/*------------------------------------------------------------------------- * * parse_node.h * Internal definitions for parser * * * Portions Copyright (c) 1996-2006, PostgreSQL Global Development Group * Portions Copyright (c) 1994, Regents of the University of California * * $PostgreSQL: pgsql/src/include/parser/parse_node.h,v 1.49 2006/04/30 18:30:40 tgl Exp $ * *------------------------------------------------------------------------- */ #ifndef PARSE_NODE_H #define PARSE_NODE_H #include "nodes/parsenodes.h" #include "utils/rel.h" /* * State information used during parse analysis * * parentParseState: NULL in a top-level ParseState. When parsing a subquery, * links to current parse state of outer query. * * p_sourcetext: source string that generated the raw parsetree being * analyzed, or NULL if not available. (The string is used only to * generate cursor positions in error messages: we need it to convert * byte-wise locations in parse structures to character-wise cursor * positions.) * * p_rtable: list of RTEs that will become the rangetable of the query. * Note that neither relname nor refname of these entries are necessarily * unique; searching the rtable by name is a bad idea. * * p_joinlist: list of join items (RangeTblRef and JoinExpr nodes) that * will become the fromlist of the query's top-level FromExpr node. * * p_relnamespace: list of RTEs that represents the current namespace for * table lookup, ie, those RTEs that are accessible by qualified names. * This may be just a subset of the rtable + joinlist, and/or may contain * entries that are not yet added to the main joinlist. * * p_varnamespace: list of RTEs that represents the current namespace for * column lookup, ie, those RTEs that are accessible by unqualified names. * This is different from p_relnamespace because a JOIN without an alias does * not hide the contained tables (so they must still be in p_relnamespace) * but it does hide their columns (unqualified references to the columns must * refer to the JOIN, not the member tables). Also, we put POSTQUEL-style * implicit RTEs into p_relnamespace but not p_varnamespace, so that they * do not affect the set of columns available for unqualified references. * * p_paramtypes: an array of p_numparams type OIDs for $n parameter symbols * (zeroth entry in array corresponds to $1). If p_variableparams is true, the * set of param types is not predetermined; in that case, a zero array entry * means that parameter number hasn't been seen, and UNKNOWNOID means the * parameter has been used but its type is not yet known. NOTE: in a stack * of ParseStates, only the topmost ParseState contains paramtype info; but * we copy the p_variableparams flag down to the child nodes for speed in * coerce_type. */ typedef struct ParseState { struct ParseState *parentParseState; /* stack link */ const char *p_sourcetext; /* source text, or NULL if not available */ List *p_rtable; /* range table so far */ List *p_joinlist; /* join items so far (will become FromExpr * node's fromlist) */ List *p_relnamespace; /* current namespace for relations */ List *p_varnamespace; /* current namespace for columns */ Oid *p_paramtypes; /* OIDs of types for $n parameter symbols */ int p_numparams; /* allocated size of p_paramtypes[] */ int p_next_resno; /* next targetlist resno to assign */ List *p_locking_clause; /* raw FOR UPDATE/FOR SHARE info */ Node *p_value_substitute; /* what to replace VALUE with, if any */ bool p_variableparams; bool p_hasAggs; bool p_hasSubLinks; bool p_is_insert; bool p_is_update; Relation p_target_relation; RangeTblEntry *p_target_rangetblentry; } ParseState; extern ParseState *make_parsestate(ParseState *parentParseState); extern int parser_errposition(ParseState *pstate, int location); extern Var *make_var(ParseState *pstate, RangeTblEntry *rte, int attrno); extern Oid transformArrayType(Oid arrayType); extern ArrayRef *transformArraySubscripts(ParseState *pstate, Node *arrayBase, Oid arrayType, Oid elementType, int32 elementTypMod, List *indirection, Node *assignFrom); extern Const *make_const(Value *value); #endif /* PARSE_NODE_H */