/*------------------------------------------------------------------------- * * tupdesc.c * POSTGRES tuple descriptor support code * * Portions Copyright (c) 1996-2000, PostgreSQL, Inc * Portions Copyright (c) 1994, Regents of the University of California * * * IDENTIFICATION * $Header: /cvsroot/pgsql/src/backend/access/common/tupdesc.c,v 1.60 2000/01/26 05:55:53 momjian Exp $ * * NOTES * some of the executor utility code such as "ExecTypeFromTL" should be * moved here. * *------------------------------------------------------------------------- */ #include "postgres.h" #include "catalog/pg_type.h" #include "nodes/parsenodes.h" #include "parser/parse_type.h" #include "utils/builtins.h" #include "utils/syscache.h" /* ---------------------------------------------------------------- * CreateTemplateTupleDesc * * This function allocates and zeros a tuple descriptor structure. * ---------------------------------------------------------------- */ TupleDesc CreateTemplateTupleDesc(int natts) { uint32 size; TupleDesc desc; /* ---------------- * sanity checks * ---------------- */ AssertArg(natts >= 1); /* ---------------- * allocate enough memory for the tuple descriptor and * zero it as TupleDescInitEntry assumes that the descriptor * is filled with NULL pointers. * ---------------- */ size = natts * sizeof(Form_pg_attribute); desc = (TupleDesc) palloc(sizeof(struct tupleDesc)); desc->attrs = (Form_pg_attribute *) palloc(size); desc->constr = NULL; MemSet(desc->attrs, 0, size); desc->natts = natts; return desc; } /* ---------------------------------------------------------------- * CreateTupleDesc * * This function allocates a new TupleDesc from Form_pg_attribute array * ---------------------------------------------------------------- */ TupleDesc CreateTupleDesc(int natts, Form_pg_attribute *attrs) { TupleDesc desc; /* ---------------- * sanity checks * ---------------- */ AssertArg(natts >= 1); desc = (TupleDesc) palloc(sizeof(struct tupleDesc)); desc->attrs = attrs; desc->natts = natts; desc->constr = NULL; return desc; } /* ---------------------------------------------------------------- * CreateTupleDescCopy * * This function creates a new TupleDesc by copying from an existing * TupleDesc * * !!! Constraints are not copied !!! * ---------------------------------------------------------------- */ TupleDesc CreateTupleDescCopy(TupleDesc tupdesc) { TupleDesc desc; int i, size; desc = (TupleDesc) palloc(sizeof(struct tupleDesc)); desc->natts = tupdesc->natts; size = desc->natts * sizeof(Form_pg_attribute); desc->attrs = (Form_pg_attribute *) palloc(size); for (i = 0; i < desc->natts; i++) { desc->attrs[i] = (Form_pg_attribute) palloc(ATTRIBUTE_TUPLE_SIZE); memmove(desc->attrs[i], tupdesc->attrs[i], ATTRIBUTE_TUPLE_SIZE); desc->attrs[i]->attnotnull = false; desc->attrs[i]->atthasdef = false; } desc->constr = NULL; return desc; } /* ---------------------------------------------------------------- * CreateTupleDescCopyConstr * * This function creates a new TupleDesc by copying from an existing * TupleDesc (with Constraints) * * ---------------------------------------------------------------- */ TupleDesc CreateTupleDescCopyConstr(TupleDesc tupdesc) { TupleDesc desc; TupleConstr *constr = tupdesc->constr; int i, size; desc = (TupleDesc) palloc(sizeof(struct tupleDesc)); desc->natts = tupdesc->natts; size = desc->natts * sizeof(Form_pg_attribute); desc->attrs = (Form_pg_attribute *) palloc(size); for (i = 0; i < desc->natts; i++) { desc->attrs[i] = (Form_pg_attribute) palloc(ATTRIBUTE_TUPLE_SIZE); memmove(desc->attrs[i], tupdesc->attrs[i], ATTRIBUTE_TUPLE_SIZE); } if (constr) { TupleConstr *cpy = (TupleConstr *) palloc(sizeof(TupleConstr)); cpy->has_not_null = constr->has_not_null; if ((cpy->num_defval = constr->num_defval) > 0) { cpy->defval = (AttrDefault *) palloc(cpy->num_defval * sizeof(AttrDefault)); memcpy(cpy->defval, constr->defval, cpy->num_defval * sizeof(AttrDefault)); for (i = cpy->num_defval - 1; i >= 0; i--) { if (constr->defval[i].adbin) cpy->defval[i].adbin = pstrdup(constr->defval[i].adbin); } } if ((cpy->num_check = constr->num_check) > 0) { cpy->check = (ConstrCheck *) palloc(cpy->num_check * sizeof(ConstrCheck)); memcpy(cpy->check, constr->check, cpy->num_check * sizeof(ConstrCheck)); for (i = cpy->num_check - 1; i >= 0; i--) { if (constr->check[i].ccname) cpy->check[i].ccname = pstrdup(constr->check[i].ccname); if (constr->check[i].ccbin) cpy->check[i].ccbin = pstrdup(constr->check[i].ccbin); } } desc->constr = cpy; } else