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parse_utilcmd.c
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1/*-------------------------------------------------------------------------
2 *
3 * parse_utilcmd.c
4 * Perform parse analysis work for various utility commands
5 *
6 * Formerly we did this work during parse_analyze_*() in analyze.c. However
7 * that is fairly unsafe in the presence of querytree caching, since any
8 * database state that we depend on in making the transformations might be
9 * obsolete by the time the utility command is executed; and utility commands
10 * have no infrastructure for holding locks or rechecking plan validity.
11 * Hence these functions are now called at the start of execution of their
12 * respective utility commands.
13 *
14 *
15 * Portions Copyright (c) 1996-2025, PostgreSQL Global Development Group
16 * Portions Copyright (c) 1994, Regents of the University of California
17 *
18 * src/backend/parser/parse_utilcmd.c
19 *
20 *-------------------------------------------------------------------------
21 */
22
23#include "postgres.h"
24
25#include "access/amapi.h"
26#include "access/htup_details.h"
27#include "access/relation.h"
28#include "access/reloptions.h"
29#include "access/table.h"
30#include "access/toast_compression.h"
31#include "catalog/dependency.h"
32#include "catalog/heap.h"
33#include "catalog/index.h"
34#include "catalog/namespace.h"
35#include "catalog/partition.h"
36#include "catalog/pg_am.h"
37#include "catalog/pg_collation.h"
38#include "catalog/pg_constraint.h"
39#include "catalog/pg_opclass.h"
40#include "catalog/pg_operator.h"
41#include "catalog/pg_statistic_ext.h"
42#include "catalog/pg_type.h"
43#include "commands/comment.h"
44#include "commands/defrem.h"
45#include "commands/sequence.h"
46#include "commands/tablecmds.h"
47#include "commands/tablespace.h"
48#include "miscadmin.h"
49#include "nodes/makefuncs.h"
50#include "nodes/nodeFuncs.h"
51#include "optimizer/optimizer.h"
52#include "parser/analyze.h"
53#include "parser/parse_clause.h"
54#include "parser/parse_coerce.h"
55#include "parser/parse_collate.h"
56#include "parser/parse_expr.h"
57#include "parser/parse_relation.h"
58#include "parser/parse_target.h"
59#include "parser/parse_type.h"
60#include "parser/parse_utilcmd.h"
61#include "parser/parser.h"
62#include "partitioning/partbounds.h"
63#include "partitioning/partdesc.h"
64#include "rewrite/rewriteManip.h"
65#include "utils/acl.h"
66#include "utils/builtins.h"
67#include "utils/lsyscache.h"
68#include "utils/partcache.h"
69#include "utils/rel.h"
70#include "utils/ruleutils.h"
71#include "utils/syscache.h"
72#include "utils/typcache.h"
73
74
75/* State shared by transformCreateStmt and its subroutines */
76typedef struct
77{
78 ParseState *pstate; /* overall parser state */
79 const char *stmtType; /* "CREATE [FOREIGN] TABLE" or "ALTER TABLE" */
80 RangeVar *relation; /* relation to create */
81 Relation rel; /* opened/locked rel, if ALTER */
82 List *inhRelations; /* relations to inherit from */
83 bool isforeign; /* true if CREATE/ALTER FOREIGN TABLE */
84 bool isalter; /* true if altering existing table */
85 List *columns; /* ColumnDef items */
86 List *ckconstraints; /* CHECK constraints */
87 List *nnconstraints; /* NOT NULL constraints */
88 List *fkconstraints; /* FOREIGN KEY constraints */
89 List *ixconstraints; /* index-creating constraints */
90 List *likeclauses; /* LIKE clauses that need post-processing */
91 List *blist; /* "before list" of things to do before
92 * creating the table */
93 List *alist; /* "after list" of things to do after creating
94 * the table */
95 IndexStmt *pkey; /* PRIMARY KEY index, if any */
96 bool ispartitioned; /* true if table is partitioned */
97 PartitionBoundSpec *partbound; /* transformed FOR VALUES */
98 bool ofType; /* true if statement contains OF typename */
99} CreateStmtContext;
100
101/* State shared by transformCreateSchemaStmtElements and its subroutines */
102typedef struct
103{
104 const char *schemaname; /* name of schema */
105 List *sequences; /* CREATE SEQUENCE items */
106 List *tables; /* CREATE TABLE items */
107 List *views; /* CREATE VIEW items */
108 List *indexes; /* CREATE INDEX items */
109 List *triggers; /* CREATE TRIGGER items */
110 List *grants; /* GRANT items */
111} CreateSchemaStmtContext;
112
113
114static void transformColumnDefinition(CreateStmtContext *cxt,
115 ColumnDef *column);
116static void transformTableConstraint(CreateStmtContext *cxt,
117 Constraint *constraint);
118static void transformTableLikeClause(CreateStmtContext *cxt,
119 TableLikeClause *table_like_clause);
120static void transformOfType(CreateStmtContext *cxt,
121 TypeName *ofTypename);
122static CreateStatsStmt *generateClonedExtStatsStmt(RangeVar *heapRel,
123 Oid heapRelid,
124 Oid source_statsid,
125 const AttrMap *attmap);
126static List *get_collation(Oid collation, Oid actual_datatype);
127static List *get_opclass(Oid opclass, Oid actual_datatype);
128static void transformIndexConstraints(CreateStmtContext *cxt);
129static IndexStmt *transformIndexConstraint(Constraint *constraint,
130 CreateStmtContext *cxt);
131static void transformFKConstraints(CreateStmtContext *cxt,
132 bool skipValidation,
133 bool isAddConstraint);
134static void transformCheckConstraints(CreateStmtContext *cxt,
135 bool skipValidation);
136static void transformConstraintAttrs(CreateStmtContext *cxt,
137 List *constraintList);
138static void transformColumnType(CreateStmtContext *cxt, ColumnDef *column);
139static void setSchemaName(const char *context_schema, char **stmt_schema_name);
140static void transformPartitionCmd(CreateStmtContext *cxt, PartitionBoundSpec *bound);
141static List *transformPartitionRangeBounds(ParseState *pstate, List *blist,
142 Relation parent);
143static void validateInfiniteBounds(ParseState *pstate, List *blist);
144static Const *transformPartitionBoundValue(ParseState *pstate, Node *val,
145 const char *colName, Oid colType, int32 colTypmod,
146 Oid partCollation);
147
148
149/*
150 * transformCreateStmt -
151 * parse analysis for CREATE TABLE
152 *
153 * Returns a List of utility commands to be done in sequence. One of these
154 * will be the transformed CreateStmt, but there may be additional actions
155 * to be done before and after the actual DefineRelation() call.
156 * In addition to normal utility commands such as AlterTableStmt and
157 * IndexStmt, the result list may contain TableLikeClause(s), representing
158 * the need to perform additional parse analysis after DefineRelation().
159 *
160 * SQL allows constraints to be scattered all over, so thumb through
161 * the columns and collect all constraints into one place.
162 * If there are any implied indices (e.g. UNIQUE or PRIMARY KEY)
163 * then expand those into multiple IndexStmt blocks.
164 * - thomas 1997-12-02
165 */
166List *
167transformCreateStmt(CreateStmt *stmt, const char *queryString)
168{
169 ParseState *pstate;
170 CreateStmtContext cxt;
171 List *result;
172 List *save_alist;
173 ListCell *elements;
174 Oid namespaceid;
175 Oid existing_relid;
176 ParseCallbackState pcbstate;
177
178 /* Set up pstate */
179 pstate = make_parsestate(NULL);
180 pstate->p_sourcetext = queryString;
181
182 /*
183 * Look up the creation namespace. This also checks permissions on the
184 * target namespace, locks it against concurrent drops, checks for a
185 * preexisting relation in that namespace with the same name, and updates
186 * stmt->relation->relpersistence if the selected namespace is temporary.
187 */
188 setup_parser_errposition_callback(&pcbstate, pstate,
189 stmt->relation->location);
190 namespaceid =
191 RangeVarGetAndCheckCreationNamespace(stmt->relation, NoLock,
192 &existing_relid);
193 cancel_parser_errposition_callback(&pcbstate);
194
195 /*
196 * If the relation already exists and the user specified "IF NOT EXISTS",
197 * bail out with a NOTICE.
198 */
199 if (stmt->if_not_exists && OidIsValid(existing_relid))
200 {
201 /*
202 * If we are in an extension script, insist that the pre-existing
203 * object be a member of the extension, to avoid security risks.
204 */
205 ObjectAddress address;
206
207 ObjectAddressSet(address, RelationRelationId, existing_relid);
208 checkMembershipInCurrentExtension(&address);
209
210 /* OK to skip */
211 ereport(NOTICE,
212 (errcode(ERRCODE_DUPLICATE_TABLE),
213 errmsg("relation \"%s\" already exists, skipping",
214 stmt->relation->relname)));
215 return NIL;
216 }
217
218 /*
219 * If the target relation name isn't schema-qualified, make it so. This
220 * prevents some corner cases in which added-on rewritten commands might
221 * think they should apply to other relations that have the same name and
222 * are earlier in the search path. But a local temp table is effectively
223 * specified to be in pg_temp, so no need for anything extra in that case.
224 */
225 if (stmt->relation->schemaname == NULL
226 && stmt->relation->relpersistence != RELPERSISTENCE_TEMP)
227 stmt->relation->schemaname = get_namespace_name(namespaceid);
228
229 /* Set up CreateStmtContext */
230 cxt.pstate = pstate;
231 if (IsA(stmt, CreateForeignTableStmt))
232 {
233 cxt.stmtType = "CREATE FOREIGN TABLE";
234 cxt.isforeign = true;
235 }
236 else
237 {
238 cxt.stmtType = "CREATE TABLE";
239 cxt.isforeign = false;
240 }
241 cxt.relation = stmt->relation;
242 cxt.rel = NULL;
243 cxt.inhRelations = stmt->inhRelations;
244 cxt.isalter = false;
245 cxt.columns = NIL;
246 cxt.ckconstraints = NIL;
247 cxt.nnconstraints = NIL;
248 cxt.fkconstraints = NIL;
249 cxt.ixconstraints = NIL;
250 cxt.likeclauses = NIL;
251 cxt.blist = NIL;
252 cxt.alist = NIL;
253 cxt.pkey = NULL;
254 cxt.ispartitioned = stmt->partspec != NULL;
255 cxt.partbound = stmt->partbound;
256 cxt.ofType = (stmt->ofTypename != NULL);
257
258 Assert(!stmt->ofTypename || !stmt->inhRelations); /* grammar enforces */
259
260 if (stmt->ofTypename)
261 transformOfType(&cxt, stmt->ofTypename);
262
263 if (stmt->partspec)
264 {
265 if (stmt->inhRelations && !stmt->partbound)
266 ereport(ERROR,
267 (errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
268 errmsg("cannot create partitioned table as inheritance child")));
269 }
270
271 /*
272 * Run through each primary element in the table creation clause. Separate
273 * column defs from constraints, and do preliminary analysis.
274 */
275 foreach(elements, stmt->tableElts)
276 {
277 Node *element = lfirst(elements);
278
279 switch (nodeTag(element))
280 {
281 case T_ColumnDef:
282 transformColumnDefinition(&cxt, (ColumnDef *) element);
283 break;
284
285 case T_Constraint:
286 transformTableConstraint(&cxt, (Constraint *) element);
287 break;
288
289 case T_TableLikeClause:
290 transformTableLikeClause(&cxt, (TableLikeClause *) element);
291 break;
292
293 default:
294 elog(ERROR, "unrecognized node type: %d",
295 (int) nodeTag(element));
296 break;
297 }
298 }
299
300 /*
301 * Transfer anything we already have in cxt.alist into save_alist, to keep
302 * it separate from the output of transformIndexConstraints. (This may
303 * not be necessary anymore, but we'll keep doing it to preserve the
304 * historical order of execution of the alist commands.)
305 */
306 save_alist = cxt.alist;
307 cxt.alist = NIL;
308
309 Assert(stmt->constraints == NIL);
310
311 /*
312 * Before processing index constraints, which could include a primary key,
313 * we must scan all not-null constraints to propagate the is_not_null flag
314 * to each corresponding ColumnDef. This is necessary because table-level
315 * not-null constraints have not been marked in each ColumnDef, and the PK
316 * processing code needs to know whether one constraint has already been
317 * declared in order not to declare a redundant one.
318 */
319 foreach_node(Constraint, nn, cxt.nnconstraints)
320 {
321 char *colname = strVal(linitial(nn->keys));
322
323 foreach_node(ColumnDef, cd, cxt.columns)
324 {
325 /* not our column? */
326 if (strcmp(cd->colname, colname) != 0)
327 continue;
328 /* Already marked not-null? Nothing to do */
329 if (cd->is_not_null)
330 break;
331 /* Bingo, we're done for this constraint */
332 cd->is_not_null = true;
333 break;
334 }
335 }
336
337 /*
338 * Postprocess constraints that give rise to index definitions.
