/*------------------------------------------------------------------------- * * tupdesc.c * POSTGRES tuple descriptor support code * * Portions Copyright (c) 1996-2023, PostgreSQL Global Development Group * Portions Copyright (c) 1994, Regents of the University of California * * * IDENTIFICATION * src/backend/access/common/tupdesc.c * * NOTES * some of the executor utility code such as "ExecTypeFromTL" should be * moved here. * *------------------------------------------------------------------------- */ #include "postgres.h" #include "access/htup_details.h" #include "access/toast_compression.h" #include "access/tupdesc_details.h" #include "catalog/pg_collation.h" #include "catalog/pg_type.h" #include "common/hashfn.h" #include "miscadmin.h" #include "parser/parse_type.h" #include "utils/acl.h" #include "utils/builtins.h" #include "utils/datum.h" #include "utils/resowner_private.h" #include "utils/syscache.h" /* * CreateTemplateTupleDesc * This function allocates an empty tuple descriptor structure. * * Tuple type ID information is initially set for an anonymous record type; * caller can overwrite this if needed. */ TupleDesc CreateTemplateTupleDesc(int natts) { TupleDesc desc; /* * sanity checks */ Assert(natts >= 0); /* * Allocate enough memory for the tuple descriptor, including the * attribute rows. * * Note: the attribute array stride is sizeof(FormData_pg_attribute), * since we declare the array elements as FormData_pg_attribute for * notational convenience. However, we only guarantee that the first * ATTRIBUTE_FIXED_PART_SIZE bytes of each entry are valid; most code that * copies tupdesc entries around copies just that much. In principle that * could be less due to trailing padding, although with the current * definition of pg_attribute there probably isn't any padding. */ desc = (TupleDesc) palloc(offsetof(struct TupleDescData, attrs) + natts * sizeof(FormData_pg_attribute)); /* * Initialize other fields of the tupdesc. */ desc->natts = natts; desc->constr = NULL; desc->tdtypeid = RECORDOID; desc->tdtypmod = -1; desc->tdrefcount = -1; /* assume not reference-counted */ return desc; } /* * CreateTupleDesc * This function allocates a new TupleDesc by copying a given * Form_pg_attribute array. * * Tuple type ID information is initially set for an anonymous record type; * caller can overwrite this if needed. */ TupleDesc CreateTupleDesc(int natts, Form_pg_attribute *attrs) { TupleDesc desc; int i; desc = CreateTemplateTupleDesc(natts); for (i = 0; i < natts; ++i) memcpy(TupleDescAttr(desc, i), attrs[i], ATTRIBUTE_FIXED_PART_SIZE); return desc; } /* * CreateTupleDescCopy * This function creates a new TupleDesc by copying from an existing * TupleDesc. * * !!! Constraints and defaults are not copied !!! */ TupleDesc CreateTupleDescCopy(TupleDesc tupdesc) { TupleDesc desc; int i; desc = CreateTemplateTupleDesc(tupdesc->natts); /* Flat-copy the attribute array */ memcpy(TupleDescAttr(desc, 0), TupleDescAttr(tupdesc, 0), desc->natts * sizeof(FormData_pg_attribute)); /* * Since we're not copying constraints and defaults, clear fields * associated with them. */ for (i = 0; i < desc->natts; i++) { Form_pg_attribute att = TupleDescAttr(desc, i); att->attnotnull = false; att->atthasdef = false; att->atthasmissing = false; att->attidentity = '\0'; att->attgenerated = '\0'; } /* We can copy the tuple type identification, too */ desc->tdtypeid = tupdesc->tdtypeid; desc->tdtypmod = tupdesc->tdtypmod; return desc; } /* * CreateTupleDescCopyConstr * This function creates a new TupleDesc by copying from an existing * TupleDesc (including its constraints and defaults). */ TupleDesc CreateTupleDescCopyConstr(TupleDesc tupdesc) { TupleDesc desc; TupleConstr *constr = tupdesc->constr; int i; desc = CreateTemplateTupleDesc(tupdesc->natts); /* Flat-copy the attribute array */ memcpy(TupleDescAttr(desc, 0), TupleDescAttr(tupdesc, 0), desc->natts * sizeof(FormData_pg_attribute)); /* Copy the TupleConstr data structure, if any */ if (constr) { TupleConstr *cpy = (TupleConstr *) palloc0(sizeof(TupleConstr)); cpy->has_not_null = constr->has_not_null; cpy->has_generated_stored = constr->has_generated_stored; 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--) cpy->defval[i].adbin = pstrdup(constr->defval[i].adbin); } if (constr->missing) { cpy->missing = (AttrMissing *) palloc(tupdesc->natts * sizeof(AttrMissing)); memcpy(cpy->missing, constr->missing, tupdesc->natts * sizeof(AttrMissing)); for (i = tupdesc->natts - 1; i >= 0; i--) { if (constr->missing[i].am_present) { Form_pg_attribute attr = TupleDescAttr(tupdesc, i); cpy->missing[i].am_value = datumCopy(constr->missing[i].am_value, attr->attbyval, attr->attlen); } } } 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--) { cpy->check[i].ccname = pstrdup(constr->check[i].ccname); cpy->check[i].ccbin = pstrdup(constr->check[i].ccbin); cpy->check[i].ccvalid = constr->check[i].ccvalid; cpy->check[i].ccnoinherit = constr->check[i].ccnoinherit; } } desc->constr = cpy; } /* We can copy the tuple type identification, too */ desc->tdtypeid = tupdesc->tdtypeid; desc->tdtypmod = tupdesc->tdtypmod; return desc; } /* * TupleDescCopy * Copy a tuple descriptor into caller-supplied memory. * The memory may be shared memory mapped at any address, and must * be sufficient to hold TupleDescSize(src) bytes. * * !!! Constraints and defaults are not copied !!! */ void TupleDescCopy(TupleDesc dst, TupleDesc src) { int i; /* Flat-copy the header and attribute array */ memcpy(dst, src, TupleDescSize(src)); /* * Since we're not copying constraints and defaults, clear fields * associated with them. */ for (i = 0; i < dst->natts; i++) { Form_pg_attribute att = TupleDescAttr(dst, i); att->attnotnull = false; att->atthasdef = false; att->atthasmissing = false; att->attidentity = '\0'; att->attgenerated = '\0'; } dst->constr = NULL; /* * Also, assume the destination is not to be ref-counted. (Copying the * source's refcount would be wrong in any case.) */ dst->tdrefcount = -1; } /* * TupleDescCopyEntry * This function copies a single attribute structure from one tuple * descriptor to another. * * !!! Constraints and defaults are not copied !!! */ void TupleDescCopyEntry(TupleDesc dst, AttrNumber dstAttno, TupleDesc src, AttrNumber srcAttno) { Form_pg_attribute dstAtt = TupleDescAttr(dst, dstAttno - 1); Form_pg_attribute srcAtt = TupleDescAttr(src, srcAttno - 1); /* * sanity checks */ Assert(PointerIsValid(src)); Assert(PointerIsValid(dst)); Assert(srcAttno >= 1); Assert(srcAttno <= src->natts); Assert(dstAttno >= 1); Assert(dstAttno <= dst->natts); memcpy(dstAtt, srcAtt, ATTRIBUTE_FIXED_PART_SIZE); /* * Aside from updating the attno, we'd better reset attcacheoff. * * XXX Actually, to be entirely safe we'd need to reset the attcacheoff of * all following columns in dst as well. Current usage scenarios don't * require that though, because all following columns will get initialized * by other uses of this function or TupleDescInitEntry. So we cheat a * bit to avoid a useless O(N^2) penalty. */ dstAtt->attnum = dstAttno; dstAtt->attcacheoff = -1; /* since we're not copying constraints or defaults, clear these */ dstAtt->attnotnull = false; dstAtt->atthasdef = false; dstAtt->atthasmissing = false; dstAtt->attidentity = '\0'; dstAtt->attgenerated = '\0'; } /* * Free a TupleDesc including all substructure */ void FreeTupleDesc(TupleDesc tupdesc) { int i; /* * Possibly this should assert tdrefcount == 0, to disallow explicit * freeing of un-refcounted tupdescs? */ Assert(tupdesc->tdrefcount <= 