/*------------------------------------------------------------------------- * * makefuncs.c * creator functions for primitive nodes. The functions here are for * the most frequently created nodes. * * Portions Copyright (c) 1996-2012, PostgreSQL Global Development Group * Portions Copyright (c) 1994, Regents of the University of California * * * IDENTIFICATION * src/backend/nodes/makefuncs.c * *------------------------------------------------------------------------- */ #include "postgres.h" #include "catalog/pg_class.h" #include "catalog/pg_type.h" #include "nodes/makefuncs.h" #include "nodes/nodeFuncs.h" #include "utils/lsyscache.h" /* * makeA_Expr - * makes an A_Expr node */ A_Expr * makeA_Expr(A_Expr_Kind kind, List *name, Node *lexpr, Node *rexpr, int location) { A_Expr *a = makeNode(A_Expr); a->kind = kind; a->name = name; a->lexpr = lexpr; a->rexpr = rexpr; a->location = location; return a; } /* * makeSimpleA_Expr - * As above, given a simple (unqualified) operator name */ A_Expr * makeSimpleA_Expr(A_Expr_Kind kind, char *name, Node *lexpr, Node *rexpr, int location) { A_Expr *a = makeNode(A_Expr); a->kind = kind; a->name = list_make1(makeString((char *) name)); a->lexpr = lexpr; a->rexpr = rexpr; a->location = location; return a; } /* * makeVar - * creates a Var node */ Var * makeVar(Index varno, AttrNumber varattno, Oid vartype, int32 vartypmod, Oid varcollid, Index varlevelsup) { Var *var = makeNode(Var); var->varno = varno; var->varattno = varattno; var->vartype = vartype; var->vartypmod = vartypmod; var->varcollid = varcollid; var->varlevelsup = varlevelsup; /* * Since few if any routines ever create Var nodes with varnoold/varoattno * different from varno/varattno, we don't provide separate arguments for * them, but just initialize them to the given varno/varattno. This * reduces code clutter and chance of error for most callers. */ var->varnoold = varno; var->varoattno = varattno; /* Likewise, we just set location to "unknown" here */ var->location = -1; return var; } /* * makeVarFromTargetEntry - * convenience function to create a same-level Var node from a * TargetEntry */ Var * makeVarFromTargetEntry(Index varno, TargetEntry *tle) { return makeVar(varno, tle->resno, exprType((Node *) tle->expr), exprTypmod((Node *) tle->expr), exprCollation((Node *) tle->expr), 0); } /* * makeWholeRowVar - * creates a Var node representing a whole row of the specified RTE * * A whole-row reference is a Var with varno set to the correct range * table entry, and varattno == 0 to signal that it references the whole * tuple. (Use of zero here is unclean, since it could easily be confused * with error cases, but it's not worth changing now.) The vartype indicates * a rowtype; either a named composite type, or RECORD. This function * encapsulates the logic for determining the correct rowtype OID to use. * * If allowScalar is true, then for the case where the RTE is a function * returning a non-composite result type, we produce a normal Var referencing * the function's result directly, instead of the single-column composite * value that the whole-row notation might otherwise suggest. */ Var * makeWholeRowVar(RangeTblEntry *rte, Index varno, Index varlevelsup, bool allowScalar) { Var *result; Oid toid; switch (rte->rtekind) { case RTE_RELATION: /* relation: the rowtype is a named composite type */ toid = get_rel_type_id(rte->relid); if (!OidIsValid(toid)) elog(ERROR, "could not find type OID for relation %u", rte->relid); result = makeVar(varno, InvalidAttrNumber, toid, -1, InvalidOid, varlevelsup); break; case RTE_FUNCTION: toid = exprType(rte->funcexpr); if (type_is_rowtype(toid)) { /* func returns composite; same as relation case */ result = makeVar(varno, InvalidAttrNumber, toid, -1, InvalidOid, varlevelsup); } else if (allowScalar) { /* func returns scalar; just return its output as-is */ result = makeVar(varno, 1, toid, -1, exprCollation(rte->funcexpr), varlevelsup); } else { /* func returns scalar, but we want a composite result */ result = makeVar(varno, InvalidAttrNumber, RECORDOID, -1, InvalidOid, varlevelsup); } break; default: /* * RTE is a join, subselect, or VALUES. We represent this as a * whole-row Var of RECORD type. (Note that in most cases the Var * will be expanded to a RowExpr during planning, but that is not * our concern here.) */ result = makeVar(varno, InvalidAttrNumber, RECORDOID, -1, InvalidOid, varlevelsup); break; } return result; } /* * makeTargetEntry - * creates a TargetEntry node */ TargetEntry * makeTargetEntry(Expr *expr, AttrNumber resno, char *resname, bool resjunk) { TargetEntry *tle = makeNode(TargetEntry); tle->expr = expr; tle->resno = resno; tle->resname = resname; /* * We always set these fields to 0. If the caller wants to change them he * must do so explicitly. Few callers do that, so omitting these * arguments reduces the chance of error. */ tle->ressortgroupref = 0; tle->resorigtbl = InvalidOid; tle->resorigcol = 0; tle->resjunk = resjunk; return tle; } /* * flatCopyTargetEntry - * duplicate a TargetEntry, but don't copy substructure * * This