339 */
340 transformIndexConstraints(&cxt);
341
342 /*
343 * Re-consideration of LIKE clauses should happen after creation of
344 * indexes, but before creation of foreign keys. This order is critical
345 * because a LIKE clause may attempt to create a primary key. If there's
346 * also a pkey in the main CREATE TABLE list, creation of that will not
347 * check for a duplicate at runtime (since index_check_primary_key()
348 * expects that we rejected dups here). Creation of the LIKE-generated
349 * pkey behaves like ALTER TABLE ADD, so it will check, but obviously that
350 * only works if it happens second. On the other hand, we want to make
351 * pkeys before foreign key constraints, in case the user tries to make a
352 * self-referential FK.
353 */
354 cxt.alist = list_concat(cxt.alist, cxt.likeclauses);
355
356 /*
357 * Postprocess foreign-key constraints.
358 */
359 transformFKConstraints(&cxt, true, false);
360
361 /*
362 * Postprocess check constraints.
363 *
364 * For regular tables all constraints can be marked valid immediately,
365 * because the table is new therefore empty. Not so for foreign tables.
366 */
367 transformCheckConstraints(&cxt, !cxt.isforeign);
368
369 /*
370 * Output results.
371 */
372 stmt->tableElts = cxt.columns;
373 stmt->constraints = cxt.ckconstraints;
374 stmt->nnconstraints = cxt.nnconstraints;
375
376 result = lappend(cxt.blist, stmt);
377 result = list_concat(result, cxt.alist);
378 result = list_concat(result, save_alist);
379
380 return result;
381}
382
383/*
384 * generateSerialExtraStmts
385 * Generate CREATE SEQUENCE and ALTER SEQUENCE ... OWNED BY statements
386 * to create the sequence for a serial or identity column.
387 *
388 * This includes determining the name the sequence will have. The caller
389 * can ask to get back the name components by passing non-null pointers
390 * for snamespace_p and sname_p.
391 */
392static void
393generateSerialExtraStmts(CreateStmtContext *cxt, ColumnDef *column,
394 Oid seqtypid, List *seqoptions,
395 bool for_identity, bool col_exists,
396 char **snamespace_p, char **sname_p)
397{
398 ListCell *option;
399 DefElem *nameEl = NULL;
400 DefElem *loggedEl = NULL;
401 Oid snamespaceid;
402 char *snamespace;
403 char *sname;
404 char seqpersistence;
405 CreateSeqStmt *seqstmt;
406 AlterSeqStmt *altseqstmt;
407 List *attnamelist;
408
409 /* Make a copy of this as we may end up modifying it in the code below */
410 seqoptions = list_copy(seqoptions);
411
412 /*
413 * Check for non-SQL-standard options (not supported within CREATE
414 * SEQUENCE, because they'd be redundant), and remove them from the
415 * seqoptions list if found.
416 */
417 foreach(option, seqoptions)
418 {
419 DefElem *defel = lfirst_node(DefElem, option);
420
421 if (strcmp(defel->defname, "sequence_name") == 0)
422 {
423 if (nameEl)
424 errorConflictingDefElem(defel, cxt->pstate);
425 nameEl = defel;
426 seqoptions = foreach_delete_current(seqoptions, option);
427 }
428 else if (strcmp(defel->defname, "logged") == 0 ||
429 strcmp(defel->defname, "unlogged") == 0)
430 {
431 if (loggedEl)
432 errorConflictingDefElem(defel, cxt->pstate);
433 loggedEl = defel;
434 seqoptions = foreach_delete_current(seqoptions, option);
435 }
436 }
437
438 /*
439 * Determine namespace and name to use for the sequence.
440 */
441 if (nameEl)
442 {
443 /* Use specified name */
444 RangeVar *rv = makeRangeVarFromNameList(castNode(List, nameEl->arg));
445
446 snamespace = rv->schemaname;
447 if (!snamespace)
448 {
449 /* Given unqualified SEQUENCE NAME, select namespace */
450 if (cxt->rel)
451 snamespaceid = RelationGetNamespace(cxt->rel);
452 else
453 snamespaceid = RangeVarGetCreationNamespace(cxt->relation);
454 snamespace = get_namespace_name(snamespaceid);
455 }
456 sname = rv->relname;
457 }
458 else
459 {
460 /*
461 * Generate a name.
462 *
463 * Although we use ChooseRelationName, it's not guaranteed that the
464 * selected sequence name won't conflict; given sufficiently long
465 * field names, two different serial columns in the same table could
466 * be assigned the same sequence name, and we'd not notice since we
467 * aren't creating the sequence quite yet. In practice this seems
468 * quite unlikely to be a problem, especially since few people would
469 * need two serial columns in one table.
470 */
471 if (cxt->rel)
472 snamespaceid = RelationGetNamespace(cxt->rel);
473 else
474 {
475 snamespaceid = RangeVarGetCreationNamespace(cxt->relation);
476 RangeVarAdjustRelationPersistence(cxt->relation, snamespaceid);
477 }
478 snamespace = get_namespace_name(snamespaceid);
479 sname = ChooseRelationName(cxt->relation->relname,
480 column->colname,
481 "seq",
482 snamespaceid,
483 false);
484 }
485
486 ereport(DEBUG1,
487 (errmsg_internal("%s will create implicit sequence \"%s\" for serial column \"%s.%s\"",
488 cxt->stmtType, sname,
489 cxt->relation->relname, column->colname)));
490
491 /*
492 * Determine the persistence of the sequence. By default we copy the
493 * persistence of the table, but if LOGGED or UNLOGGED was specified, use
494 * that (as long as the table isn't TEMP).
495 *
496 * For CREATE TABLE, we get the persistence from cxt->relation, which
497 * comes from the CreateStmt in progress. For ALTER TABLE, the parser
498 * won't set cxt->relation->relpersistence, but we have cxt->rel as the
499 * existing table, so we copy the persistence from there.
500 */
501 seqpersistence = cxt->rel ? cxt->rel->rd_rel->relpersistence : cxt->relation->relpersistence;
502 if (loggedEl)
503 {
504 if (seqpersistence == RELPERSISTENCE_TEMP)
505 ereport(ERROR,
506 (errcode(ERRCODE_INVALID_TABLE_DEFINITION),
507 errmsg("cannot set logged status of a temporary sequence"),
508 parser_errposition(cxt->pstate, loggedEl->location)));
509 else if (strcmp(loggedEl->defname, "logged") == 0)
510 seqpersistence = RELPERSISTENCE_PERMANENT;
511 else
512 seqpersistence = RELPERSISTENCE_UNLOGGED;
513 }
514
515 /*
516 * Build a CREATE SEQUENCE command to create the sequence object, and add
517 * it to the list of things to be done before this CREATE/ALTER TABLE.
518 */
519 seqstmt = makeNode(CreateSeqStmt);
520 seqstmt->for_identity = for_identity;
521 seqstmt->sequence = makeRangeVar(snamespace, sname, -1);
522 seqstmt->sequence->relpersistence = seqpersistence;
523 seqstmt->options = seqoptions;
524
525 /*
526 * If a sequence data type was specified, add it to the options. Prepend
527 * to the list rather than append; in case a user supplied their own AS
528 * clause, the "redundant options" error will point to their occurrence,
529 * not our synthetic one.
530 */
531 if (seqtypid)
532 seqstmt->options = lcons(makeDefElem("as",
533 (Node *) makeTypeNameFromOid(seqtypid, -1),
534 -1),
535 seqstmt->options);
536
537 /*
538 * If this is ALTER ADD COLUMN, make sure the sequence will be owned by
539 * the table's owner. The current user might be someone else (perhaps a
540 * superuser, or someone who's only a member of the owning role), but the
541 * SEQUENCE OWNED BY mechanisms will bleat unless table and sequence have
542 * exactly the same owning role.
543 */
544 if (cxt->rel)
545 seqstmt->ownerId = cxt->rel->rd_rel->relowner;
546 else
547 seqstmt->ownerId = InvalidOid;
548
549 cxt->blist = lappend(cxt->blist, seqstmt);
550
551 /*
552 * Store the identity sequence name that we decided on. ALTER TABLE ...
553 * ADD COLUMN ... IDENTITY needs this so that it can fill the new column
554 * with values from the sequence, while the association of the sequence
555 * with the table is not set until after the ALTER TABLE.
556 */
557 column->identitySequence = seqstmt->sequence;
558
559 /*
560 * Build an ALTER SEQUENCE ... OWNED BY command to mark the sequence as
561 * owned by this column, and add it to the appropriate list of things to
562 * be done along with this CREATE/ALTER TABLE. In a CREATE or ALTER ADD
563 * COLUMN, it must be done after the statement because we don't know the
564 * column's attnum yet. But if we do have the attnum (in AT_AddIdentity),
565 * we can do the marking immediately, which improves some ALTER TABLE
566 * behaviors.
567 */
568 altseqstmt = makeNode(AlterSeqStmt);
569 altseqstmt->sequence = makeRangeVar(snamespace, sname, -1);
570 attnamelist = list_make3(makeString(snamespace),
571 makeString(cxt->relation->relname),
572 makeString(column->colname));
573 altseqstmt->options = list_make1(makeDefElem("owned_by",
574 (Node *) attnamelist, -1));
575 altseqstmt->for_identity = for_identity;
576
577 if (col_exists)
578 cxt->blist = lappend(cxt->blist, altseqstmt);
579 else
580 cxt->alist = lappend(cxt->alist, altseqstmt);
581
582 if (snamespace_p)
583 *snamespace_p = snamespace;
584 if (sname_p)
585 *sname_p = sname;
586}
587
588/*
589 * transformColumnDefinition -
590 * transform a single ColumnDef within CREATE TABLE
591 * Also used in ALTER TABLE ADD COLUMN
592 */
593static void
594transformColumnDefinition(CreateStmtContext *cxt, ColumnDef *column)
595{
596 bool is_serial;
597 bool saw_nullable;
598 bool saw_default;
599 bool saw_identity;
600 bool saw_generated;
601 bool need_notnull = false;
602 bool disallow_noinherit_notnull = false;
603 Constraint *notnull_constraint = NULL;
604
605 cxt->columns = lappend(cxt->columns, column);
606
607 /* Check for SERIAL pseudo-types */
608 is_serial = false;
609 if (column->typeName
610 && list_length(column->typeName->names) == 1
611 && !column->typeName->pct_type)
612 {
613 char *typname = strVal(linitial(column->typeName->names));
614
615 if (strcmp(typname, "smallserial") == 0 ||
616 strcmp(typname, "serial2") == 0)
617 {
618 is_serial = true;
619 column->typeName->names = NIL;
620 column->typeName->typeOid = INT2OID;
621 }
622 else if (strcmp(typname, "serial") == 0 ||
623 strcmp(typname, "serial4") == 0)
624 {
625 is_serial = true;
626 column->typeName->names = NIL;
627 column->typeName->typeOid = INT4OID;
628 }
629 else if (strcmp(typname, "bigserial") == 0 ||
630 strcmp(typname, "serial8") == 0)
631 {
632 is_serial = true;
633 column->typeName->names = NIL;
634 column->typeName->typeOid = INT8OID;
635 }
636
637 /*
638 * We have to reject "serial[]" explicitly, because once we've set
639 * typeid, LookupTypeName won't notice arrayBounds. We don't need any
640 * special coding for serial(typmod) though.
641 */
642 if (is_serial && column->typeName->arrayBounds != NIL)
643 ereport(ERROR,
644 (errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
645 errmsg("array of serial is not implemented"),
646 parser_errposition(cxt->pstate,
647 column->typeName->location)));
648 }
649
650 /* Do necessary work on the column type declaration */
651 if (column->typeName)
652 transformColumnType(cxt, column);
653
654 /* Special actions for SERIAL pseudo-types */
655 if (is_serial)
656 {
657 char *snamespace;
658 char *sname;
659 char *qstring;
660 A_Const *snamenode;
661 TypeCast *castnode;
662 FuncCall *funccallnode;
663 Constraint *constraint;
664
665 generateSerialExtraStmts(cxt, column,
666 column->typeName->typeOid, NIL,
667 false, false,
668 &snamespace, &sname);
669
670 /*
671 * Create appropriate constraints for SERIAL. We do this in full,
672 * rather than shortcutting, so that we will detect any conflicting
673 * constraints the user wrote (like a different DEFAULT).
674 *
675 * Create an expression tree representing the function call
676 * nextval('sequencename'). We cannot reduce the raw tree to cooked
677 * form until after the sequence is created, but there's no need to do
678 * so.
679 */
680 qstring = quote_qualified_identifier(snamespace, sname);
681 snamenode = makeNode(A_Const);
682 snamenode->val.node.type = T_String;
683 snamenode->val.sval.sval = qstring;
684 snamenode->location = -1;
685 castnode = makeNode(TypeCast);
686 castnode->typeName = SystemTypeName("regclass");
687 castnode->arg = (Node *) snamenode;
688 castnode->location = -1;
689 funccallnode = makeFuncCall(SystemFuncName("nextval"),
690 list_make1(castnode),
691 COERCE_EXPLICIT_CALL,
692 -1);
693 constraint = makeNode(Constraint);
694 constraint->contype = CONSTR_DEFAULT;
695 constraint->location = -1;
696 constraint->raw_expr = (Node *) funccallnode;
697 constraint->cooked_expr = NULL;
698 column->constraints = lappend(column->constraints, constraint);
699
700 /* have a not-null constraint added later */
701 need_notnull = true;
702 disallow_noinherit_notnull = true;
703 }
704
705 /* Process column constraints, if any... */
706 transformConstraintAttrs(cxt, column->constraints);
707
708 /*
709 * First, scan the column's constraints to see if a not-null constraint
710 * that we add must be prevented from being NO INHERIT. This should be
711 * enforced only for PRIMARY KEY, not IDENTITY or SERIAL. However, if the
712 * not-null constraint is specified as a table constraint rather than as a
713 * column constraint, AddRelationNotNullConstraints would raise an error
714 * if a NO INHERIT mismatch is found. To avoid inconsistently disallowing
715 * it in the table constraint case but not the column constraint case, we
716 * disallow it here as well. Maybe AddRelationNotNullConstraints can be
717 * improved someday, so that it doesn't complain, and then we can remove
718 * the restriction for SERIAL and IDENTITY here as well.
