)
local_node->boolop = OR_EXPR;
else if (strncmp(token, "not", 3) == 0)
local_node->boolop = NOT_EXPR;
else
elog(ERROR, "unrecognized boolop \"%.*s\"", length, token);
READ_NODE_FIELD(args);
READ_DONE();
}
/*
* _readSubLink
*/
static SubLink *
_readSubLink(void)
{
READ_LOCALS(SubLink);
READ_ENUM_FIELD(subLinkType, SubLinkType);
READ_NODE_FIELD(testexpr);
READ_NODE_FIELD(operName);
READ_NODE_FIELD(subselect);
READ_DONE();
}
/*
* _readSubPlan is not needed since it doesn't appear in stored rules.
*/
/*
* _readFieldSelect
*/
static FieldSelect *
_readFieldSelect(void)
{
READ_LOCALS(FieldSelect);
READ_NODE_FIELD(arg);
READ_INT_FIELD(fieldnum);
READ_OID_FIELD(resulttype);
READ_INT_FIELD(resulttypmod);
READ_DONE();
}
/*
* _readFieldStore
*/
static FieldStore *
_readFieldStore(void)
{
READ_LOCALS(FieldStore);
READ_NODE_FIELD(arg);
READ_NODE_FIELD(newvals);
READ_NODE_FIELD(fieldnums);
READ_OID_FIELD(resulttype);
READ_DONE();
}
/*
* _readRelabelType
*/
static RelabelType *
_readRelabelType(void)
{
READ_LOCALS(RelabelType);
READ_NODE_FIELD(arg);
READ_OID_FIELD(resulttype);
READ_INT_FIELD(resulttypmod);
READ_ENUM_FIELD(relabelformat, CoercionForm);
READ_DONE();
}
/*
* _readCoerceViaIO
*/
static CoerceViaIO *
_readCoerceViaIO(void)
{
READ_LOCALS(CoerceViaIO);
READ_NODE_FIELD(arg);
READ_OID_FIELD(resulttype);
READ_ENUM_FIELD(coerceformat, CoercionForm);
READ_DONE();
}
/*
* _readArrayCoerceExpr
*/
static ArrayCoerceExpr *
_readArrayCoerceExpr(void)
{
READ_LOCALS(ArrayCoerceExpr);
READ_NODE_FIELD(arg);
READ_OID_FIELD(elemfuncid);
READ_OID_FIELD(resulttype);
READ_INT_FIELD(resulttypmod);
READ_BOOL_FIELD(isExplicit);
READ_ENUM_FIELD(coerceformat, CoercionForm);
READ_DONE();
}
/*
* _readConvertRowtypeExpr
*/
static ConvertRowtypeExpr *
_readConvertRowtypeExpr(void)
{
READ_LOCALS(ConvertRowtypeExpr);
READ_NODE_FIELD(arg);
READ_OID_FIELD(resulttype);
READ_ENUM_FIELD(convertformat, CoercionForm);
READ_DONE();
}
/*
* _readCaseExpr
*/
static CaseExpr *
_readCaseExpr(void)
{
READ_LOCALS(CaseExpr);
READ_OID_FIELD(casetype);
READ_NODE_FIELD(arg);
READ_NODE_FIELD(args);
READ_NODE_FIELD(defresult);
READ_DONE();
}
/*
* _readCaseWhen
*/
static CaseWhen *
_readCaseWhen(void)
{
READ_LOCALS(CaseWhen);
READ_NODE_FIELD(expr);
READ_NODE_FIELD(result);
READ_DONE();
}
/*
* _readCaseTestExpr
*/
static CaseTestExpr *
_readCaseTestExpr(void)
{
READ_LOCALS(CaseTestExpr);
READ_OID_FIELD(typeId);
READ_INT_FIELD(typeMod);
READ_DONE();
}
/*
* _readArrayExpr
*/
static ArrayExpr *
_readArrayExpr(void)
{
READ_LOCALS(ArrayExpr);
READ_OID_FIELD(array_typeid);
READ_OID_FIELD(element_typeid);
READ_NODE_FIELD(elements);
READ_BOOL_FIELD(multidims);
READ_DONE();
}
/*
* _readRowExpr
*/
static RowExpr *
_readRowExpr(void)
{
READ_LOCALS(RowExpr);
READ_NODE_FIELD(args);
READ_OID_FIELD(row_typeid);
READ_ENUM_FIELD(row_format, CoercionForm);
READ_DONE();
}
/*
* _readRowCompareExpr
*/
static RowCompareExpr *
_readRowCompareExpr(void)
{
READ_LOCALS(RowCompareExpr);
READ_ENUM_FIELD(rctype, RowCompareType);
READ_NODE_FIELD(opnos);
READ_NODE_FIELD(opfamilies);
READ_NODE_FIELD(largs);
READ_NODE_FIELD(rargs);
READ_DONE();
}
/*
* _readCoalesceExpr
*/
static CoalesceExpr *