desc->constr = NULL; return desc; } void FreeTupleDesc(TupleDesc tupdesc) { int i; for (i = 0; i < tupdesc->natts; i++) pfree(tupdesc->attrs[i]); pfree(tupdesc->attrs); if (tupdesc->constr) { if (tupdesc->constr->num_defval > 0) { AttrDefault *attrdef = tupdesc->constr->defval; for (i = tupdesc->constr->num_defval - 1; i >= 0; i--) { if (attrdef[i].adbin) pfree(attrdef[i].adbin); } pfree(attrdef); } if (tupdesc->constr->num_check > 0) { ConstrCheck *check = tupdesc->constr->check; for (i = tupdesc->constr->num_check - 1; i >= 0; i--) { if (check[i].ccname) pfree(check[i].ccname); if (check[i].ccbin) pfree(check[i].ccbin); } pfree(check); } pfree(tupdesc->constr); } pfree(tupdesc); } /* ---------------------------------------------------------------- * TupleDescInitEntry * * This function initializes a single attribute structure in * a preallocated tuple descriptor. * ---------------------------------------------------------------- */ bool TupleDescInitEntry(TupleDesc desc, AttrNumber attributeNumber, char *attributeName, Oid typeid, int32 typmod, int attdim, bool attisset) { HeapTuple tuple; Form_pg_type typeForm; Form_pg_attribute att; /* ---------------- * sanity checks * ---------------- */ AssertArg(PointerIsValid(desc)); AssertArg(attributeNumber >= 1); /* * attributeName's are sometimes NULL, from resdom's. I don't know * why that is, though -- Jolly */ /* AssertArg(NameIsValid(attributeName));*/ AssertArg(!PointerIsValid(desc->attrs[attributeNumber - 1])); /* ---------------- * allocate storage for this attribute * ---------------- */ att = (Form_pg_attribute) palloc(ATTRIBUTE_TUPLE_SIZE); desc->attrs[attributeNumber - 1] = att; /* ---------------- * initialize some of the attribute fields * ---------------- */ att->attrelid = 0; /* dummy value */ if (attributeName != NULL) namestrcpy(&(att->attname), attributeName); else MemSet(NameStr(att->attname), 0, NAMEDATALEN); att->attdisbursion = 0; /* dummy value */ att->attcacheoff = -1; att->atttypmod = typmod; att->attnum = attributeNumber; att->attnelems = attdim; att->attisset = attisset; att->attnotnull = false; att->atthasdef = false; /* ---------------- * search the system cache for the type tuple of the attribute * we are creating so that we can get the typeid and some other * stuff. * * Note: in the special case of * * create EMP (name = text, manager = EMP) * * RelationNameCreateHeapRelation() calls BuildDesc() which * calls this routine and since EMP does not exist yet, the * system cache lookup below fails. That's fine, but rather * then doing a elog(ERROR) we just leave that information * uninitialized, return false, then fix things up later. * -cim 6/14/90 * ---------------- */ tuple = SearchSysCacheTuple(TYPEOID, ObjectIdGetDatum(typeid), 0, 0, 0); if (!HeapTupleIsValid(tuple)) { /* ---------------- * here type info does not exist yet so we just fill * the attribute with dummy information and return false. * ---------------- */ att->atttypid = InvalidOid; att->attlen = (int16) 0; att->attbyval = (bool) 0; att->attstorage = 'p'; att->attalign = 'i'; return false; } /* ---------------- * type info exists so we initialize our attribute * information from the type tuple we found.. * ---------------- */ typeForm = (Form_pg_type) GETSTRUCT(tuple); att->atttypid = tuple->t_data->t_oid; att->attalign = typeForm->typalign; /* ------------------------ If this attribute is a set, what is really stored in the attribute is the OID of a tuple in the pg_proc catalog. The pg_proc tuple contains the query string which defines this set - i.e., the query to run to get the set. So the atttypid (just assigned above) refers to the type returned by this query, but the actual length of this attribute is the length (size) of an OID. Why not just make the atttypid point to the OID type, instead of the type the query returns? Because the executor uses the atttypid to tell the front end what type will be returned (in BeginCommand), and in the end the type returned will be the result of the query, not an OID. Why not wait until the return type of the set is known (i.e., the recursive call to the executor to execute the set has returned) before telling the front end what the return type will be? Because the executor is a delicate thing, and making sure that the correct order of front-end commands is maintained is messy, especially considering that target lists may change as inherited attributes are considered, etc. Ugh. ----------------------------------------- */ if (attisset) { Type t = typeidType(OIDOID); att->attlen = typeLen(t); att->attbyval = typeByVal(t); att->attstorage = 'p'; } else { att->attlen = typeForm->typlen; att->attbyval = typeForm->typbyval; /* * This will enable ALL variable size attributes of user * relations for automatic move off into "secondary" relation. * Jan */ #ifdef TUPLE_TOASTER_ACTIVE #ifdef TUPLE_TOASTER_ALL_TYPES att->attstorage = (att->attlen == -1) ? 