719 */
720 if (!disallow_noinherit_notnull)
721 {
722 foreach_node(Constraint, constraint, column->constraints)
723 {
724 switch (constraint->contype)
725 {
726 case CONSTR_IDENTITY:
727 case CONSTR_PRIMARY:
728 disallow_noinherit_notnull = true;
729 break;
730 default:
731 break;
732 }
733 }
734 }
735
736 /* Now scan them again to do full processing */
737 saw_nullable = false;
738 saw_default = false;
739 saw_identity = false;
740 saw_generated = false;
741
742 foreach_node(Constraint, constraint, column->constraints)
743 {
744 switch (constraint->contype)
745 {
746 case CONSTR_NULL:
747 if ((saw_nullable && column->is_not_null) || need_notnull)
748 ereport(ERROR,
749 (errcode(ERRCODE_SYNTAX_ERROR),
750 errmsg("conflicting NULL/NOT NULL declarations for column \"%s\" of table \"%s\"",
751 column->colname, cxt->relation->relname),
752 parser_errposition(cxt->pstate,
753 constraint->location)));
754 column->is_not_null = false;
755 saw_nullable = true;
756 break;
757
758 case CONSTR_NOTNULL:
759 if (cxt->ispartitioned && constraint->is_no_inherit)
760 ereport(ERROR,
761 errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
762 errmsg("not-null constraints on partitioned tables cannot be NO INHERIT"));
763
764 /* Disallow conflicting [NOT] NULL markings */
765 if (saw_nullable && !column->is_not_null)
766 ereport(ERROR,
767 (errcode(ERRCODE_SYNTAX_ERROR),
768 errmsg("conflicting NULL/NOT NULL declarations for column \"%s\" of table \"%s\"",
769 column->colname, cxt->relation->relname),
770 parser_errposition(cxt->pstate,
771 constraint->location)));
772
773 if (disallow_noinherit_notnull && constraint->is_no_inherit)
774 ereport(ERROR,
775 errcode(ERRCODE_SYNTAX_ERROR),
776 errmsg("conflicting NO INHERIT declarations for not-null constraints on column \"%s\"",
777 column->colname));
778
779 /*
780 * If this is the first time we see this column being marked
781 * not-null, add the constraint entry and keep track of it.
782 * Also, remove previous markings that we need one.
783 *
784 * If this is a redundant not-null specification, just check
785 * that it doesn't conflict with what was specified earlier.
786 *
787 * Any conflicts with table constraints will be further
788 * checked in AddRelationNotNullConstraints().
789 */
790 if (!column->is_not_null)
791 {
792 column->is_not_null = true;
793 saw_nullable = true;
794 need_notnull = false;
795
796 constraint->keys = list_make1(makeString(column->colname));
797 notnull_constraint = constraint;
798 cxt->nnconstraints = lappend(cxt->nnconstraints, constraint);
799 }
800 else if (notnull_constraint)
801 {
802 if (constraint->conname &&
803 notnull_constraint->conname &&
804 strcmp(notnull_constraint->conname, constraint->conname) != 0)
805 elog(ERROR, "conflicting not-null constraint names \"%s\" and \"%s\"",
806 notnull_constraint->conname, constraint->conname);
807
808 if (notnull_constraint->is_no_inherit != constraint->is_no_inherit)
809 ereport(ERROR,
810 errcode(ERRCODE_SYNTAX_ERROR),
811 errmsg("conflicting NO INHERIT declarations for not-null constraints on column \"%s\"",
812 column->colname));
813
814 if (!notnull_constraint->conname && constraint->conname)
815 notnull_constraint->conname = constraint->conname;
816 }
817
818 break;
819
820 case CONSTR_DEFAULT:
821 if (saw_default)
822 ereport(ERROR,
823 (errcode(ERRCODE_SYNTAX_ERROR),
824 errmsg("multiple default values specified for column \"%s\" of table \"%s\"",
825 column->colname, cxt->relation->relname),
826 parser_errposition(cxt->pstate,
827 constraint->location)));
828 column->raw_default = constraint->raw_expr;
829 Assert(constraint->cooked_expr == NULL);
830 saw_default = true;
831 break;
832
833 case CONSTR_IDENTITY:
834 {
835 Type ctype;
836 Oid typeOid;
837
838 if (cxt->ofType)
839 ereport(ERROR,
840 (errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
841 errmsg("identity columns are not supported on typed tables")));
842 if (cxt->partbound)
843 ereport(ERROR,
844 (errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
845 errmsg("identity columns are not supported on partitions")));
846
847 ctype = typenameType(cxt->pstate, column->typeName, NULL);
848 typeOid = ((Form_pg_type) GETSTRUCT(ctype))->oid;
849 ReleaseSysCache(ctype);
850
851 if (saw_identity)
852 ereport(ERROR,
853 (errcode(ERRCODE_SYNTAX_ERROR),
854 errmsg("multiple identity specifications for column \"%s\" of table \"%s\"",
855 column->colname, cxt->relation->relname),
856 parser_errposition(cxt->pstate,
857 constraint->location)));
858
859 generateSerialExtraStmts(cxt, column,
860 typeOid, constraint->options,
861 true, false,
862 NULL, NULL);
863
864 column->identity = constraint->generated_when;
865 saw_identity = true;
866
867 /*
868 * Identity columns are always NOT NULL, but we may have a
869 * constraint already.
870 */
871 if (!saw_nullable)
872 need_notnull = true;
873 else if (!column->is_not_null)
874 ereport(ERROR,
875 (errcode(ERRCODE_SYNTAX_ERROR),
876 errmsg("conflicting NULL/NOT NULL declarations for column \"%s\" of table \"%s\"",
877 column->colname, cxt->relation->relname),
878 parser_errposition(cxt->pstate,
879 constraint->location)));
880 break;
881 }
882
883 case CONSTR_GENERATED:
884 if (cxt->ofType)
885 ereport(ERROR,
886 (errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
887 errmsg("generated columns are not supported on typed tables")));
888 if (saw_generated)
889 ereport(ERROR,
890 (errcode(ERRCODE_SYNTAX_ERROR),
891 errmsg("multiple generation clauses specified for column \"%s\" of table \"%s\"",
892 column->colname, cxt->relation->relname),
893 parser_errposition(cxt->pstate,
894 constraint->location)));
895 column->generated = constraint->generated_kind;
896 column->raw_default = constraint->raw_expr;
897 Assert(constraint->cooked_expr == NULL);
898 saw_generated = true;
899 break;
900
901 case CONSTR_CHECK:
902 cxt->ckconstraints = lappend(cxt->ckconstraints, constraint);
903 break;
904
905 case CONSTR_PRIMARY:
906 if (saw_nullable && !column->is_not_null)
907 ereport(ERROR,
908 (errcode(ERRCODE_SYNTAX_ERROR),
909 errmsg("conflicting NULL/NOT NULL declarations for column \"%s\" of table \"%s\"",
910 column->colname, cxt->relation->relname),
911 parser_errposition(cxt->pstate,
912 constraint->location)));
913 need_notnull = true;
914
915 if (cxt->isforeign)
916 ereport(ERROR,
917 (errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
918 errmsg("primary key constraints are not supported on foreign tables"),
919 parser_errposition(cxt->pstate,
920 constraint->location)));
921 /* FALL THRU */
922
923 case CONSTR_UNIQUE:
924 if (cxt->isforeign)
925 ereport(ERROR,
926 (errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
927 errmsg("unique constraints are not supported on foreign tables"),
928 parser_errposition(cxt->pstate,
929 constraint->location)));
930 if (constraint->keys == NIL)
931 constraint->keys = list_make1(makeString(column->colname));
932 cxt->ixconstraints = lappend(cxt->ixconstraints, constraint);
933 break;
934
935 case CONSTR_EXCLUSION:
936 /* grammar does not allow EXCLUDE as a column constraint */
937 elog(ERROR, "column exclusion constraints are not supported");
938 break;
939
940 case CONSTR_FOREIGN:
941 if (cxt->isforeign)
942 ereport(ERROR,
943 (errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
944 errmsg("foreign key constraints are not supported on foreign tables"),
945 parser_errposition(cxt->pstate,
946 constraint->location)));
947
948 /*
949 * Fill in the current attribute's name and throw it into the
950 * list of FK constraints to be processed later.
951 */
952 constraint->fk_attrs = list_make1(makeString(column->colname));
953 cxt->fkconstraints = lappend(cxt->fkconstraints, constraint);
954 break;
955
956 case CONSTR_ATTR_DEFERRABLE:
957 case CONSTR_ATTR_NOT_DEFERRABLE:
958 case CONSTR_ATTR_DEFERRED:
959 case CONSTR_ATTR_IMMEDIATE:
960 case CONSTR_ATTR_ENFORCED:
961 case CONSTR_ATTR_NOT_ENFORCED:
962 /* transformConstraintAttrs took care of these */
963 break;
964
965 default:
966 elog(ERROR, "unrecognized constraint type: %d",
967 constraint->contype);
968 break;
969 }
970
971 if (saw_default && saw_identity)
972 ereport(ERROR,
973 (errcode(ERRCODE_SYNTAX_ERROR),
974 errmsg("both default and identity specified for column \"%s\" of table \"%s\"",
975 column->colname, cxt->relation->relname),
976 parser_errposition(cxt->pstate,
977 constraint->location)));
978
979 if (saw_default && saw_generated)
980 ereport(ERROR,
981 (errcode(ERRCODE_SYNTAX_ERROR),
982 errmsg("both default and generation expression specified for column \"%s\" of table \"%s\"",
983 column->colname, cxt->relation->relname),
984 parser_errposition(cxt->pstate,
985 constraint->location)));
986
987 if (saw_identity && saw_generated)
988 ereport(ERROR,
989 (errcode(ERRCODE_SYNTAX_ERROR),
990 errmsg("both identity and generation expression specified for column \"%s\" of table \"%s\"",
991 column->colname, cxt->relation->relname),
992 parser_errposition(cxt->pstate,
993 constraint->location)));
994 }
995
996 /*
997 * If we need a not-null constraint for PRIMARY KEY, SERIAL or IDENTITY,
998 * and one was not explicitly specified, add one now.
999 */
1000 if (need_notnull && !(saw_nullable && column->is_not_null))
1001 {
1002 column->is_not_null = true;
1003 notnull_constraint = makeNotNullConstraint(makeString(column->colname));
1004 cxt->nnconstraints = lappend(cxt->nnconstraints, notnull_constraint);
1005 }
1006
1007 /*
1008 * If needed, generate ALTER FOREIGN TABLE ALTER COLUMN statement to add
1009 * per-column foreign data wrapper options to this column after creation.