is commonly used when we just want to modify the resno or substitute * a new expression. */ TargetEntry * flatCopyTargetEntry(TargetEntry *src_tle) { TargetEntry *tle = makeNode(TargetEntry); Assert(IsA(src_tle, TargetEntry)); memcpy(tle, src_tle, sizeof(TargetEntry)); return tle; } /* * makeFromExpr - * creates a FromExpr node */ FromExpr * makeFromExpr(List *fromlist, Node *quals) { FromExpr *f = makeNode(FromExpr); f->fromlist = fromlist; f->quals = quals; return f; } /* * makeConst - * creates a Const node */ Const * makeConst(Oid consttype, int32 consttypmod, Oid constcollid, int constlen, Datum constvalue, bool constisnull, bool constbyval) { Const *cnst = makeNode(Const); cnst->consttype = consttype; cnst->consttypmod = consttypmod; cnst->constcollid = constcollid; cnst->constlen = constlen; cnst->constvalue = constvalue; cnst->constisnull = constisnull; cnst->constbyval = constbyval; cnst->location = -1; /* "unknown" */ return cnst; } /* * makeNullConst - * creates a Const node representing a NULL of the specified type/typmod * * This is a convenience routine that just saves a lookup of the type's * storage properties. */ Const * makeNullConst(Oid consttype, int32 consttypmod, Oid constcollid) { int16 typLen; bool typByVal; get_typlenbyval(consttype, &typLen, &typByVal); return makeConst(consttype, consttypmod, constcollid, (int) typLen, (Datum) 0, true, typByVal); } /* * makeBoolConst - * creates a Const node representing a boolean value (can be NULL too) */ Node * makeBoolConst(bool value, bool isnull) { /* note that pg_type.h hardwires size of bool as 1 ... duplicate it */ return (Node *) makeConst(BOOLOID, -1, InvalidOid, 1, BoolGetDatum(value), isnull, true); } /* * makeBoolExpr - * creates a BoolExpr node */ Expr * makeBoolExpr(BoolExprType boolop, List *args, int location) { BoolExpr *b = makeNode(BoolExpr); b->boolop = boolop; b->args = args; b->location = location; return (Expr *) b; } /* * makeAlias - * creates an Alias node * * NOTE: the given name is copied, but the colnames list (if any) isn't. */ Alias * makeAlias(const char *aliasname, List *colnames) { Alias *a = makeNode(Alias); a->aliasname = pstrdup(aliasname); a->colnames = colnames; return a; } /* * makeRelabelType - * creates a RelabelType node */ RelabelType * makeRelabelType(Expr *arg, Oid rtype, int32 rtypmod, Oid rcollid, CoercionForm rformat) { RelabelType *r = makeNode(RelabelType); r->arg = arg; r->resulttype = rtype; r->resulttypmod = rtypmod; r->resultcollid = rcollid; r->relabelformat = rformat; r->location = -1; return r; } /* * makeRangeVar - * creates a RangeVar node (rather oversimplified case) */ RangeVar * makeRangeVar(char *schemaname, char *relname, int location) { RangeVar *r = makeNode(RangeVar); r->catalogname = NULL; r->schemaname = schemaname; r->relname = relname; r->inhOpt = INH_DEFAULT; r->relpersistence = RELPERSISTENCE_PERMANENT; r->alias = NULL; r->location = location; return r; } /* * makeTypeName - * build a TypeName node for an unqualified name. * * typmod is defaulted, but can be changed later by caller. */ TypeName * makeTypeName(char *typnam) { return makeTypeNameFromNameList(list_make1(makeString(typnam))); } /* * makeTypeNameFromNameList - * build a TypeName node for a String list representing a qualified name. * * typmod is defaulted, but can be changed later by caller. */ TypeName * makeTypeNameFromNameList(List *names) { TypeName *n = makeNode(TypeName); n->names = names; n->typmods = NIL; n->typemod = -1; n->location = -1; return n; } /* * makeTypeNameFromOid - * build a TypeName node to represent a type already known by OID/typmod. */ TypeName * makeTypeNameFromOid(Oid typeOid, int32 typmod) { TypeName *n = makeNode(TypeName); n->typeOid = typeOid; n->typemod = typmod; n->location = -1; return n; } /* * makeFuncExpr - * build an expression tree representing a function call. * * The argument expressions must have been transformed already. */ FuncExpr * makeFuncExpr(Oid funcid, Oid rettype, List *args, Oid funccollid, Oid inputcollid, CoercionForm fformat) { FuncExpr *funcexpr; funcexpr = makeNode(FuncExpr); funcexpr->funcid = funcid; funcexpr->funcresulttype = rettype; funcexpr->funcretset = false; /* only allowed case here */ funcexpr->funcformat = fformat; funcexpr->funccollid = funccollid; funcexpr->inputcollid = inputcollid; funcexpr->args = args; funcexpr->location = -1; return funcexpr; } /* * makeDefElem - * build a DefElem node * * This is sufficient for the "typical" case with an unqualified option name * and no special action. */ DefElem * makeDefElem(char *name, Node *arg) { DefElem *res = makeNode(DefElem); res->defnamespace = NULL; res->defname = name; res->arg = arg; res->defaction = DEFELEM_UNSPEC; return res; } /* * makeDefElemExtended - * build a DefElem node with all fields available to be specified */ DefElem * makeDefElemExtended(char *nameSpace, char *name, Node *arg, DefElemAction defaction) { DefElem *res = makeNode(DefElem); res->defnamespace = nameSpace; res->defname = name; res->arg = arg; res->defaction = defaction; return res; }