_readCoalesceExpr(void)
{
READ_LOCALS(CoalesceExpr);
READ_OID_FIELD(coalescetype);
READ_NODE_FIELD(args);
READ_DONE();
}
/*
* _readMinMaxExpr
*/
static MinMaxExpr *
_readMinMaxExpr(void)
{
READ_LOCALS(MinMaxExpr);
READ_OID_FIELD(minmaxtype);
READ_ENUM_FIELD(op, MinMaxOp);
READ_NODE_FIELD(args);
READ_DONE();
}
/*
* _readXmlExpr
*/
static XmlExpr *
_readXmlExpr(void)
{
READ_LOCALS(XmlExpr);
READ_ENUM_FIELD(op, XmlExprOp);
READ_STRING_FIELD(name);
READ_NODE_FIELD(named_args);
READ_NODE_FIELD(arg_names);
READ_NODE_FIELD(args);
READ_ENUM_FIELD(xmloption, XmlOptionType);
READ_OID_FIELD(type);
READ_INT_FIELD(typmod);
READ_DONE();
}
/*
* _readNullIfExpr
*/
static NullIfExpr *
_readNullIfExpr(void)
{
READ_LOCALS(NullIfExpr);
READ_OID_FIELD(opno);
READ_OID_FIELD(opfuncid);
/*
* The opfuncid is stored in the textual format primarily for debugging
* and documentation reasons. We want to always read it as zero to force
* it to be re-looked-up in the pg_operator entry. This ensures that
* stored rules don't have hidden dependencies on operators' functions.
* (We don't currently support an ALTER OPERATOR command, but might
* someday.)
*/
local_node->opfuncid = InvalidOid;
READ_OID_FIELD(opresulttype);
READ_BOOL_FIELD(opretset);
READ_NODE_FIELD(args);
READ_DONE();
}
/*
* _readNullTest
*/
static NullTest *
_readNullTest(void)
{
READ_LOCALS(NullTest);
READ_NODE_FIELD(arg);
READ_ENUM_FIELD(nulltesttype, NullTestType);
READ_DONE();
}
/*
* _readBooleanTest
*/
static BooleanTest *
_readBooleanTest(void)
{
READ_LOCALS(BooleanTest);
READ_NODE_FIELD(arg);
READ_ENUM_FIELD(booltesttype, BoolTestType);
READ_DONE();
}
/*
* _readCoerceToDomain
*/
static CoerceToDomain *
_readCoerceToDomain(void)
{
READ_LOCALS(CoerceToDomain);
READ_NODE_FIELD(arg);
READ_OID_FIELD(resulttype);
READ_INT_FIELD(resulttypmod);
READ_ENUM_FIELD(coercionformat, CoercionForm);
READ_DONE();
}
/*
* _readCoerceToDomainValue
*/
static CoerceToDomainValue *
_readCoerceToDomainValue(void)
{
READ_LOCALS(CoerceToDomainValue);
READ_OID_FIELD(typeId);
READ_INT_FIELD(typeMod);
READ_DONE();
}
/*
* _readSetToDefault
*/
static SetToDefault *
_readSetToDefault(void)
{
READ_LOCALS(SetToDefault);
READ_OID_FIELD(typeId);
READ_INT_FIELD(typeMod);
READ_DONE();
}
/*
* _readTargetEntry
*/
static TargetEntry *
_readTargetEntry(void)
{
READ_LOCALS(TargetEntry);
READ_NODE_FIELD(expr);
READ_INT_FIELD(resno);
READ_STRING_FIELD(resname);
READ_UINT_FIELD(ressortgroupref);
READ_OID_FIELD(resorigtbl);
READ_INT_FIELD(resorigcol);
READ_BOOL_FIELD(resjunk);
READ_DONE();
}
/*
* _readRangeTblRef
*/
static RangeTblRef *
_readRangeTblRef(void)
{
READ_LOCALS(RangeTblRef);
READ_INT_FIELD(rtindex);
READ_DONE();
}
/*
* _readJoinExpr
*/
static JoinExpr *
_readJoinExpr(void)
{
READ_LOCALS(JoinExpr);
READ_ENUM_FIELD(jointype, JoinType);
READ_BOOL_FIELD(isNatural);
READ_NODE_FIELD(larg);
READ_NODE_FIELD(rarg);
READ_NODE_FIELD(using);
READ_NODE_FIELD(quals);
READ_NODE_FIELD(alias);
READ_INT_FIELD(rtindex);
READ_DONE();
}
/*
* _readFromExpr
*/
static FromExpr *
_readFromExpr(void)
{
READ_LOCALS(FromExpr);
READ_NODE_FIELD(fromlist);
READ_NODE_FIELD(quals);
READ_DONE();
}
/*
* Stuff from parsenodes.h.