1010 */
1011 if (column->fdwoptions != NIL)
1012 {
1013 AlterTableStmt *stmt;
1014 AlterTableCmd *cmd;
1015
1016 cmd = makeNode(AlterTableCmd);
1017 cmd->subtype = AT_AlterColumnGenericOptions;
1018 cmd->name = column->colname;
1019 cmd->def = (Node *) column->fdwoptions;
1020 cmd->behavior = DROP_RESTRICT;
1021 cmd->missing_ok = false;
1022
1023 stmt = makeNode(AlterTableStmt);
1024 stmt->relation = cxt->relation;
1025 stmt->cmds = NIL;
1026 stmt->objtype = OBJECT_FOREIGN_TABLE;
1027 stmt->cmds = lappend(stmt->cmds, cmd);
1028
1029 cxt->alist = lappend(cxt->alist, stmt);
1030 }
1031}
1032
1033/*
1034 * transformTableConstraint
1035 * transform a Constraint node within CREATE TABLE or ALTER TABLE
1036 */
1037static void
1038transformTableConstraint(CreateStmtContext *cxt, Constraint *constraint)
1039{
1040 switch (constraint->contype)
1041 {
1042 case CONSTR_PRIMARY:
1043 if (cxt->isforeign)
1044 ereport(ERROR,
1045 (errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
1046 errmsg("primary key constraints are not supported on foreign tables"),
1047 parser_errposition(cxt->pstate,
1048 constraint->location)));
1049 cxt->ixconstraints = lappend(cxt->ixconstraints, constraint);
1050 break;
1051
1052 case CONSTR_UNIQUE:
1053 if (cxt->isforeign)
1054 ereport(ERROR,
1055 (errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
1056 errmsg("unique constraints are not supported on foreign tables"),
1057 parser_errposition(cxt->pstate,
1058 constraint->location)));
1059 cxt->ixconstraints = lappend(cxt->ixconstraints, constraint);
1060 break;
1061
1062 case CONSTR_EXCLUSION:
1063 if (cxt->isforeign)
1064 ereport(ERROR,
1065 (errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
1066 errmsg("exclusion constraints are not supported on foreign tables"),
1067 parser_errposition(cxt->pstate,
1068 constraint->location)));
1069 cxt->ixconstraints = lappend(cxt->ixconstraints, constraint);
1070 break;
1071
1072 case CONSTR_CHECK:
1073 cxt->ckconstraints = lappend(cxt->ckconstraints, constraint);
1074 break;
1075
1076 case CONSTR_NOTNULL:
1077 if (cxt->ispartitioned && constraint->is_no_inherit)
1078 ereport(ERROR,
1079 errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
1080 errmsg("not-null constraints on partitioned tables cannot be NO INHERIT"));
1081
1082 cxt->nnconstraints = lappend(cxt->nnconstraints, constraint);
1083 break;
1084
1085 case CONSTR_FOREIGN:
1086 if (cxt->isforeign)
1087 ereport(ERROR,
1088 (errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
1089 errmsg("foreign key constraints are not supported on foreign tables"),
1090 parser_errposition(cxt->pstate,
1091 constraint->location)));
1092 cxt->fkconstraints = lappend(cxt->fkconstraints, constraint);
1093 break;
1094
1095 case CONSTR_NULL:
1096 case CONSTR_DEFAULT:
1097 case CONSTR_ATTR_DEFERRABLE:
1098 case CONSTR_ATTR_NOT_DEFERRABLE:
1099 case CONSTR_ATTR_DEFERRED:
1100 case CONSTR_ATTR_IMMEDIATE:
1101 case CONSTR_ATTR_ENFORCED:
1102 case CONSTR_ATTR_NOT_ENFORCED:
1103 elog(ERROR, "invalid context for constraint type %d",
1104 constraint->contype);
1105 break;
1106
1107 default:
1108 elog(ERROR, "unrecognized constraint type: %d",
1109 constraint->contype);
1110 break;
1111 }
1112}
1113
1114/*
1115 * transformTableLikeClause
1116 *
1117 * Change the LIKE <srctable> portion of a CREATE TABLE statement into
1118 * column definitions that recreate the user defined column portions of
1119 * <srctable>. Also, if there are any LIKE options that we can't fully
1120 * process at this point, add the TableLikeClause to cxt->likeclauses, which
1121 * will cause utility.c to call expandTableLikeClause() after the new
1122 * table has been created.
1123 *
1124 * Some options are ignored. For example, as foreign tables have no storage,
1125 * these INCLUDING options have no effect: STORAGE, COMPRESSION, IDENTITY
1126 * and INDEXES. Similarly, INCLUDING INDEXES is ignored from a view.
1127 */
1128static void
1129transformTableLikeClause(CreateStmtContext *cxt, TableLikeClause *table_like_clause)
1130{
1131 AttrNumber parent_attno;
1132 Relation relation;
1133 TupleDesc tupleDesc;
1134 AclResult aclresult;
1135 char *comment;
1136 ParseCallbackState pcbstate;
1137
1138 setup_parser_errposition_callback(&pcbstate, cxt->pstate,
1139 table_like_clause->relation->location);
1140
1141 /* Open the relation referenced by the LIKE clause */
1142 relation = relation_openrv(table_like_clause->relation, AccessShareLock);
1143
1144 if (relation->rd_rel->relkind != RELKIND_RELATION &&
1145 relation->rd_rel->relkind != RELKIND_VIEW &&
1146 relation->rd_rel->relkind != RELKIND_MATVIEW &&
1147 relation->rd_rel->relkind != RELKIND_COMPOSITE_TYPE &&
1148 relation->rd_rel->relkind != RELKIND_FOREIGN_TABLE &&
1149 relation->rd_rel->relkind != RELKIND_PARTITIONED_TABLE)
1150 ereport(ERROR,
1151 (errcode(ERRCODE_WRONG_OBJECT_TYPE),
1152 errmsg("relation \"%s\" is invalid in LIKE clause",
1153 RelationGetRelationName(relation)),
1154 errdetail_relkind_not_supported(relation->rd_rel->relkind)));
1155
1156 cancel_parser_errposition_callback(&pcbstate);
1157
1158 /*
1159 * Check for privileges
1160 */
1161 if (relation->rd_rel->relkind == RELKIND_COMPOSITE_TYPE)
1162 {
1163 aclresult = object_aclcheck(TypeRelationId, relation->rd_rel->reltype, GetUserId(),
1164 ACL_USAGE);
1165 if (aclresult != ACLCHECK_OK)
1166 aclcheck_error(aclresult, OBJECT_TYPE,
1167 RelationGetRelationName(relation));
1168 }
1169 else
1170 {
1171 aclresult = pg_class_aclcheck(RelationGetRelid(relation), GetUserId(),
1172 ACL_SELECT);
1173 if (aclresult != ACLCHECK_OK)
1174 aclcheck_error(aclresult, get_relkind_objtype(relation->rd_rel->relkind),
1175 RelationGetRelationName(relation));
1176 }
1177
1178 tupleDesc = RelationGetDescr(relation);
1179
1180 /*
1181 * Insert the copied attributes into the cxt for the new table definition.
1182 * We must do this now so that they appear in the table in the relative
1183 * position where the LIKE clause is, as required by SQL99.
1184 */
1185 for (parent_attno = 1; parent_attno <= tupleDesc->natts;
1186 parent_attno++)
1187 {
1188 Form_pg_attribute attribute = TupleDescAttr(tupleDesc,
1189 parent_attno - 1);
1190 ColumnDef *def;
1191
1192 /*
1193 * Ignore dropped columns in the parent.
1194 */
1195 if (attribute->attisdropped)
1196 continue;
1197
1198 /*
1199 * Create a new column definition
1200 */
1201 def = makeColumnDef(NameStr(attribute->attname), attribute->atttypid,
1202 attribute->atttypmod, attribute->attcollation);
1203
1204 /*
1205 * Add to column list
1206 */
1207 cxt->columns = lappend(cxt->columns, def);
1208
1209 /*
1210 * Although we don't transfer the column's default/generation
1211 * expression now, we need to mark it GENERATED if appropriate.
1212 */
1213 if (attribute->atthasdef && attribute->attgenerated &&
1214 (table_like_clause->options & CREATE_TABLE_LIKE_GENERATED))
1215 def->generated = attribute->attgenerated;
1216
1217 /*
1218 * Copy identity if requested
1219 */
1220 if (attribute->attidentity &&
1221 (table_like_clause->options & CREATE_TABLE_LIKE_IDENTITY) &&
1222 !cxt->isforeign)
1223 {
1224 Oid seq_relid;
1225 List *seq_options;
1226
1227 /*
1228 * find sequence owned by old column; extract sequence parameters;
1229 * build new create sequence command
1230 */
1231 seq_relid = getIdentitySequence(relation, attribute->attnum, false);
1232 seq_options = sequence_options(seq_relid);
1233 generateSerialExtraStmts(cxt, def,
1234 InvalidOid, seq_options,
1235 true, false,
1236 NULL, NULL);
1237 def->identity = attribute->attidentity;
1238 }
1239
1240 /* Likewise, copy storage if requested */
1241 if ((table_like_clause->options & CREATE_TABLE_LIKE_STORAGE) &&
1242 !cxt->isforeign)
1243 def->storage = attribute->attstorage;
1244 else
1245 def->storage = 0;
1246
1247 /* Likewise, copy compression if requested */
1248 if ((table_like_clause->options & CREATE_TABLE_LIKE_COMPRESSION) != 0 &&
1249 CompressionMethodIsValid(attribute->attcompression) &&
1250 !cxt->isforeign)
1251 def->compression =
1252 pstrdup(GetCompressionMethodName(attribute->attcompression));
1253 else
1254 def->compression = NULL;
1255
1256 /* Likewise, copy comment if requested */
1257 if ((table_like_clause->options & CREATE_TABLE_LIKE_COMMENTS) &&
1258 (comment = GetComment(attribute->attrelid,
1259 RelationRelationId,
1260 attribute->attnum)) != NULL)
1261 {
1262 CommentStmt *stmt = makeNode(CommentStmt);
1263
1264 stmt->objtype = OBJECT_COLUMN;
1265 stmt->object = (Node *) list_make3(makeString(cxt->relation->schemaname),
1266 makeString(cxt->relation->relname),
1267 makeString(def->colname));
1268 stmt->comment = comment;
1269
1270 cxt->alist = lappend(cxt->alist, stmt);
1271 }
1272 }
1273
1274 /*
1275 * Reproduce not-null constraints, if any, by copying them. We do this
1276 * regardless of options given.
1277 */
1278 if (tupleDesc->constr && tupleDesc->constr->has_not_null)
1279 {
1280 List *lst;
1281
1282 lst = RelationGetNotNullConstraints(RelationGetRelid(relation), false,
1283 true);
1284 cxt->nnconstraints = list_concat(cxt->nnconstraints, lst);
1285
1286 /* Copy comments on not-null constraints */
1287 if (table_like_clause->options & CREATE_TABLE_LIKE_COMMENTS)
1288 {
1289 foreach_node(Constraint, nnconstr, lst)
1290 {
1291 if ((comment = GetComment(get_relation_constraint_oid(RelationGetRelid(relation),
1292 nnconstr->conname, false),
1293 ConstraintRelationId,
1294 0)) != NULL)
1295 {
1296 CommentStmt *stmt = makeNode(CommentStmt);
1297
1298 stmt->objtype = OBJECT_TABCONSTRAINT;
1299 stmt->object = (Node *) list_make3(makeString(cxt->relation->schemaname),
1300 makeString(cxt->relation->relname),
1301 makeString(nnconstr->conname));
1302 stmt->comment = comment;
1303 cxt->alist = lappend(cxt->alist, stmt);
1304 }
1305 }
1306 }
1307 }
1308
1309 /*
1310 * We cannot yet deal with defaults, CHECK constraints, indexes, or
1311 * statistics, since we don't yet know what column numbers the copied
1312 * columns will have in the finished table. If any of those options are
1313 * specified, add the LIKE clause to cxt->likeclauses so that
1314 * expandTableLikeClause will be called after we do know that.
1315 *
1316 * In order for this to work, we remember the relation OID so that
1317 * expandTableLikeClause is certain to open the same table.
1318 */
1319 if (table_like_clause->options &
1320 (CREATE_TABLE_LIKE_DEFAULTS |
1321 CREATE_TABLE_LIKE_GENERATED |
1322 CREATE_TABLE_LIKE_CONSTRAINTS |
1323 CREATE_TABLE_LIKE_INDEXES |
1324 CREATE_TABLE_LIKE_STATISTICS))
1325 {
1326 table_like_clause->relationOid = RelationGetRelid(relation);
1327 cxt->likeclauses = lappend(cxt->likeclauses, table_like_clause);
1328 }
1329
1330 /*
1331 * Close the parent rel, but keep our AccessShareLock on it until xact
1332 * commit. That will prevent someone else from deleting or ALTERing the
1333 * parent before we can run expandTableLikeClause.
1334 */
1335 table_close(relation, NoLock);
1336}
1337
1338/*
1339 * expandTableLikeClause
1340 *
1341 * Process LIKE options that require knowing the final column numbers
1342 * assigned to the new table's columns. This executes after we have
1343 * run DefineRelation for the new table. It returns a list of utility
1344 * commands that should be run to generate indexes etc.
1345 */
1346List *
1347expandTableLikeClause(RangeVar *heapRel, TableLikeClause *table_like_clause)
1348{
1349 List *result = NIL;
1350 List *atsubcmds = NIL;
1351 AttrNumber parent_attno;
1352 Relation relation;
1353 Relation childrel;
1354 TupleDesc tupleDesc;
1355 TupleConstr *constr;
1356 AttrMap *attmap;
1357 char *comment;
1358
1359 /*
1360 * Open the relation referenced by the LIKE clause. We should still have
1361 * the table lock obtained by transformTableLikeClause (and this'll throw
1362 * an assertion failure if not). Hence, no need to recheck privileges
1363 * etc. We must open the rel by OID not name, to be sure we get the same
1364 * table.
1365 */
1366 if (!OidIsValid(table_like_clause->relationOid))
1367 elog(ERROR, "expandTableLikeClause called on untransformed LIKE clause");
1368
1369 relation = relation_open(table_like_clause->relationOid, NoLock);
1370
1371 tupleDesc = RelationGetDescr(relation);
1372 constr = tupleDesc->constr;
1373
1374 /*
1375 * Open the newly-created child relation; we have lock on that too.
1376 */
1377 childrel = relation_openrv(heapRel, NoLock);
1378
1379 /*
1380 * Construct a map from the LIKE relation's attnos to the child rel's.
1381 * This re-checks type match etc, although it shouldn't be possible to
1382 * have a failure since both tables are locked.
1383 */
1384 attmap = build_attrmap_by_name(RelationGetDescr(childrel),
1385 tupleDesc,
1386 false);
1387
1388 /*
1389 * Process defaults, if required.
