/*------------------------------------------------------------------------- * * parser.c * * Copyright (c) 1994, Regents of the University of California * * * IDENTIFICATION * $Header: /cvsroot/pgsql/src/backend/parser/parser.c,v 1.37 1999/02/13 23:17:10 momjian Exp $ * *------------------------------------------------------------------------- */ #include #include #include "postgres.h" #include "nodes/pg_list.h" #include "parser/analyze.h" #include "parser/gramparse.h" #include "parser/parse_node.h" #include "parser/parser.h" char *parseString; /* the char* which holds the string to be * parsed */ List *parsetree = NIL; #ifdef SETS_FIXED static void fixupsets(); static void define_sets(); #endif /* * parser-- returns a list of parse trees * * CALLER is responsible for free'ing the list returned */ QueryTreeList * parser(char *str, Oid *typev, int nargs) { QueryTreeList *queryList; int yyresult; #if defined(FLEX_SCANNER) extern void DeleteBuffer(void); #endif /* FLEX_SCANNER */ init_io(); parseString = pstrdup(str); parser_init(typev, nargs); yyresult = yyparse(); #if defined(FLEX_SCANNER) DeleteBuffer(); #endif /* FLEX_SCANNER */ clearerr(stdin); if (yyresult) /* error */ return (QueryTreeList *) NULL; queryList = parse_analyze(parsetree, NULL); #ifdef SETS_FIXED /* * Fixing up sets calls the parser, so it reassigns the global * variable parsetree. So save the real parsetree. */ savetree = parsetree; foreach(parse, savetree) { /* savetree is really a list of parses */ /* find set definitions embedded in query */ fixupsets((Query *) lfirst(parse)); } return savetree; #endif return queryList; } #ifdef SETS_FIXED static void fixupsets(Query *parse) { if (parse == NULL) return; if (parse->commandType == CMD_UTILITY) /* utility */ return; if (parse->commandType != CMD_INSERT) return; define_sets(parse); } /* Recursively find all of the Consts in the parsetree. Some of * these may represent a set. The value of the Const will be the * query (a string) which defines the set. Call SetDefine to define * the set, and store the OID of the new set in the Const instead. */ static void define_sets(Node *clause) { Oid setoid; Type t = typeidType(OIDOID); Oid typeoid = typeTypeId(t); Size oidsize = typeLen(t); bool oidbyval = typeByVal(t); if (clause == NULL) return; else if (IsA(clause, LispList)) { define_sets(lfirst(clause)); define_sets(lnext(clause)); } else if (IsA(clause, Const)) { if (get_constisnull((Const) clause) || !get_constisset((Const) clause)) return; setoid = SetDefine(((Const *) clause)->constvalue, typeidTypeName(((Const *) clause)->consttype)); set_constvalue((Const) clause, setoid); set_consttype((Const) clause, typeoid); set_constlen((Const) clause, oidsize); set_constypeByVal((Const) clause, oidbyval); } else if (IsA(clause, Iter)) define_sets(((Iter *) clause)->iterexpr); else if (single_node(clause)) return; else if (or_clause(clause) || and_clause(clause)) { List *temp; /* mapcan */ foreach(temp, ((Expr *) clause)->args) define_sets(lfirst(temp)); } else if (is_funcclause(clause)) { List *temp; /* mapcan */ foreach(temp, ((Expr *) clause)->args) define_sets(lfirst(temp)); } else if (IsA(clause, ArrayRef)) define_sets(((ArrayRef *) clause)->refassgnexpr); else if (not_clause(clause)) define_sets(get_notclausearg(clause)); else if (is_opclause(clause)) { define_sets(get_leftop(clause)); define_sets(get_rightop(clause)); } } #endif