*/
/*
* _readRangeTblEntry
*/
static RangeTblEntry *
_readRangeTblEntry(void)
{
READ_LOCALS(RangeTblEntry);
/* put alias + eref first to make dump more legible */
READ_NODE_FIELD(alias);
READ_NODE_FIELD(eref);
READ_ENUM_FIELD(rtekind, RTEKind);
switch (local_node->rtekind)
{
case RTE_RELATION:
case RTE_SPECIAL:
READ_OID_FIELD(relid);
break;
case RTE_SUBQUERY:
READ_NODE_FIELD(subquery);
break;
case RTE_FUNCTION:
READ_NODE_FIELD(funcexpr);
READ_NODE_FIELD(funccoltypes);
READ_NODE_FIELD(funccoltypmods);
break;
case RTE_VALUES:
READ_NODE_FIELD(values_lists);
break;
case RTE_JOIN:
READ_ENUM_FIELD(jointype, JoinType);
READ_NODE_FIELD(joinaliasvars);
break;
default:
elog(ERROR, "unrecognized RTE kind: %d",
(int) local_node->rtekind);
break;
}
READ_BOOL_FIELD(inh);
READ_BOOL_FIELD(inFromCl);
READ_UINT_FIELD(requiredPerms);
READ_OID_FIELD(checkAsUser);
READ_DONE();
}
/*
* parseNodeString
*
* Given a character string representing a node tree, parseNodeString creates
* the internal node structure.
*
* The string to be read must already have been loaded into pg_strtok().
*/
Node *
parseNodeString(void)
{
void *return_value;
READ_TEMP_LOCALS();
token = pg_strtok(&length);
#define MATCH(tokname, namelen) \
(length == namelen && strncmp(token, tokname, namelen) == 0)
if (MATCH("QUERY", 5))
return_value = _readQuery();
else if (MATCH("SORTCLAUSE", 10))
return_value = _readSortClause();
else if (MATCH("GROUPCLAUSE", 11))
return_value = _readGroupClause();
else if (MATCH("ROWMARKCLAUSE", 13))
return_value = _readRowMarkClause();
else if (MATCH("SETOPERATIONSTMT", 16))
return_value = _readSetOperationStmt();
else if (MATCH("ALIAS", 5))
return_value = _readAlias();
else if (MATCH("RANGEVAR", 8))
return_value = _readRangeVar();
else if (MATCH("INTOCLAUSE", 10))
return_value = _readIntoClause();
else if (MATCH("VAR", 3))
return_value = _readVar();
else if (MATCH("CONST", 5))
return_value = _readConst();
else if (MATCH("PARAM", 5))
return_value = _readParam();
else if (MATCH("AGGREF", 6))
return_value = _readAggref();
else if (MATCH("ARRAYREF", 8))
return_value = _readArrayRef();
else if (MATCH("FUNCEXPR", 8))
return_value = _readFuncExpr();
else if (MATCH("OPEXPR", 6))
return_value = _readOpExpr();
else if (MATCH("DISTINCTEXPR", 12))
return_value = _readDistinctExpr();
else if (MATCH("SCALARARRAYOPEXPR", 17))
return_value = _readScalarArrayOpExpr();
else if (MATCH("BOOLEXPR", 8))
return_value = _readBoolExpr();
else if (MATCH("SUBLINK", 7))
return_value = _readSubLink();
else if (MATCH("FIELDSELECT", 11))
return_value = _readFieldSelect();
else if (MATCH("FIELDSTORE", 10))
return_value = _readFieldStore();
else if (MATCH("RELABELTYPE", 11))
return_value = _readRelabelType();
else if (MATCH("COERCEVIAIO", 11))
return_value = _readCoerceViaIO();
else if (MATCH("ARRAYCOERCEEXPR", 15))
return_value = _readArrayCoerceExpr();
else if (MATCH("CONVERTROWTYPEEXPR", 18))
return_value = _readConvertRowtypeExpr();
else if (MATCH("CASE", 4))