1390 */
1391 if ((table_like_clause->options &
1392 (CREATE_TABLE_LIKE_DEFAULTS | CREATE_TABLE_LIKE_GENERATED)) &&
1393 constr != NULL)
1394 {
1395 for (parent_attno = 1; parent_attno <= tupleDesc->natts;
1396 parent_attno++)
1397 {
1398 Form_pg_attribute attribute = TupleDescAttr(tupleDesc,
1399 parent_attno - 1);
1400
1401 /*
1402 * Ignore dropped columns in the parent.
1403 */
1404 if (attribute->attisdropped)
1405 continue;
1406
1407 /*
1408 * Copy default, if present and it should be copied. We have
1409 * separate options for plain default expressions and GENERATED
1410 * defaults.
1411 */
1412 if (attribute->atthasdef &&
1413 (attribute->attgenerated ?
1414 (table_like_clause->options & CREATE_TABLE_LIKE_GENERATED) :
1415 (table_like_clause->options & CREATE_TABLE_LIKE_DEFAULTS)))
1416 {
1417 Node *this_default;
1418 AlterTableCmd *atsubcmd;
1419 bool found_whole_row;
1420
1421 this_default = TupleDescGetDefault(tupleDesc, parent_attno);
1422 if (this_default == NULL)
1423 elog(ERROR, "default expression not found for attribute %d of relation \"%s\"",
1424 parent_attno, RelationGetRelationName(relation));
1425
1426 atsubcmd = makeNode(AlterTableCmd);
1427 atsubcmd->subtype = AT_CookedColumnDefault;
1428 atsubcmd->num = attmap->attnums[parent_attno - 1];
1429 atsubcmd->def = map_variable_attnos(this_default,
1430 1, 0,
1431 attmap,
1432 InvalidOid,
1433 &found_whole_row);
1434
1435 /*
1436 * Prevent this for the same reason as for constraints below.
1437 * Note that defaults cannot contain any vars, so it's OK that
1438 * the error message refers to generated columns.
1439 */
1440 if (found_whole_row)
1441 ereport(ERROR,
1442 (errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
1443 errmsg("cannot convert whole-row table reference"),
1444 errdetail("Generation expression for column \"%s\" contains a whole-row reference to table \"%s\".",
1445 NameStr(attribute->attname),
1446 RelationGetRelationName(relation))));
1447
1448 atsubcmds = lappend(atsubcmds, atsubcmd);
1449 }
1450 }
1451 }
1452
1453 /*
1454 * Copy CHECK constraints if requested, being careful to adjust attribute
1455 * numbers so they match the child.
1456 */
1457 if ((table_like_clause->options & CREATE_TABLE_LIKE_CONSTRAINTS) &&
1458 constr != NULL)
1459 {
1460 int ccnum;
1461
1462 for (ccnum = 0; ccnum < constr->num_check; ccnum++)
1463 {
1464 char *ccname = constr->check[ccnum].ccname;
1465 char *ccbin = constr->check[ccnum].ccbin;
1466 bool ccenforced = constr->check[ccnum].ccenforced;
1467 bool ccnoinherit = constr->check[ccnum].ccnoinherit;
1468 Node *ccbin_node;
1469 bool found_whole_row;
1470 Constraint *n;
1471 AlterTableCmd *atsubcmd;
1472
1473 ccbin_node = map_variable_attnos(stringToNode(ccbin),
1474 1, 0,
1475 attmap,
1476 InvalidOid, &found_whole_row);
1477
1478 /*
1479 * We reject whole-row variables because the whole point of LIKE
1480 * is that the new table's rowtype might later diverge from the
1481 * parent's. So, while translation might be possible right now,
1482 * it wouldn't be possible to guarantee it would work in future.
1483 */
1484 if (found_whole_row)
1485 ereport(ERROR,
1486 (errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
1487 errmsg("cannot convert whole-row table reference"),
1488 errdetail("Constraint \"%s\" contains a whole-row reference to table \"%s\".",
1489 ccname,
1490 RelationGetRelationName(relation))));
1491
1492 n = makeNode(Constraint);
1493 n->contype = CONSTR_CHECK;
1494 n->conname = pstrdup(ccname);
1495 n->location = -1;
1496 n->is_enforced = ccenforced;
1497 n->initially_valid = ccenforced; /* sic */
1498 n->is_no_inherit = ccnoinherit;
1499 n->raw_expr = NULL;
1500 n->cooked_expr = nodeToString(ccbin_node);
1501
1502 /* We can skip validation, since the new table should be empty. */
1503 n->skip_validation = true;
1504
1505 atsubcmd = makeNode(AlterTableCmd);
1506 atsubcmd->subtype = AT_AddConstraint;
1507 atsubcmd->def = (Node *) n;
1508 atsubcmds = lappend(atsubcmds, atsubcmd);
1509
1510 /* Copy comment on constraint */
1511 if ((table_like_clause->options & CREATE_TABLE_LIKE_COMMENTS) &&
1512 (comment = GetComment(get_relation_constraint_oid(RelationGetRelid(relation),
1513 n->conname, false),
1514 ConstraintRelationId,
1515 0)) != NULL)
1516 {
1517 CommentStmt *stmt = makeNode(CommentStmt);
1518
1519 stmt->objtype = OBJECT_TABCONSTRAINT;
1520 stmt->object = (Node *) list_make3(makeString(heapRel->schemaname),
1521 makeString(heapRel->relname),
1522 makeString(n->conname));
1523 stmt->comment = comment;
1524
1525 result = lappend(result, stmt);
1526 }
1527 }
1528 }
1529
1530 /*
1531 * If we generated any ALTER TABLE actions above, wrap them into a single
1532 * ALTER TABLE command. Stick it at the front of the result, so it runs
1533 * before any CommentStmts we made above.
1534 */
1535 if (atsubcmds)
1536 {
1537 AlterTableStmt *atcmd = makeNode(AlterTableStmt);
1538
1539 atcmd->relation = copyObject(heapRel);
1540 atcmd->cmds = atsubcmds;
1541 atcmd->objtype = OBJECT_TABLE;
1542 atcmd->missing_ok = false;
1543 result = lcons(atcmd, result);
1544 }
1545
1546 /*
1547 * Process indexes if required.
1548 */
1549 if ((table_like_clause->options & CREATE_TABLE_LIKE_INDEXES) &&
1550 relation->rd_rel->relhasindex &&
1551 childrel->rd_rel->relkind != RELKIND_FOREIGN_TABLE)
1552 {
1553 List *parent_indexes;
1554 ListCell *l;
1555
1556 parent_indexes = RelationGetIndexList(relation);
1557
1558 foreach(l, parent_indexes)
1559 {
1560 Oid parent_index_oid = lfirst_oid(l);
1561 Relation parent_index;
1562 IndexStmt *index_stmt;
1563
1564 parent_index = index_open(parent_index_oid, AccessShareLock);
1565
1566 /* Build CREATE INDEX statement to recreate the parent_index */
1567 index_stmt = generateClonedIndexStmt(heapRel,
1568 parent_index,
1569 attmap,
1570 NULL);
1571
1572 /* Copy comment on index, if requested */
1573 if (table_like_clause->options & CREATE_TABLE_LIKE_COMMENTS)
1574 {
1575 comment = GetComment(parent_index_oid, RelationRelationId, 0);
1576
1577 /*
1578 * We make use of IndexStmt's idxcomment option, so as not to
1579 * need to know now what name the index will have.
1580 */
1581 index_stmt->idxcomment = comment;
1582 }
1583
1584 result = lappend(result, index_stmt);
1585
1586 index_close(parent_index, AccessShareLock);
1587 }
1588 }
1589
1590 /*
1591 * Process extended statistics if required.
1592 */
1593 if (table_like_clause->options & CREATE_TABLE_LIKE_STATISTICS)
1594 {
1595 List *parent_extstats;
1596 ListCell *l;
1597
1598 parent_extstats = RelationGetStatExtList(relation);
1599
1600 foreach(l, parent_extstats)
1601 {
1602 Oid parent_stat_oid = lfirst_oid(l);
1603 CreateStatsStmt *stats_stmt;
1604
1605 stats_stmt = generateClonedExtStatsStmt(heapRel,
1606 RelationGetRelid(childrel),
1607 parent_stat_oid,
1608 attmap);
1609
1610 /* Copy comment on statistics object, if requested */
1611 if (table_like_clause->options & CREATE_TABLE_LIKE_COMMENTS)
1612 {
1613 comment = GetComment(parent_stat_oid, StatisticExtRelationId, 0);
1614
1615 /*
1616 * We make use of CreateStatsStmt's stxcomment option, so as
1617 * not to need to know now what name the statistics will have.
1618 */
1619 stats_stmt->stxcomment = comment;
1620 }
1621
1622 result = lappend(result, stats_stmt);
1623 }
1624
1625 list_free(parent_extstats);
1626 }
1627
1628 /* Done with child rel */
1629 table_close(childrel, NoLock);
1630
1631 /*
1632 * Close the parent rel, but keep our AccessShareLock on it until xact
1633 * commit. That will prevent someone else from deleting or ALTERing the
1634 * parent before the child is committed.
1635 */
1636 table_close(relation, NoLock);
1637
1638 return result;
1639}
1640
1641static void
1642transformOfType(CreateStmtContext *cxt, TypeName *ofTypename)
1643{
1644 HeapTuple tuple;
1645 TupleDesc tupdesc;
1646 int i;
1647 Oid ofTypeId;
1648
1649 Assert(ofTypename);
1650
1651 tuple = typenameType(cxt->pstate, ofTypename, NULL);
1652 check_of_type(tuple);
1653 ofTypeId = ((Form_pg_type) GETSTRUCT(tuple))->oid;
1654 ofTypename->typeOid = ofTypeId; /* cached for later */
1655
1656 tupdesc = lookup_rowtype_tupdesc(ofTypeId, -1);
1657 for (i = 0; i < tupdesc->natts; i++)
1658 {
1659 Form_pg_attribute attr = TupleDescAttr(tupdesc, i);
1660 ColumnDef *n;
1661
1662 if (attr->attisdropped)
1663 continue;
1664
1665 n = makeColumnDef(NameStr(attr->attname), attr->atttypid,
1666 attr->atttypmod, attr->attcollation);
1667 n->is_from_type = true;
1668
1669 cxt->columns = lappend(cxt->columns, n);
1670 }
1671 ReleaseTupleDesc(tupdesc);
1672
1673 ReleaseSysCache(tuple);
1674}
1675
1676/*
1677 * Generate an IndexStmt node using information from an already existing index
1678 * "source_idx".
1679 *
1680 * heapRel is stored into the IndexStmt's relation field, but we don't use it
1681 * otherwise; some callers pass NULL, if they don't need it to be valid.
1682 * (The target relation might not exist yet, so we mustn't try to access it.)
1683 *
1684 * Attribute numbers in expression Vars are adjusted according to attmap.
1685 *
1686 * If constraintOid isn't NULL, we store the OID of any constraint associated
1687 * with the index there.
1688 *
1689 * Unlike transformIndexConstraint, we don't make any effort to force primary
1690 * key columns to be not-null. The larger cloning process this is part of
1691 * should have cloned their not-null status separately (and DefineIndex will
1692 * complain if that fails to happen).
1693 */
1694IndexStmt *
1695generateClonedIndexStmt(RangeVar *heapRel, Relation source_idx,
1696 const AttrMap *attmap,
1697 Oid *constraintOid)
1698{
1699 Oid source_relid = RelationGetRelid(source_idx);
1700 HeapTuple ht_idxrel;
1701 HeapTuple ht_idx;
1702 HeapTuple ht_am;
1703 Form_pg_class idxrelrec;
1704 Form_pg_index idxrec;
1705 Form_pg_am amrec;
1706 oidvector *indcollation;
1707 oidvector *indclass;
1708 IndexStmt *index;
1709 List *indexprs;
1710 ListCell *indexpr_item;
1711 Oid indrelid;
1712 int keyno;
1713 Oid keycoltype;
1714 Datum datum;
1715 bool isnull;
1716
1717 if (constraintOid)
1718 *constraintOid = InvalidOid;
1719
1720 /*
1721 * Fetch pg_class tuple of source index. We can't use the copy in the
1722 * relcache entry because it doesn't include optional fields.