0); if (tupdesc->constr) { if (tupdesc->constr->num_defval > 0) { AttrDefault *attrdef = tupdesc->constr->defval; for (i = tupdesc->constr->num_defval - 1; i >= 0; i--) pfree(attrdef[i].adbin); pfree(attrdef); } if (tupdesc->constr->missing) { AttrMissing *attrmiss = tupdesc->constr->missing; for (i = tupdesc->natts - 1; i >= 0; i--) { if (attrmiss[i].am_present && !TupleDescAttr(tupdesc, i)->attbyval) pfree(DatumGetPointer(attrmiss[i].am_value)); } pfree(attrmiss); } if (tupdesc->constr->num_check > 0) { ConstrCheck *check = tupdesc->constr->check; for (i = tupdesc->constr->num_check - 1; i >= 0; i--) { pfree(check[i].ccname); pfree(check[i].ccbin); } pfree(check); } pfree(tupdesc->constr); } pfree(tupdesc); } /* * Increment the reference count of a tupdesc, and log the reference in * CurrentResourceOwner. * * Do not apply this to tupdescs that are not being refcounted. (Use the * macro PinTupleDesc for tupdescs of uncertain status.) */ void IncrTupleDescRefCount(TupleDesc tupdesc) { Assert(tupdesc->tdrefcount >= 0); ResourceOwnerEnlargeTupleDescs(CurrentResourceOwner); tupdesc->tdrefcount++; ResourceOwnerRememberTupleDesc(CurrentResourceOwner, tupdesc); } /* * Decrement the reference count of a tupdesc, remove the corresponding * reference from CurrentResourceOwner, and free the tupdesc if no more * references remain. * * Do not apply this to tupdescs that are not being refcounted. (Use the * macro ReleaseTupleDesc for tupdescs of uncertain status.) */ void DecrTupleDescRefCount(TupleDesc tupdesc) { Assert(tupdesc->tdrefcount > 0); ResourceOwnerForgetTupleDesc(CurrentResourceOwner, tupdesc); if (--tupdesc->tdrefcount == 0) FreeTupleDesc(tupdesc); } /* * Compare two TupleDesc structures for logical equality * * Note: we deliberately do not check the attrelid and tdtypmod fields. * This allows typcache.c to use this routine to see if a cached record type * matches a requested type, and is harmless for relcache.c's uses. * We don't compare tdrefcount, either. */ bool equalTupleDescs(TupleDesc tupdesc1, TupleDesc tupdesc2) { int i, n; if (tupdesc1->natts != tupdesc2->natts) return false; if (tupdesc1->tdtypeid != tupdesc2->tdtypeid) return false; for (i = 0; i < tupdesc1->natts; i++) { Form_pg_attribute attr1 = TupleDescAttr(tupdesc1, i); Form_pg_attribute attr2 = TupleDescAttr(tupdesc2, i); /* * We do not need to check every single field here: we can disregard * attrelid and attnum (which were used to place the row in the attrs * array in the first place). It might look like we could dispense * with checking attlen/attbyval/attalign, since these are derived * from atttypid; but in the case of dropped columns we must check * them (since atttypid will be zero for all dropped columns) and in * general it seems safer to check them always. * * attcacheoff must NOT be checked since it's possibly not set in both * copies. We also intentionally ignore atthasmissing, since that's * not very relevant in tupdescs, which lack the attmissingval field. */ if (strcmp(NameStr(attr1->attname), NameStr(attr2->attname)) != 0) return false; if (attr1->atttypid != attr2->atttypid) return false; if (attr1->attstattarget != attr2->attstattarget) return false; if (attr1->attlen != attr2->attlen) return false; if (attr1->attndims != attr2->attndims) return false; if (attr1->atttypmod != attr2->atttypmod) return false; if (attr1->attbyval != attr2->attbyval) return false; if (attr1->attalign != attr2->attalign) return false; if (attr1->attstorage != attr2->attstorage) return false; if (attr1->attcompression != attr2->attcompression) return false; if (attr1->attnotnull != attr2->attnotnull) return false; if (attr1->atthasdef != attr2->atthasdef) return false; if (attr1->attidentity != attr2->attidentity) return false; if (attr1->attgenerated != attr2->attgenerated) return false; if (attr1->attisdropped != attr2->attisdropped) return false; if (attr1->attislocal != attr2->attislocal) return false; if (attr1->attinhcount != attr2->attinhcount) return false; if (attr1->attcollation != attr2->attcollation) return false; /* variable-length fields are not even present... */ } if (tupdesc1->constr != NULL) { TupleConstr *constr1 = tupdesc1->constr; TupleConstr *constr2 = tupdesc2->constr; if (constr2 == NULL) return false; if (constr1->has_not_null != constr2->has_not_null) return false; if (constr1->has_generated_stored != constr2->has_generated_stored) return false; n = constr1->num_defval; if (n != (int) constr2->num_defval) return false; /* We assume here that both AttrDefault arrays are in adnum order */ for (i = 0; i < n; i++) { AttrDefault *defval1 = constr1->defval + i; AttrDefault *defval2 = constr2->defval + i; if (defval1->adnum != defval2->adnum) return false; if (strcmp(defval1->adbin, defval2->adbin) != 0) return false; } if (constr1->missing) { if (!constr2->missing) return false; for (i = 0; i < tupdesc1->natts; i++) { AttrMissing *missval1 = constr1->missing + i; AttrMissing *missval2 = constr2->missing + i; if (missval1->am_present != missval2->am_present) return false; if (missval1->am_present) { Form_pg_attribute missatt1 = TupleDescAttr(tupdesc1, i); if (!datumIsEqual(missval1->am_value, missval2->am_value, missatt1->attbyval, missatt1->attlen)) return false; } } } else if (constr2->missing) return false; n = constr1->num_check; if (n != (int) constr2->num_check) return false; /* * Similarly, we rely here on the ConstrCheck entries being sorted by * name. If there are duplicate names, the outcome of the comparison * is uncertain, but that should not happen. */ for (i = 0; i < n; i++) { ConstrCheck *check1 = constr1->check + i; ConstrCheck *check2 = constr2->check + i; if (!(strcmp(check1->ccname, check2->ccname) == 0 && strcmp(check1->ccbin, check2->ccbin) == 0 && check1->ccvalid == check2->ccvalid && check1->ccnoinherit == check2->ccnoinherit)) return false; } } else if (tupdesc2->constr != NULL) return false; return true; } /* * hashTupleDesc * Compute a hash value for a tuple descriptor. * * If two tuple descriptors would be considered equal by equalTupleDescs() * then their hash value will be equal according to this function. * * Note that currently contents of constraint are not hashed - it'd be a bit * painful to do so, and conflicts just due to constraints are unlikely. */ uint32 hashTupleDesc(TupleDesc desc) { uint32 s; int i; s = hash_combine(0, hash_uint32(desc->natts)); s = hash_combine(s, hash_uint32(desc->tdtypeid)); for (i = 0; i < desc->natts; ++i) s = hash_combine(s, hash_uint32(TupleDescAttr(desc, i)->atttypid)); return s; } /* * TupleDescInitEntry * This function initializes a single attribute structure in * a previously allocated tuple descriptor. * * If attributeName is NULL, the attname field is set to an empty string * (this is for cases where we don't know or need a name for the field). * Also, some callers use this function to change the datatype-related fields * in an existing tupdesc; they pass attributeName = NameStr(att->attname) * to indicate that the attname field shouldn't be modified. * * Note that attcollation is set to the default for the specified datatype. * If a nondefault collation is needed, insert it afterwards using * TupleDescInitEntryCollation. */ void TupleDescInitEntry(TupleDesc desc, AttrNumber attributeNumber, const char *attributeName, Oid oidtypeid, int32 typmod, int attdim) { HeapTuple tuple; Form_pg_type typeForm; Form_pg_attribute att; /* * sanity checks */ Assert(PointerIsValid(desc)); Assert(attributeNumber >= 1); Assert(attributeNumber <= desc->natts); Assert(attdim >= 0); Assert(attdim <= PG_INT16_MAX); /* * initialize the attribute fields */ att = TupleDescAttr(desc, attributeNumber - 1); att->attrelid = 0; /* dummy value */ /* * Note: attributeName can be NULL, because the planner doesn't always * fill in valid resname values in targetlists, particularly for resjunk * attributes. Also, do nothing if caller wants to re-use the old attname. */ if (attributeName == NULL) MemSet(NameStr(att->attname), 0, NAMEDATALEN); else if (attributeName != NameStr(att->attname)) namestrcpy(&(att->attname), attributeName); att->attstattarget = -1; att->attcacheoff = -1; att->atttypmod = typmod; att->attnum = attributeNumber; att->attndims = attdim; att->attnotnull = false; att->atthasdef = false; att->atthasmissing = false; att->attidentity = '\0'; att->attgenerated = '\0'; att->attisdropped = false; att->attislocal = true; att->attinhcount = 0; /* variable-length fields are not present in tupledescs */ tuple = SearchSysCache1(TYPEOID, ObjectIdGetDatum(oidtypeid)); if (!HeapTupleIsValid(tuple)) elog(ERROR, "cache lookup failed for type %u", oidtypeid); typeForm = (Form_pg_type) GETSTRUCT(tuple); att->atttypid = oidtypeid; att->attlen = typeForm->typlen; att->attbyval = typeForm->typbyval; att->attalign = typeForm->typalign; att->attstorage = typeForm->typstorage; att->attcompression = InvalidCompressionMethod; att->attcollation = typeForm->typcollation; ReleaseSysCache(tuple); } /* * TupleDescInitBuiltinEntry * Initialize a tuple descriptor without catalog access. Only * a limited range of builtin types are supported. */ void TupleDescInitBuiltinEntry(TupleDesc desc, AttrNumber attributeNumber, const char *attributeName, Oid oidtypeid, int32 typmod, int attdim) { Form_pg_attribute att; /* sanity checks */ Assert(PointerIsValid(desc)); Assert(attributeNumber >= 1); Assert(attributeNumber <= desc->natts); Assert(attdim >= 0); Assert(attdim <= PG_INT16_MAX); /* initialize the attribute fields */ att = TupleDescAttr(desc, attributeNumber - 1); att->attrelid = 0; /* dummy value */ /* unlike TupleDescInitEntry, we require an attribute name */ Assert(attributeName != NULL); namestrcpy(&(att->attname), attributeName); att->attstattarget = -1; att->attcacheoff = -1; att->atttypmod = typmod; att->attnum = attributeNumber; att->attndims = attdim; att->attnotnull = false; att->atthasdef = false; att->atthasmissing = false; att->attidentity = '\0'; att->attgenerated = '\0'; att->attisdropped = false; att->attislocal = true; att->attinhcount = 0; /* variable-length fields are not present in tupledescs */ att->atttypid = oidtypeid; /* * Our goal here is to support just enough types to let basic builtin * commands work without catalog access - e.g. so that we can do certain * things even in processes that are not connected to a database. */ switch (oidtypeid) { case TEXTOID: case TEXTARRAYOID: att->attlen = -1; att->attbyval = false; att->attalign = TYPALIGN_INT; att->attstorage = TYPSTORAGE_EXTENDED; att->attcompression = InvalidCompressionMethod; att->attcollation = DEFAULT_COLLATION_OID; break; case BOOLOID: att->attlen = 1; att->attbyval = true; att->attalign = TYPALIGN_CHAR; att->attstorage = TYPSTORAGE_PLAIN; att->attcompression = InvalidCompressionMethod; att->attcollation = InvalidOid; break; case INT4OID: att->attlen = 4; att->attbyval = true; att->attalign = TYPALIGN_INT; att->attstorage = TYPSTORAGE_PLAIN; att->attcompression = InvalidCompressionMethod; att->attcollation = InvalidOid; break; case INT8OID: att->attlen = 8; att->attbyval = FLOAT8PASSBYVAL; att->attalign = TYPALIGN_DOUBLE; att->attstorage = TYPSTORAGE_PLAIN; att->attcompression = InvalidCompressionMethod; att->attcollation = InvalidOid; break; case OIDOID: att->attlen = 4; att->attbyval = true; att->attalign = TYPALIGN_INT; att->attstorage = TYPSTORAGE_PLAIN; att->attcompression = InvalidCompressionMethod; att->attcollation = InvalidOid; break; default: elog(ERROR, "unsupported type %u", oidtypeid); } } /* * TupleDescInitEntryCollation * * Assign a nondefault collation to a previously initialized tuple descriptor * entry. */ void TupleDescInitEntryCollation(TupleDesc desc, AttrNumber attributeNumber, Oid collationid) { /* * sanity checks */ Assert(PointerIsValid(desc)); Assert(attributeNumber >= 1); Assert(attributeNumber <= desc->natts); TupleDescAttr(desc, attributeNumber - 1)->attcollation = collationid; } /* * BuildDescForRelation * * Given a relation schema (list of ColumnDef nodes), build a TupleDesc. * * Note: tdtypeid will need to be filled in later on. */ TupleDesc BuildDescForRelation(List *schema) { int natts; AttrNumber attnum; ListCell *l; TupleDesc desc; bool has_not_null; char *attname; Oid atttypid; int32 atttypmod; Oid attcollation; int attdim; /* * allocate a new tuple descriptor */ natts = list_length(schema); desc = CreateTemplateTupleDesc(natts); has_not_null = false; attnum = 0; foreach(l, schema) { ColumnDef *entry = lfirst(l); AclResult aclresult; Form_pg_attribute att; /* * 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; typenameTypeIdAndMod(NULL, entry->typeName, &atttypid, &atttypmod); aclresult = object_aclcheck(TypeRelationId, atttypid, GetUserId(), ACL_USAGE); if (aclresult != ACLCHECK_OK) aclcheck_error_type(aclresult, atttypid); attcollation = GetColumnDefCollation(NULL, entry, atttypid); attdim = list_length(entry->typeName->arrayBounds); if (attdim > PG_INT16_MAX) ereport(ERROR, errcode(ERRCODE_PROGRAM_LIMIT_EXCEEDED), errmsg("too many array dimensions")); if (entry->typeName->setof) ereport(ERROR, (errcode(ERRCODE_INVALID_TABLE_DEFINITION), errmsg("column \"%s\" cannot be declared SETOF", attname))); TupleDescInitEntry(desc, attnum, attname, atttypid, atttypmod, attdim); att = TupleDescAttr(desc, attnum - 1); /* Override TupleDescInitEntry's settings as requested */ TupleDescInitEntryCollation(desc, attnum, attcollation); if (entry->storage) att->attstorage = entry->storage; /* Fill in additional stuff not handled by TupleDescInitEntry */ att->attnotnull = entry->is_not_null; has_not_null |= entry->is_not_null; att->attislocal = entry->is_local; att->attinhcount = entry->inhcount; } if (has_not_null) { TupleConstr *constr = (TupleConstr *) palloc0(sizeof(TupleConstr)); constr->has_not_null = true; constr->has_generated_stored = false; constr->defval = NULL; constr->missing = NULL; constr->num_defval = 0; constr->check = NULL; constr->num_check = 0; desc->constr = constr; } else { desc->constr = NULL; } return desc; } /* * BuildDescFromLists * * Build a TupleDesc given lists of column names (as String nodes), * column type OIDs, typmods, and collation OIDs. * * No constraints are generated. * * This is essentially a cut-down version of BuildDescForRelation for use * with functions returning RECORD. */ TupleDesc BuildDescFromLists(List *names, List *types, List *typmods, List *collations) { int natts; AttrNumber attnum; ListCell *l1; ListCell *l2; ListCell *l3; ListCell *l4; TupleDesc desc; natts = list_length(names); Assert(natts == list_length(types)); Assert(natts == list_length(typmods)); Assert(natts == list_length(collations)); /* * allocate a new tuple descriptor */ desc = CreateTemplateTupleDesc(natts); attnum = 0; forfour(l1, names, l2, types, l3, typmods, l4, collations) { char *attname = strVal(lfirst(l1)); Oid atttypid = lfirst_oid(l2); int32 atttypmod = lfirst_int(l3); Oid attcollation = lfirst_oid(l4); attnum++; TupleDescInitEntry(desc, attnum, attname, atttypid, atttypmod, 0); TupleDescInitEntryCollation(desc, attnum, attcollation); } return desc; }