return_value = _readCaseExpr();
else if (MATCH("WHEN", 4))
return_value = _readCaseWhen();
else if (MATCH("CASETESTEXPR", 12))
return_value = _readCaseTestExpr();
else if (MATCH("ARRAY", 5))
return_value = _readArrayExpr();
else if (MATCH("ROW", 3))
return_value = _readRowExpr();
else if (MATCH("ROWCOMPARE", 10))
return_value = _readRowCompareExpr();
else if (MATCH("COALESCE", 8))
return_value = _readCoalesceExpr();
else if (MATCH("MINMAX", 6))
return_value = _readMinMaxExpr();
else if (MATCH("XMLEXPR", 7))
return_value = _readXmlExpr();
else if (MATCH("NULLIFEXPR", 10))
return_value = _readNullIfExpr();
else if (MATCH("NULLTEST", 8))
return_value = _readNullTest();
else if (MATCH("BOOLEANTEST", 11))
return_value = _readBooleanTest();
else if (MATCH("COERCETODOMAIN", 14))
return_value = _readCoerceToDomain();
else if (MATCH("COERCETODOMAINVALUE", 19))
return_value = _readCoerceToDomainValue();
else if (MATCH("SETTODEFAULT", 12))
return_value = _readSetToDefault();
else if (MATCH("TARGETENTRY", 11))
return_value = _readTargetEntry();
else if (MATCH("RANGETBLREF", 11))
return_value = _readRangeTblRef();
else if (MATCH("JOINEXPR", 8))
return_value = _readJoinExpr();
else if (MATCH("FROMEXPR", 8))
return_value = _readFromExpr();
else if (MATCH("RTE", 3))
return_value = _readRangeTblEntry();
else if (MATCH("NOTIFY", 6))
return_value = _readNotifyStmt();
else if (MATCH("DECLARECURSOR", 13))
return_value = _readDeclareCursorStmt();
else
{
elog(ERROR, "badly formatted node string \"%.32s\"...", token);
return_value = NULL; /* keep compiler quiet */
}
return (Node *) return_value;
}
/*
* readDatum
*
* Given a string representation of a constant, recreate the appropriate
* Datum. The string representation embeds length info, but not byValue,
* so we must be told that.
*/
static Datum
readDatum(bool typbyval)
{
Size length,
i;
int tokenLength;
char *token;
Datum res;
char *s;
/*
* read the actual length of the value
*/
token = pg_strtok(&tokenLength);
length = atoui(token);
token = pg_strtok(&tokenLength); /* read the '[' */
if (token == NULL || token[0] != '[')
elog(ERROR, "expected \"[\" to start datum, but got \"%s\"; length = %lu",
token ? (const char *) token : "[NULL]",
(unsigned long) length);
if (typbyval)
{
if (length > (Size) sizeof(Datum))
elog(ERROR, "byval datum but length = %lu",
(unsigned long) length);
res = (Datum) 0;
s = (char *) (&res);
for (i = 0; i < (Size) sizeof(Datum); i++)
{
token = pg_strtok(&tokenLength);
s[i] = (char) atoi(token);
}
}
else if (length <= 0)
res = (Datum) NULL;
else
{
s = (char *) palloc(length);
for (i = 0; i < length; i++)
{
token = pg_strtok(&tokenLength);
s[i] = (char) atoi(token);
}
res = PointerGetDatum(s);
}
token = pg_strtok(&tokenLength); /* read the ']' */
if (token == NULL || token[0] != ']')
elog(ERROR, "expected \"]\" to end datum, but got \"%s\"; length = %lu",
token ? (const char *) token : "[NULL]",
(unsigned long) length);
return res;
}
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