1723 */
1724 ht_idxrel = SearchSysCache1(RELOID, ObjectIdGetDatum(source_relid));
1725 if (!HeapTupleIsValid(ht_idxrel))
1726 elog(ERROR, "cache lookup failed for relation %u", source_relid);
1727 idxrelrec = (Form_pg_class) GETSTRUCT(ht_idxrel);
1728
1729 /* Fetch pg_index tuple for source index from relcache entry */
1730 ht_idx = source_idx->rd_indextuple;
1731 idxrec = (Form_pg_index) GETSTRUCT(ht_idx);
1732 indrelid = idxrec->indrelid;
1733
1734 /* Fetch the pg_am tuple of the index' access method */
1735 ht_am = SearchSysCache1(AMOID, ObjectIdGetDatum(idxrelrec->relam));
1736 if (!HeapTupleIsValid(ht_am))
1737 elog(ERROR, "cache lookup failed for access method %u",
1738 idxrelrec->relam);
1739 amrec = (Form_pg_am) GETSTRUCT(ht_am);
1740
1741 /* Extract indcollation from the pg_index tuple */
1742 datum = SysCacheGetAttrNotNull(INDEXRELID, ht_idx,
1743 Anum_pg_index_indcollation);
1744 indcollation = (oidvector *) DatumGetPointer(datum);
1745
1746 /* Extract indclass from the pg_index tuple */
1747 datum = SysCacheGetAttrNotNull(INDEXRELID, ht_idx, Anum_pg_index_indclass);
1748 indclass = (oidvector *) DatumGetPointer(datum);
1749
1750 /* Begin building the IndexStmt */
1751 index = makeNode(IndexStmt);
1752 index->relation = heapRel;
1753 index->accessMethod = pstrdup(NameStr(amrec->amname));
1754 if (OidIsValid(idxrelrec->reltablespace))
1755 index->tableSpace = get_tablespace_name(idxrelrec->reltablespace);
1756 else
1757 index->tableSpace = NULL;
1758 index->excludeOpNames = NIL;
1759 index->idxcomment = NULL;
1760 index->indexOid = InvalidOid;
1761 index->oldNumber = InvalidRelFileNumber;
1762 index->oldCreateSubid = InvalidSubTransactionId;
1763 index->oldFirstRelfilelocatorSubid = InvalidSubTransactionId;
1764 index->unique = idxrec->indisunique;
1765 index->nulls_not_distinct = idxrec->indnullsnotdistinct;
1766 index->primary = idxrec->indisprimary;
1767 index->iswithoutoverlaps = (idxrec->indisprimary || idxrec->indisunique) && idxrec->indisexclusion;
1768 index->transformed = true; /* don't need transformIndexStmt */
1769 index->concurrent = false;
1770 index->if_not_exists = false;
1771 index->reset_default_tblspc = false;
1772
1773 /*
1774 * We don't try to preserve the name of the source index; instead, just
1775 * let DefineIndex() choose a reasonable name. (If we tried to preserve
1776 * the name, we'd get duplicate-relation-name failures unless the source
1777 * table was in a different schema.)
1778 */
1779 index->idxname = NULL;
1780
1781 /*
1782 * If the index is marked PRIMARY or has an exclusion condition, it's
1783 * certainly from a constraint; else, if it's not marked UNIQUE, it
1784 * certainly isn't. If it is or might be from a constraint, we have to
1785 * fetch the pg_constraint record.
1786 */
1787 if (index->primary || index->unique || idxrec->indisexclusion)
1788 {
1789 Oid constraintId = get_index_constraint(source_relid);
1790
1791 if (OidIsValid(constraintId))
1792 {
1793 HeapTuple ht_constr;
1794 Form_pg_constraint conrec;
1795
1796 if (constraintOid)
1797 *constraintOid = constraintId;
1798
1799 ht_constr = SearchSysCache1(CONSTROID,
1800 ObjectIdGetDatum(constraintId));
1801 if (!HeapTupleIsValid(ht_constr))
1802 elog(ERROR, "cache lookup failed for constraint %u",
1803 constraintId);
1804 conrec = (Form_pg_constraint) GETSTRUCT(ht_constr);
1805
1806 index->isconstraint = true;
1807 index->deferrable = conrec->condeferrable;
1808 index->initdeferred = conrec->condeferred;
1809
1810 /* If it's an exclusion constraint, we need the operator names */
1811 if (idxrec->indisexclusion)
1812 {
1813 Datum *elems;
1814 int nElems;
1815 int i;
1816
1817 Assert(conrec->contype == CONSTRAINT_EXCLUSION ||
1818 (index->iswithoutoverlaps &&
1819 (conrec->contype == CONSTRAINT_PRIMARY || conrec->contype == CONSTRAINT_UNIQUE)));
1820 /* Extract operator OIDs from the pg_constraint tuple */
1821 datum = SysCacheGetAttrNotNull(CONSTROID, ht_constr,
1822 Anum_pg_constraint_conexclop);
1823 deconstruct_array_builtin(DatumGetArrayTypeP(datum), OIDOID, &elems, NULL, &nElems);
1824
1825 for (i = 0; i < nElems; i++)
1826 {
1827 Oid operid = DatumGetObjectId(elems[i]);
1828 HeapTuple opertup;
1829 Form_pg_operator operform;
1830 char *oprname;
1831 char *nspname;
1832 List *namelist;
1833
1834 opertup = SearchSysCache1(OPEROID,
1835 ObjectIdGetDatum(operid));
1836 if (!HeapTupleIsValid(opertup))
1837 elog(ERROR, "cache lookup failed for operator %u",
1838 operid);
1839 operform = (Form_pg_operator) GETSTRUCT(opertup);
1840 oprname = pstrdup(NameStr(operform->oprname));
1841 /* For simplicity we always schema-qualify the op name */
1842 nspname = get_namespace_name(operform->oprnamespace);
1843 namelist = list_make2(makeString(nspname),
1844 makeString(oprname));
1845 index->excludeOpNames = lappend(index->excludeOpNames,
1846 namelist);
1847 ReleaseSysCache(opertup);
1848 }
1849 }
1850
1851 ReleaseSysCache(ht_constr);
1852 }
1853 else
1854 index->isconstraint = false;
1855 }
1856 else
1857 index->isconstraint = false;
1858
1859 /* Get the index expressions, if any */
1860 datum = SysCacheGetAttr(INDEXRELID, ht_idx,
1861 Anum_pg_index_indexprs, &isnull);
1862 if (!isnull)
1863 {
1864 char *exprsString;
1865
1866 exprsString = TextDatumGetCString(datum);
1867 indexprs = (List *) stringToNode(exprsString);
1868 }
1869 else
1870 indexprs = NIL;
1871
1872 /* Build the list of IndexElem */
1873 index->indexParams = NIL;
1874 index->indexIncludingParams = NIL;
1875
1876 indexpr_item = list_head(indexprs);
1877 for (keyno = 0; keyno < idxrec->indnkeyatts; keyno++)
1878 {
1879 IndexElem *iparam;
1880 AttrNumber attnum = idxrec->indkey.values[keyno];
1881 Form_pg_attribute attr = TupleDescAttr(RelationGetDescr(source_idx),
1882 keyno);
1883 int16 opt = source_idx->rd_indoption[keyno];
1884
1885 iparam = makeNode(IndexElem);
1886
1887 if (AttributeNumberIsValid(attnum))
1888 {
1889 /* Simple index column */
1890 char *attname;
1891
1892 attname = get_attname(indrelid, attnum, false);
1893 keycoltype = get_atttype(indrelid, attnum);
1894
1895 iparam->name = attname;
1896 iparam->expr = NULL;
1897 }
1898 else
1899 {
1900 /* Expressional index */
1901 Node *indexkey;
1902 bool found_whole_row;
1903
1904 if (indexpr_item == NULL)
1905 elog(ERROR, "too few entries in indexprs list");
1906 indexkey = (Node *) lfirst(indexpr_item);
1907 indexpr_item = lnext(indexprs, indexpr_item);
1908
1909 /* Adjust Vars to match new table's column numbering */
1910 indexkey = map_variable_attnos(indexkey,
1911 1, 0,
1912 attmap,
1913 InvalidOid, &found_whole_row);
1914
1915 /* As in expandTableLikeClause, reject whole-row variables */
1916 if (found_whole_row)
1917 ereport(ERROR,
1918 (errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
1919 errmsg("cannot convert whole-row table reference"),
1920 errdetail("Index \"%s\" contains a whole-row table reference.",
1921 RelationGetRelationName(source_idx))));
1922
1923 iparam->name = NULL;
1924 iparam->expr = indexkey;
1925
1926 keycoltype = exprType(indexkey);
1927 }
1928
1929 /* Copy the original index column name */
1930 iparam->indexcolname = pstrdup(NameStr(attr->attname));
1931
1932 /* Add the collation name, if non-default */
1933 iparam->collation = get_collation(indcollation->values[keyno], keycoltype);
1934
1935 /* Add the operator class name, if non-default */
1936 iparam->opclass = get_opclass(indclass->values[keyno], keycoltype);
1937 iparam->opclassopts =
1938 untransformRelOptions(get_attoptions(source_relid, keyno + 1));
1939
1940 iparam->ordering = SORTBY_DEFAULT;
1941 iparam->nulls_ordering = SORTBY_NULLS_DEFAULT;
1942
1943 /* Adjust options if necessary */
1944 if (source_idx->rd_indam->amcanorder)
1945 {
1946 /*
1947 * If it supports sort ordering, copy DESC and NULLS opts. Don't
1948 * set non-default settings unnecessarily, though, so as to
1949 * improve the chance of recognizing equivalence to constraint
1950 * indexes.
1951 */
1952 if (opt & INDOPTION_DESC)
1953 {
1954 iparam->ordering = SORTBY_DESC;
1955 if ((opt & INDOPTION_NULLS_FIRST) == 0)
1956 iparam->nulls_ordering = SORTBY_NULLS_LAST;
1957 }
1958 else
1959 {
1960 if (opt & INDOPTION_NULLS_FIRST)
1961 iparam->nulls_ordering = SORTBY_NULLS_FIRST;
1962 }
1963 }
1964
1965 index->indexParams = lappend(index->indexParams, iparam);
1966 }
1967
1968 /* Handle included columns separately */
1969 for (keyno = idxrec->indnkeyatts; keyno < idxrec->indnatts; keyno++)
1970 {
1971 IndexElem *iparam;
1972 AttrNumber attnum = idxrec->indkey.values[keyno];
1973 Form_pg_attribute attr = TupleDescAttr(RelationGetDescr(source_idx),
1974 keyno);
1975
1976 iparam = makeNode(IndexElem);
1977
1978 if (AttributeNumberIsValid(attnum))
1979 {
1980 /* Simple index column */
1981 char *attname;
1982
1983 attname = get_attname(indrelid, attnum, false);
1984
1985 iparam->name = attname;
1986 iparam->expr = NULL;
1987 }
1988 else
1989 ereport(ERROR,
1990 (errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
1991 errmsg("expressions are not supported in included columns")));
1992
1993 /* Copy the original index column name */
1994 iparam->indexcolname = pstrdup(NameStr(attr->attname));
1995
1996 index->indexIncludingParams = lappend(index->indexIncludingParams, iparam);
1997 }
1998 /* Copy reloptions if any */
1999 datum = SysCacheGetAttr(RELOID, ht_idxrel,
2000 Anum_pg_class_reloptions, &isnull);
2001 if (!isnull)
2002 index->options = untransformRelOptions(datum);
2003
2004 /* If it's a partial index, decompile and append the predicate */
2005 datum = SysCacheGetAttr(INDEXRELID, ht_idx,
2006 Anum_pg_index_indpred, &isnull);
2007 if (!isnull)
2008 {
2009 char *pred_str;
2010 Node *pred_tree;
2011 bool found_whole_row;
2012
2013 /* Convert text string to node tree */
2014 pred_str = TextDatumGetCString(datum);
2015 pred_tree = (Node *) stringToNode(pred_str);
2016
2017 /* Adjust Vars to match new table's column numbering */
2018 pred_tree = map_variable_attnos(pred_tree,
2019 1, 0,
2020 attmap,
2021 InvalidOid, &found_whole_row);
2022
2023 /* As in expandTableLikeClause, reject whole-row variables */
2024 if (found_whole_row)
2025 ereport(ERROR,
2026 (errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
2027 errmsg("cannot convert whole-row table reference"),
2028 errdetail("Index \"%s\" contains a whole-row table reference.",
2029 RelationGetRelationName(source_idx))));
2030
2031 index->whereClause = pred_tree;
2032 }
2033
2034 /* Clean up */
2035 ReleaseSysCache(ht_idxrel);
2036 ReleaseSysCache(ht_am);
2037
2038 return index;
2039}
2040
2041/*
2042 * Generate a CreateStatsStmt node using information from an already existing
2043 * extended statistic "source_statsid", for the rel identified by heapRel and
2044 * heapRelid.
2045 *
2046 * Attribute numbers in expression Vars are adjusted according to attmap.
2047 */
2048static CreateStatsStmt *
2049generateClonedExtStatsStmt(RangeVar *heapRel, Oid heapRelid,
2050 Oid source_statsid, const AttrMap *attmap)
2051{
2052 HeapTuple ht_stats;
2053 Form_pg_statistic_ext statsrec;
2054 CreateStatsStmt *stats;
2055 List *stat_types = NIL;
2056 List *def_names = NIL;
2057 bool isnull;
2058 Datum datum;
2059 ArrayType *arr;
2060 char *enabled;
2061 int i;
2062
2063 Assert(OidIsValid(heapRelid));
2064 Assert(heapRel != NULL);
2065
2066 /*
2067 * Fetch pg_statistic_ext tuple of source statistics object.
