/*------------------------------------------------------------------------- * * parse_type.c * handle type operations for parser * * Portions Copyright (c) 1996-2002, PostgreSQL Global Development Group * Portions Copyright (c) 1994, Regents of the University of California * * * IDENTIFICATION * $Header: /cvsroot/pgsql/src/backend/parser/parse_type.c,v 1.57 2003/04/29 22:13:10 tgl Exp $ * *------------------------------------------------------------------------- */ #include "postgres.h" #include "catalog/namespace.h" #include "catalog/pg_type.h" #include "lib/stringinfo.h" #include "miscadmin.h" #include "nodes/makefuncs.h" #include "nodes/parsenodes.h" #include "parser/parser.h" #include "parser/parse_expr.h" #include "parser/parse_type.h" #include "utils/builtins.h" #include "utils/lsyscache.h" #include "utils/syscache.h" /* * LookupTypeName * Given a TypeName object, get the OID of the referenced type. * Returns InvalidOid if no such type can be found. * * NB: even if the returned OID is not InvalidOid, the type might be * just a shell. Caller should check typisdefined before using the type. */ Oid LookupTypeName(const TypeName *typename) { Oid restype; /* Easy if it's an internally generated TypeName */ if (typename->names == NIL) return typename->typeid; if (typename->pct_type) { /* Handle %TYPE reference to type of an existing field */ RangeVar *rel = makeRangeVar(NULL, NULL); char *field = NULL; Oid relid; AttrNumber attnum; /* deconstruct the name list */ switch (length(typename->names)) { case 1: elog(ERROR, "Improper %%TYPE reference (too few dotted names): %s", NameListToString(typename->names)); break; case 2: rel->relname = strVal(lfirst(typename->names)); field = strVal(lsecond(typename->names)); break; case 3: rel->schemaname = strVal(lfirst(typename->names)); rel->relname = strVal(lsecond(typename->names)); field = strVal(lthird(typename->names)); break; case 4: rel->catalogname = strVal(lfirst(typename->names)); rel->schemaname = strVal(lsecond(typename->names)); rel->relname = strVal(lthird(typename->names)); field = strVal(lfourth(typename->names)); break; default: elog(ERROR, "Improper %%TYPE reference (too many dotted names): %s", NameListToString(typename->names)); break; } /* look up the field */ relid = RangeVarGetRelid(rel, false); attnum = get_attnum(relid, field); if (attnum == InvalidAttrNumber) elog(ERROR, "Relation \"%s\" has no column \"%s\"", rel->relname, field); restype = get_atttype(relid, attnum); /* this construct should never have an array indicator */ Assert(typename->arrayBounds == NIL); /* emit nuisance warning */ elog(NOTICE, "%s converted to %s", TypeNameToString(typename), format_type_be(restype)); } else { /* Normal reference to a type name */ char *schemaname; char *typname; /* deconstruct the name list */ DeconstructQualifiedName(typename->names, &schemaname, &typname); /* If an array reference, look up the array type instead */ if (typename->arrayBounds != NIL) typname = makeArrayTypeName(typname); if (schemaname) { /* Look in specific schema only */ Oid namespaceId; namespaceId = LookupExplicitNamespace(schemaname); restype = GetSysCacheOid(TYPENAMENSP, PointerGetDatum(typname), ObjectIdGetDatum(namespaceId), 0, 0); } else { /* Unqualified type name, so search the search path */ restype = TypenameGetTypid(typname); } } return restype; } /* * TypeNameToString * Produce a string representing the name of a TypeName. * * NB: this must work on TypeNames that do not describe any actual type; * it is mostly used for reporting lookup errors. */ char * TypeNameToString(const TypeName *typename) { StringInfoData string; initStringInfo(&string); if (typename->names != NIL) { /* Emit possibly-qualified name as-is */ List *l; foreach(l, typename->names) { if (l != typename->names) appendStringInfoChar(&string, '.'); appendStringInfoString(&string, strVal(lfirst(l))); } } else { /* Look up internally-specified type */ appendStringInfoString(&string, format_type_be(typename->typeid)); } /* * Add decoration as needed, but only for fields considered by * LookupTypeName */ if (typename->pct_type) appendStringInfoString(&string, "%TYPE"); if (typename->arrayBounds != NIL) appendStringInfoString(&string, "[]"); return string.data; } /* * typenameTypeId - given a TypeName, return the type's OID * * This is equivalent to LookupTypeName, except that this will report * a suitable error message if the type cannot be found or is not defined. */ Oid typenameTypeId(const TypeName *typename) { Oid typoid; typoid = LookupTypeName(typename); if (!OidIsValid(typoid)) elog(ERROR, "Type \"%s\" does not exist", TypeNameToString(typename)); if (!get_typisdefined(typoid)) elog(ERROR, "Type \"%s\" is only a shell", TypeNameToString(typename)); return typoid; } /* * typenameType - given a TypeName, return a Type structure * * This is equivalent to typenameTypeId + syscache fetch of Type tuple. * NB: caller must ReleaseSysCache the type tuple when done with it. */ Type typenameType(const TypeName *typename) { Oid typoid; HeapTuple tup; typoid = LookupTypeName(typename); if (!OidIsValid(typoid)) elog(ERROR, "Type \"%s\" does not exist", TypeNameToString(typename)); tup = SearchSysCache(TYPEOID, ObjectIdGetDatum(typoid), 0, 0, 0); if (!HeapTupleIsValid(tup)) elog(ERROR, "Type \"%s\" does not exist", TypeNameToString(typename)); if (!((Form_pg_type) GETSTRUCT(tup))->typisdefined) elog(ERROR, "Type \"%s\" is only a shell", TypeNameToString(typename)); return (Type) tup; } /* check to see if a type id is valid, returns true if it is */ bool typeidIsValid(Oid id) { return SearchSysCacheExists(TYPEOID, ObjectIdGetDatum(id), 0, 0, 0); } /* return a Type structure, given a type id */ /* NB: caller must ReleaseSysCache the type tuple when done with it */ Type typeidType(Oid id) { HeapTuple tup; tup = SearchSysCache(TYPEOID, ObjectIdGetDatum(id), 0, 0, 0); if (!HeapTupleIsValid(tup)) elog(ERROR, "Unable to locate type oid %u in catalog", id); return (Type) tup; } /* given type (as type struct), return the type OID */ Oid typeTypeId(Type tp) { if (tp == NULL) elog(ERROR, "typeTypeId() called with NULL type struct"); return HeapTupleGetOid(tp); } /* given type (as type struct), return the length of type */ int16 typeLen(Type t) { Form_pg_type typ; typ = (Form_pg_type) GETSTRUCT(t); return typ->typlen; } /* given type (as type struct), return the value of its 'byval' attribute.*/ bool typeByVal(Type t) { Form_pg_type typ; typ = (Form_pg_type) GETSTRUCT(t); return typ->typbyval; } /* given type (as type struct), return the value of its 'typtype' attribute.*/ char typeTypType(Type t) { Form_pg_type typ; typ = (Form_pg_type) GETSTRUCT(t); return typ->typtype; } /* given type (as type struct), return the name of type */ char * typeTypeName(Type t) { Form_pg_type typ; typ = (Form_pg_type) GETSTRUCT(t); /* pstrdup here because result may need to outlive the syscache entry */ return pstrdup(NameStr(typ->typname)); } /* given a type, return its typetype ('c' for 'c'atalog types) */ char typeTypeFlag(Type t) { Form_pg_type typ; typ = (Form_pg_type) GETSTRUCT(t); return typ->typtype; } Oid typeTypeRelid(Type typ) { Form_pg_type typtup; typtup = (Form_pg_type) GETSTRUCT(typ); return typtup->typrelid; } #ifdef NOT_USED Oid typeTypElem(Type typ) { Form_pg_type typtup; typtup = (Form_pg_type) GETSTRUCT(typ); return typtup->typelem; } #endif #ifdef NOT_USED /* Given a type structure, return the in-conversion function of the type */ Oid typeInfunc(Type typ) { Form_pg_type typtup; typtup = (Form_pg_type) GETSTRUCT(typ); return typtup->typinput; } #endif #ifdef NOT_USED /* Given a type structure, return the out-conversion function of the type */ Oid typeOutfunc(Type typ) { Form_pg_type typtup; typtup = (Form_pg_type) GETSTRUCT(typ); return typtup->typoutput; } #endif /* Given a type structure and a string, returns the internal form of that string */ Datum stringTypeDatum(Type tp, char *string, int32 atttypmod) { Oid op; Oid typelem; op = ((Form_pg_type) GETSTRUCT(tp))->typinput; typelem = ((Form_pg_type) GETSTRUCT(tp))->typelem; /* XXX - used for * array_in */ return OidFunctionCall3(op, CStringGetDatum(string), ObjectIdGetDatum(typelem), Int32GetDatum(atttypmod)); } /* Given a type id, returns the out-conversion function of the type */ #ifdef NOT_USED Oid typeidOutfunc(Oid type_id) { HeapTuple typeTuple; Form_pg_type type; Oid outfunc; typeTuple = SearchSysCache(TYPEOID, ObjectIdGetDatum(type_id), 0, 0, 0); if (!HeapTupleIsValid(typeTuple)) elog(ERROR, "typeidOutfunc: Invalid type - oid = %u", type_id); type = (Form_pg_type) GETSTRUCT(typeTuple); outfunc = type->typoutput; ReleaseSysCache(typeTuple); return outfunc; } #endif /* given a typeid, return the type's typrelid (associated relation, if any) */ Oid typeidTypeRelid(Oid type_id) { HeapTuple typeTuple; Form_pg_type type; Oid result; typeTuple = SearchSysCache(TYPEOID, ObjectIdGetDatum(type_id), 0, 0, 0); if (!HeapTupleIsValid(typeTuple)) elog(ERROR, "typeidTypeRelid: Invalid type - oid = %u", type_id); type = (Form_pg_type) GETSTRUCT(typeTuple); result = type->typrelid; ReleaseSysCache(typeTuple); return result; } /* * Given a string that is supposed to be a SQL-compatible type declaration, * such as "int4" or "integer" or "character varying(32)", parse * the string and convert it to a type OID and type modifier. * * This routine is not currently used by the main backend, but it is * exported for use by add-on modules such as plpgsql, in hopes of * centralizing parsing knowledge about SQL type declarations. */ void parseTypeString(const char *str, Oid *type_id, int32 *typmod) { StringInfoData buf; List *raw_parsetree_list; SelectStmt *stmt; ResTarget *restarget; TypeCast *typecast; TypeName *typename; initStringInfo(&buf); appendStringInfo(&buf, "SELECT (NULL::%s)", str); raw_parsetree_list = raw_parser(buf.data); /* * Make sure we got back exactly what we expected and no more; * paranoia is justified since the string might contain anything. */ if (length(raw_parsetree_list) != 1) elog(ERROR, "Invalid type name '%s'", str); stmt = (SelectStmt *) lfirst(raw_parsetree_list); if (stmt == NULL || !IsA(stmt, SelectStmt) || stmt->distinctClause != NIL || stmt->into != NULL || stmt->fromClause != NIL || stmt->whereClause != NULL || stmt->groupClause != NIL || stmt->havingClause != NULL || stmt->sortClause != NIL || stmt->limitOffset != NULL || stmt->limitCount != NULL || stmt->forUpdate != NIL || stmt->op != SETOP_NONE) elog(ERROR, "Invalid type name '%s'", str); if (length(stmt->targetList) != 1) elog(ERROR, "Invalid type name '%s'", str); restarget = (ResTarget *) lfirst(stmt->targetList); if (restarget == NULL || !IsA(restarget, ResTarget) || restarget->name != NULL || restarget->indirection != NIL) elog(ERROR, "Invalid type name '%s'", str); typecast = (TypeCast *) restarget->val; if (typecast == NULL || !IsA(typecast, TypeCast) || typecast->arg == NULL || !IsA(typecast->arg, A_Const)) elog(ERROR, "Invalid type name '%s'", str); typename = typecast->typename; if (typename == NULL || !IsA(typename, TypeName)) elog(ERROR, "Invalid type name '%s'", str); *type_id = typenameTypeId(typename); *typmod = typename->typmod; pfree(buf.data); }