'e' : 'p'; #else att->attstorage = 'p'; #endif #else att->attstorage = 'p'; #endif } return true; } /* ---------------------------------------------------------------- * TupleDescMakeSelfReference * * This function initializes a "self-referential" attribute like * manager in "create EMP (name=text, manager = EMP)". * It calls TypeShellMake() which inserts a "shell" type * tuple into pg_type. A self-reference is one kind of set, so * its size and byval are the same as for a set. See the comments * above in TupleDescInitEntry. * ---------------------------------------------------------------- */ static void TupleDescMakeSelfReference(TupleDesc desc, AttrNumber attnum, char *relname) { Form_pg_attribute att; Type t = typeidType(OIDOID); att = desc->attrs[attnum - 1]; att->atttypid = TypeShellMake(relname); att->attlen = typeLen(t); att->attbyval = typeByVal(t); att->attstorage = 'p'; att->attnelems = 0; } /* ---------------------------------------------------------------- * BuildDescForRelation * * This is a general purpose function identical to BuildDesc * but is used by the DefineRelation() code to catch the * special case where you * * create FOO ( ..., x = FOO ) * * here, the initial type lookup for "x = FOO" will fail * because FOO isn't in the catalogs yet. But since we * are creating FOO, instead of doing an elog() we add * a shell type tuple to pg_type and fix things later * in amcreate(). * ---------------------------------------------------------------- */ TupleDesc BuildDescForRelation(List *schema, char *relname) { int natts; AttrNumber attnum; List *p; TupleDesc desc; AttrDefault *attrdef = NULL; TupleConstr *constr = (TupleConstr *) palloc(sizeof(TupleConstr)); char *attname; char typename[NAMEDATALEN]; int32 atttypmod; int attdim; int ndef = 0; bool attisset; /* ---------------- * allocate a new tuple descriptor * ---------------- */ natts = length(schema); desc = CreateTemplateTupleDesc(natts); constr->has_not_null = false; attnum = 0; foreach(p, schema) { ColumnDef *entry = lfirst(p); List *arry; /* ---------------- * for each entry in the list, get the name and type * information from the list and have TupleDescInitEntry * fill in the attribute information we need. * ---------------- */ attnum++; attname = entry->colname; arry = entry->typename->arrayBounds; attisset = entry->typename->setof; atttypmod = entry->typename->typmod; if (arry != NIL) { /* array of XXX is _XXX */ snprintf(typename, NAMEDATALEN, "_%.*s", NAMEDATALEN - 2, entry->typename->name); attdim = length(arry); } else { StrNCpy(typename, entry->typename->name, NAMEDATALEN); attdim = 0; } if (!TupleDescInitEntry(desc, attnum, attname, typeTypeId(typenameType(typename)), atttypmod, attdim, attisset)) { /* ---------------- * if TupleDescInitEntry() fails, it means there is * no type in the system catalogs. So now we check if * the type name equals the relation name. If so we * have a self reference, otherwise it's an error. * ---------------- */ if (!strcmp(typename, relname)) TupleDescMakeSelfReference(desc, attnum, relname); else elog(ERROR, "DefineRelation: no such type %s", typename); } desc->attrs[attnum - 1]->atttypmod = entry->typename->typmod; /* This is for constraints */ if (entry->is_not_null) constr->has_not_null = true; desc->attrs[attnum - 1]->attnotnull = entry->is_not_null; /* Note we copy only pre-cooked default expressions. * Digestion of raw ones is someone else's problem. */ if (entry->cooked_default != NULL) { if (attrdef == NULL) attrdef = (AttrDefault *) palloc(natts * sizeof(AttrDefault)); attrdef[ndef].adnum = attnum; attrdef[ndef].adbin = pstrdup(entry->cooked_default); ndef++; desc->attrs[attnum - 1]->atthasdef = true; } } if (constr->has_not_null || ndef > 0) { desc->constr = constr; if (ndef > 0) /* DEFAULTs */ { if (ndef < natts) constr->defval = (AttrDefault *) repalloc(attrdef, ndef * sizeof(AttrDefault)); else constr->defval = attrdef; constr->num_defval = ndef; } else { constr->defval = NULL; constr->num_defval = 0; } constr->check = NULL; constr->num_check = 0; } else { pfree(constr); desc->constr = NULL; } return desc; }