2068 */
2069 ht_stats = SearchSysCache1(STATEXTOID, ObjectIdGetDatum(source_statsid));
2070 if (!HeapTupleIsValid(ht_stats))
2071 elog(ERROR, "cache lookup failed for statistics object %u", source_statsid);
2072 statsrec = (Form_pg_statistic_ext) GETSTRUCT(ht_stats);
2073
2074 /* Determine which statistics types exist */
2075 datum = SysCacheGetAttrNotNull(STATEXTOID, ht_stats,
2076 Anum_pg_statistic_ext_stxkind);
2077 arr = DatumGetArrayTypeP(datum);
2078 if (ARR_NDIM(arr) != 1 ||
2079 ARR_HASNULL(arr) ||
2080 ARR_ELEMTYPE(arr) != CHAROID)
2081 elog(ERROR, "stxkind is not a 1-D char array");
2082 enabled = (char *) ARR_DATA_PTR(arr);
2083 for (i = 0; i < ARR_DIMS(arr)[0]; i++)
2084 {
2085 if (enabled[i] == STATS_EXT_NDISTINCT)
2086 stat_types = lappend(stat_types, makeString("ndistinct"));
2087 else if (enabled[i] == STATS_EXT_DEPENDENCIES)
2088 stat_types = lappend(stat_types, makeString("dependencies"));
2089 else if (enabled[i] == STATS_EXT_MCV)
2090 stat_types = lappend(stat_types, makeString("mcv"));
2091 else if (enabled[i] == STATS_EXT_EXPRESSIONS)
2092 /* expression stats are not exposed to users */
2093 continue;
2094 else
2095 elog(ERROR, "unrecognized statistics kind %c", enabled[i]);
2096 }
2097
2098 /* Determine which columns the statistics are on */
2099 for (i = 0; i < statsrec->stxkeys.dim1; i++)
2100 {
2101 StatsElem *selem = makeNode(StatsElem);
2102 AttrNumber attnum = statsrec->stxkeys.values[i];
2103
2104 selem->name = get_attname(heapRelid, attnum, false);
2105 selem->expr = NULL;
2106
2107 def_names = lappend(def_names, selem);
2108 }
2109
2110 /*
2111 * Now handle expressions, if there are any. The order (with respect to
2112 * regular attributes) does not really matter for extended stats, so we
2113 * simply append them after simple column references.
2114 *
2115 * XXX Some places during build/estimation treat expressions as if they
2116 * are before attributes, but for the CREATE command that's entirely
2117 * irrelevant.
2118 */
2119 datum = SysCacheGetAttr(STATEXTOID, ht_stats,
2120 Anum_pg_statistic_ext_stxexprs, &isnull);
2121
2122 if (!isnull)
2123 {
2124 ListCell *lc;
2125 List *exprs = NIL;
2126 char *exprsString;
2127
2128 exprsString = TextDatumGetCString(datum);
2129 exprs = (List *) stringToNode(exprsString);
2130
2131 foreach(lc, exprs)
2132 {
2133 Node *expr = (Node *) lfirst(lc);
2134 StatsElem *selem = makeNode(StatsElem);
2135 bool found_whole_row;
2136
2137 /* Adjust Vars to match new table's column numbering */
2138 expr = map_variable_attnos(expr,
2139 1, 0,
2140 attmap,
2141 InvalidOid,
2142 &found_whole_row);
2143
2144 selem->name = NULL;
2145 selem->expr = expr;
2146
2147 def_names = lappend(def_names, selem);
2148 }
2149
2150 pfree(exprsString);
2151 }
2152
2153 /* finally, build the output node */
2154 stats = makeNode(CreateStatsStmt);
2155 stats->defnames = NULL;
2156 stats->stat_types = stat_types;
2157 stats->exprs = def_names;
2158 stats->relations = list_make1(heapRel);
2159 stats->stxcomment = NULL;
2160 stats->transformed = true; /* don't need transformStatsStmt again */
2161 stats->if_not_exists = false;
2162
2163 /* Clean up */
2164 ReleaseSysCache(ht_stats);
2165
2166 return stats;
2167}
2168
2169/*
2170 * get_collation - fetch qualified name of a collation
2171 *
2172 * If collation is InvalidOid or is the default for the given actual_datatype,
2173 * then the return value is NIL.
2174 */
2175static List *
2176get_collation(Oid collation, Oid actual_datatype)
2177{
2178 List *result;
2179 HeapTuple ht_coll;
2180 Form_pg_collation coll_rec;
2181 char *nsp_name;
2182 char *coll_name;
2183
2184 if (!OidIsValid(collation))
2185 return NIL; /* easy case */
2186 if (collation == get_typcollation(actual_datatype))
2187 return NIL; /* just let it default */
2188
2189 ht_coll = SearchSysCache1(COLLOID, ObjectIdGetDatum(collation));
2190 if (!HeapTupleIsValid(ht_coll))
2191 elog(ERROR, "cache lookup failed for collation %u", collation);
2192 coll_rec = (Form_pg_collation) GETSTRUCT(ht_coll);
2193
2194 /* For simplicity, we always schema-qualify the name */
2195 nsp_name = get_namespace_name(coll_rec->collnamespace);
2196 coll_name = pstrdup(NameStr(coll_rec->collname));
2197 result = list_make2(makeString(nsp_name), makeString(coll_name));
2198
2199 ReleaseSysCache(ht_coll);
2200 return result;
2201}
2202
2203/*
2204 * get_opclass - fetch qualified name of an index operator class
2205 *
2206 * If the opclass is the default for the given actual_datatype, then
2207 * the return value is NIL.
2208 */
2209static List *
2210get_opclass(Oid opclass, Oid actual_datatype)
2211{
2212 List *result = NIL;
2213 HeapTuple ht_opc;
2214 Form_pg_opclass opc_rec;
2215
2216 ht_opc = SearchSysCache1(CLAOID, ObjectIdGetDatum(opclass));
2217 if (!HeapTupleIsValid(ht_opc))
2218 elog(ERROR, "cache lookup failed for opclass %u", opclass);
2219 opc_rec = (Form_pg_opclass) GETSTRUCT(ht_opc);
2220
2221 if (GetDefaultOpClass(actual_datatype, opc_rec->opcmethod) != opclass)
2222 {
2223 /* For simplicity, we always schema-qualify the name */
2224 char *nsp_name = get_namespace_name(opc_rec->opcnamespace);
2225 char *opc_name = pstrdup(NameStr(opc_rec->opcname));
2226
2227 result = list_make2(makeString(nsp_name), makeString(opc_name));
2228 }
2229
2230 ReleaseSysCache(ht_opc);
2231 return result;
2232}
2233
2234
2235/*
2236 * transformIndexConstraints
2237 * Handle UNIQUE, PRIMARY KEY, EXCLUDE constraints, which create indexes.
2238 * We also merge in any index definitions arising from
2239 * LIKE ... INCLUDING INDEXES.
2240 */
2241static void
2242transformIndexConstraints(CreateStmtContext *cxt)
2243{
2244 IndexStmt *index;
2245 List *indexlist = NIL;
2246 List *finalindexlist = NIL;
2247 ListCell *lc;
2248
2249 /*
2250 * Run through the constraints that need to generate an index, and do so.
2251 *
2252 * For PRIMARY KEY, this queues not-null constraints for each column, if
2253 * needed.
2254 */
2255 foreach(lc, cxt->ixconstraints)
2256 {
2257 Constraint *constraint = lfirst_node(Constraint, lc);
2258
2259 Assert(constraint->contype == CONSTR_PRIMARY ||
2260 constraint->contype == CONSTR_UNIQUE ||
2261 constraint->contype == CONSTR_EXCLUSION);
2262
2263 index = transformIndexConstraint(constraint, cxt);
2264
2265 indexlist = lappend(indexlist, index);
2266 }
2267
2268 /*
2269 * Scan the index list and remove any redundant index specifications. This
2270 * can happen if, for instance, the user writes UNIQUE PRIMARY KEY. A
2271 * strict reading of SQL would suggest raising an error instead, but that
2272 * strikes me as too anal-retentive. - tgl 2001-02-14
2273 *
2274 * XXX in ALTER TABLE case, it'd be nice to look for duplicate
2275 * pre-existing indexes, too.
2276 */
2277 if (cxt->pkey != NULL)
2278 {
2279 /* Make sure we keep the PKEY index in preference to others... */
2280 finalindexlist = list_make1(cxt->pkey);
2281 }
2282
2283 foreach(lc, indexlist)
2284 {
2285 bool keep = true;
2286 ListCell *k;
2287
2288 index = lfirst(lc);
2289
2290 /* if it's pkey, it's already in finalindexlist */
2291 if (index == cxt->pkey)
2292 continue;
2293
2294 foreach(k, finalindexlist)
2295 {
2296 IndexStmt *priorindex = lfirst(k);
2297
2298 if (equal(index->indexParams, priorindex->indexParams) &&
2299 equal(index->indexIncludingParams, priorindex->indexIncludingParams) &&
2300 equal(index->whereClause, priorindex->whereClause) &&
2301 equal(index->excludeOpNames, priorindex->excludeOpNames) &&
2302 strcmp(index->accessMethod, priorindex->accessMethod) == 0 &&
2303 index->nulls_not_distinct == priorindex->nulls_not_distinct &&
2304 index->deferrable == priorindex->deferrable &&
2305 index->initdeferred == priorindex->initdeferred)
2306 {
2307 priorindex->unique |= index->unique;
2308
2309 /*
2310 * If the prior index is as yet unnamed, and this one is
2311 * named, then transfer the name to the prior index. This
2312 * ensures that if we have named and unnamed constraints,
2313 * we'll use (at least one of) the names for the index.
2314 */
2315 if (priorindex->idxname == NULL)
2316 priorindex->idxname = index->idxname;
2317 keep = false;
2318 break;
2319 }
2320 }
2321
2322 if (keep)
2323 finalindexlist = lappend(finalindexlist, index);
2324 }
2325
2326 /*
2327 * Now append all the IndexStmts to cxt->alist.
2328 */
2329 cxt->alist = list_concat(cxt->alist, finalindexlist);
2330}
2331
2332/*
2333 * transformIndexConstraint
2334 * Transform one UNIQUE, PRIMARY KEY, or EXCLUDE constraint for
2335 * transformIndexConstraints. An IndexStmt is returned.
2336 *
2337 * For a PRIMARY KEY constraint, we additionally create not-null constraints
2338 * for columns that don't already have them.
2339 */
2340static IndexStmt *
2341transformIndexConstraint(Constraint *constraint, CreateStmtContext *cxt)
2342{
2343 IndexStmt *index;
2344 ListCell *lc;
2345
2346 index = makeNode(IndexStmt);
2347
2348 index->unique = (constraint->contype != CONSTR_EXCLUSION);
2349 index->primary = (constraint->contype == CONSTR_PRIMARY);
2350 if (index->primary)
2351 {
2352 if (cxt->pkey != NULL)
2353 ereport(ERROR,
2354 (errcode(ERRCODE_INVALID_TABLE_DEFINITION),
2355 errmsg("multiple primary keys for table \"%s\" are not allowed",
2356 cxt->relation->relname),
2357 parser_errposition(cxt->pstate, constraint->location)));
2358 cxt->pkey = index;
2359
2360 /*
2361 * In ALTER TABLE case, a primary index might already exist, but
2362 * DefineIndex will check for it.
2363 */
2364 }
2365 index->nulls_not_distinct = constraint->nulls_not_distinct;
2366 index->isconstraint = true;
2367 index->iswithoutoverlaps = constraint->without_overlaps;
2368 index->deferrable = constraint->deferrable;
2369 index->initdeferred = constraint->initdeferred;
2370
2371 if (constraint->conname != NULL)
2372 index->idxname = pstrdup(constraint->conname);
2373 else
2374 index->idxname = NULL; /* DefineIndex will choose name */
2375
2376 index->relation = cxt->relation;
2377 index->accessMethod = constraint->access_method ? constraint->access_method : DEFAULT_INDEX_TYPE;
2378 index->options = constraint->options;
2379 index->tableSpace = constraint->indexspace;
2380 index->whereClause = constraint->where_clause;
2381 index->indexParams = NIL;
2382 index->indexIncludingParams = NIL;
2383 index->excludeOpNames = NIL;
2384 index->idxcomment = NULL;
2385 index->indexOid = InvalidOid;
2386 index->oldNumber = InvalidRelFileNumber;
2387 index->oldCreateSubid = InvalidSubTransactionId;
2388 index->oldFirstRelfilelocatorSubid = InvalidSubTransactionId;
2389 index->transformed = false;
2390 index->concurrent = false;
2391 index->if_not_exists = false;
2392 index->reset_default_tblspc = constraint->reset_default_tblspc;
2393
2394 /*
2395 * If it's ALTER TABLE ADD CONSTRAINT USING INDEX, look up the index and
2396 * verify it's usable, then extract the implied column name list. (We
2397 * will not actually need the column name list at runtime, but we need it
2398 * now to check for duplicate column entries below.)
2399 */
2400 if (constraint->indexname != NULL)
2401 {
2402 char *index_name = constraint->indexname;
2403 Relation heap_rel = cxt->rel;
2404 Oid index_oid;
2405 Relation index_rel;
2406 Form_pg_index index_form;
2407 oidvector *indclass;
2408 Datum indclassDatum;
2409 int i;
2410
2411 /* Grammar should not allow this with explicit column list */
2412 Assert(constraint->keys == NIL);
2413
2414 /* Grammar should only allow PRIMARY and UNIQUE constraints */
2415 Assert(constraint->contype == CONSTR_PRIMARY ||
2416 constraint->contype == CONSTR_UNIQUE);
2417
2418 /* Must be ALTER, not CREATE, but grammar doesn't enforce that */
2419 if (!cxt->isalter)
2420 ereport(ERROR,
2421 (errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
2422 errmsg("cannot use an existing index in CREATE TABLE"),
2423 parser_errposition(cxt->pstate, constraint->location)));
2424
2425 /* Look for the index in the same schema as the table */
2426 index_oid = get_relname_relid(index_name, RelationGetNamespace(heap_rel));
2427
2428 if (!OidIsValid(index_oid))
2429 ereport(ERROR,
2430 (errcode(ERRCODE_UNDEFINED_OBJECT),
2431 errmsg("index \"%s\" does not exist", index_name),
2432 parser_errposition(cxt->pstate, constraint->location)));
2433
2434 /* Open the index (this will throw an error if it is not an index) */
2435 index_rel = index_open(index_oid, AccessShareLock);
2436 index_form = index_rel->rd_index;
2437
2438 /* Check that it does not have an associated constraint already */
2439 if (OidIsValid(get_index_constraint(index_oid)))
2440 ereport(ERROR,
2441 (errcode(ERRCODE_OBJECT_NOT_IN_PREREQUISITE_STATE),
2442 errmsg("index \"%s\" is already associated with a constraint",
2443 index_name),
2444 parser_errposition(cxt->pstate, constraint->location)));
2445
2446 /* Perform validity checks on the index */
2447 if (index_form->indrelid != RelationGetRelid(heap_rel))
2448 ereport(ERROR,
2449 (errcode(ERRCODE_OBJECT_NOT_IN_PREREQUISITE_STATE),
2450 errmsg("index \"%s\" does not belong to table \"%s\"",
2451 index_name, RelationGetRelationName(heap_rel)),
2452 parser_errposition(cxt->pstate, constraint->location)));
2453
2454 if (!index_form->indisvalid)
2455 ereport(ERROR,
2456 (errcode(ERRCODE_OBJECT_NOT_IN_PREREQUISITE_STATE),
2457 errmsg("index \"%s\" is not valid", index_name),
2458 parser_errposition(cxt->pstate, constraint->location)));
2459
2460 /*
2461 * Today we forbid non-unique indexes, but we could permit GiST
2462 * indexes whose last entry is a range type and use that to create a
2463 * WITHOUT OVERLAPS constraint (i.e. a temporal constraint).
2464 */
2465 if (!index_form->indisunique)
2466 ereport(ERROR,
2467 (errcode(ERRCODE_WRONG_OBJECT_TYPE),
2468 errmsg("\"%s\" is not a unique index", index_name),
2469 errdetail("Cannot create a primary key or unique constraint using such an index."),
2470 parser_errposition(cxt->pstate, constraint->location)));
2471
2472 if (RelationGetIndexExpressions(index_rel) != NIL)
2473 ereport(ERROR,
2474 (errcode(ERRCODE_WRONG_OBJECT_TYPE),
2475 errmsg("index \"%s\" contains expressions", index_name),
2476 errdetail("Cannot create a primary key or unique constraint using such an index."),
2477 parser_errposition(cxt->pstate, constraint->location)));
2478
2479 if (RelationGetIndexPredicate(index_rel) != NIL)
2480 ereport(ERROR,
2481 (errcode(ERRCODE_WRONG_OBJECT_TYPE),
2482 errmsg("\"%s\" is a partial index", index_name),
2483 errdetail("Cannot create a primary key or unique constraint using such an index."),
2484 parser_errposition(cxt->pstate, constraint->location)));
2485
2486 /*
2487 * It's probably unsafe to change a deferred index to non-deferred. (A
2488 * non-constraint index couldn't be deferred anyway, so this case
2489 * should never occur; no need to sweat, but let's check it.)
2490 */
2491 if (!index_form->indimmediate && !constraint->deferrable)
2492 ereport(ERROR,
2493 (errcode(ERRCODE_WRONG_OBJECT_TYPE),
2494 errmsg("\"%s\" is a deferrable index", index_name),
2495 errdetail("Cannot create a non-deferrable constraint using a deferrable index."),
2496 parser_errposition(cxt->pstate, constraint->location)));
2497
2498 /*
2499 * Insist on it being a btree. We must have an index that exactly
2500 * matches what you'd get from plain ADD CONSTRAINT syntax, else dump
2501 * and reload will produce a different index (breaking pg_upgrade in
2502 * particular).
2503 */
2504 if (index_rel->rd_rel->relam != get_index_am_oid(DEFAULT_INDEX_TYPE, false))
2505 ereport(ERROR,
2506 (errcode(ERRCODE_WRONG_OBJECT_TYPE),
2507 errmsg("index \"%s\" is not a btree", index_name),
2508 parser_errposition(cxt->pstate, constraint->location)));
2509
2510 /* Must get indclass the hard way */
2511 indclassDatum = SysCacheGetAttrNotNull(INDEXRELID,
2512 index_rel->rd_indextuple,
2513 Anum_pg_index_indclass);
2514 indclass = (oidvector *) DatumGetPointer(indclassDatum);
2515
2516 for (i = 0; i < index_form->indnatts; i++)
2517 {
2518 int16 attnum = index_form->indkey.values[i];
2519 const FormData_pg_attribute *attform;
2520 char *attname;
2521 Oid defopclass;
2522
2523 /*
2524 * We shouldn't see attnum == 0 here, since we already rejected
2525 * expression indexes. If we do, SystemAttributeDefinition will
2526 * throw an error.
2527 */
2528 if (attnum > 0)
2529 {
2530 Assert(attnum <= heap_rel->rd_att->natts);
2531 attform = TupleDescAttr(heap_rel->rd_att, attnum - 1);
2532 }
2533 else
2534 attform = SystemAttributeDefinition(attnum);
2535 attname = pstrdup(NameStr(attform->attname));
2536
2537 if (i < index_form->indnkeyatts)
2538 {
2539 /*
2540 * Insist on default opclass, collation, and sort options.
2541 * While the index would still work as a constraint with
2542 * non-default settings, it might not provide exactly the same
2543 * uniqueness semantics as you'd get from a normally-created
2544 * constraint; and there's also the dump/reload problem
2545 * mentioned above.
2546 */
2547 Datum attoptions =
2548 get_attoptions(RelationGetRelid(index_rel), i + 1);
2549
2550 defopclass = GetDefaultOpClass(attform->atttypid,
2551 index_rel->rd_rel->relam);
2552 if (indclass->values[i] != defopclass ||
2553 attform->attcollation != index_rel->rd_indcollation[i] ||
2554 attoptions != (Datum) 0 ||
2555 index_rel->rd_indoption[i] != 0)
2556 ereport(ERROR,
2557 (errcode(ERRCODE_WRONG_OBJECT_TYPE),
2558 errmsg("index \"%s\" column number %d does not have default sorting behavior", index_name, i + 1),
2559 errdetail("Cannot create a primary key or unique constraint using such an index."),
2560 parser_errposition(cxt->pstate, constraint->location)));
2561
2562 /* If a PK, ensure the columns get not null constraints */
2563 if (constraint->contype == CONSTR_PRIMARY)
2564 cxt->nnconstraints =
2565 lappend(cxt->nnconstraints,
2566 makeNotNullConstraint(makeString(attname)));
2567
2568 constraint->keys = lappend(constraint->keys, makeString(attname));
2569 }
2570 else
2571 constraint->including = lappend(constraint->including, makeString(attname));
2572 }
2573
2574 /* Close the index relation but keep the lock */
2575 relation_close(index_rel, NoLock);
2576
2577 index->indexOid = index_oid;
2578 }
2579
2580 /*
2581 * If it's an EXCLUDE constraint, the grammar returns a list of pairs of
2582 * IndexElems and operator names. We have to break that apart into
2583 * separate lists.
2584 */
2585 if (constraint->contype == CONSTR_EXCLUSION)
2586 {
2587 foreach(lc, constraint->exclusions)
2588 {
2589 List *pair = (List *) lfirst(lc);
2590 IndexElem *elem;
2591 List *opname;
2592
2593 Assert(list_length(pair) == 2);
2594 elem = linitial_node(IndexElem, pair);
2595 opname = lsecond_node(List, pair);
2596
2597 index->indexParams = lappend(index->indexParams, elem);
2598 index->excludeOpNames = lappend(index->excludeOpNames, opname);
2599 }
2600 }
2601
2602 /*
2603 * For UNIQUE and PRIMARY KEY, we just have a list of column names.
2604 *
2605 * Make sure referenced keys exist. If we are making a PRIMARY KEY index,
2606 * also make sure they are not-null. For WITHOUT OVERLAPS constraints, we
2607 * make sure the last part is a range or multirange.
2608 */
2609 else
2610 {
2611 foreach(lc, constraint->keys)
2612 {
2613 char *key = strVal(lfirst(lc));
2614 bool found = false;
2615 ColumnDef *column = NULL;
2616 ListCell *columns;
2617 IndexElem *iparam;
2618 Oid typid = InvalidOid;
2619
2620 /* Make sure referenced column exists. */
2621 foreach(columns, cxt->columns)
2622 {
2623 column = lfirst_node(ColumnDef, columns);
2624 if (strcmp(column->colname, key) == 0)
2625 {
2626 found = true;
2627 break;
2628 }
2629 }
2630 if (!found)
2631 column = NULL;
2632
2633 if (found)
2634 {
2635 /*
2636 * column is defined in the new table. For CREATE TABLE with
2637 * a PRIMARY KEY, we can apply the not-null constraint cheaply
2638 * here. If the not-null constraint already exists, we can
2639 * (albeit not so cheaply) verify that it's not a NO INHERIT
2640 * constraint.
2641 *
2642 * Note that ALTER TABLE never needs either check, because
2643 * those constraints have already been added by
2644 * ATPrepAddPrimaryKey.
2645 */
2646 if (constraint->contype == CONSTR_PRIMARY &&
2647 !cxt->isalter)
2648 {
2649 if (column->is_not_null)
2650 {
2651 foreach_node(Constraint, nn, cxt->nnconstraints)
2652 {
2653 if (strcmp(strVal(linitial(nn->keys)), key) == 0)
2654 {
2655 if (nn->is_no_inherit)
2656 ereport(ERROR,
2657 errcode(ERRCODE_SYNTAX_ERROR),
2658 errmsg("conflicting NO INHERIT declaration for not-null constraint on column \"%s\"",
2659 key));
2660 break;
2661 }
2662 }
2663 }
2664 else
2665 {
2666 column->is_not_null = true;
2667 cxt->nnconstraints =
2668 lappend(cxt->nnconstraints,
2669 makeNotNullConstraint(makeString(key)));
2670 }
2671 }
2672 else if (constraint->contype == CONSTR_PRIMARY)
2673 Assert(column->is_not_null);
2674 }
2675 else if (SystemAttributeByName(key) != NULL)
2676 {
2677 /*
2678 * column will be a system column in the new table, so accept
2679 * it. System columns can't ever be null, so no need to worry
2680 * about PRIMARY/NOT NULL constraint.
2681 */
2682 found = true;
2683 }
2684 else if (cxt->inhRelations)
2685 {
2686 /* try inherited tables */
2687 ListCell *inher;
2688
2689 foreach(inher, cxt->inhRelations)
2690 {
2691 RangeVar *inh = lfirst_node(RangeVar, inher);
2692 Relation rel;
2693 int count;
2694
2695 rel = table_openrv(inh, AccessShareLock);
2696 /* check user requested inheritance from valid relkind */
2697 if (rel->rd_rel->relkind != RELKIND_RELATION &&
2698 rel->rd_rel->relkind != RELKIND_FOREIGN_TABLE &&
2699 rel->rd_rel->relkind != RELKIND_PARTITIONED_TABLE)
2700 ereport(ERROR,
2701 (errcode(ERRCODE_WRONG_OBJECT_TYPE),
2702 errmsg("inherited relation \"%s\" is not a table or foreign table",
2703 inh->relname)));
2704 for (count = 0; count < rel->rd_att->natts; count++)
2705 {
2706 Form_pg_attribute inhattr = TupleDescAttr(rel->rd_att,
2707 count);
2708 char *inhname = NameStr(inhattr->attname);
2709
2710 if (inhattr->attisdropped)
2711 continue;
2712 if (strcmp(key, inhname) == 0)
2713 {
2714 found = true;
2715 typid = inhattr->atttypid;
2716
2717 if (constraint->contype == CONSTR_PRIMARY)
2718 cxt->nnconstraints =
2719 lappend(cxt->nnconstraints,
2720 makeNotNullConstraint(makeString(pstrdup(inhname))));
2721 break;
2722 }
2723 }
2724 table_close(rel, NoLock);
2725 if (found)
2726 break;
2727 }
2728 }
2729
2730 /*
2731 * In the ALTER TABLE case, don't complain about index keys not
2732 * created in the command; they may well exist already.
2733 * DefineIndex will complain about them if not.
2734 */
2735 if (!found && !cxt->isalter)
2736 ereport(ERROR,
2737 (errcode(ERRCODE_UNDEFINED_COLUMN),
2738 errmsg("column \"%s\" named in key does not exist", key),
2739 parser_errposition(cxt->pstate, constraint->location)));
2740
2741 /* Check for PRIMARY KEY(foo, foo) */
2742 foreach(columns, index->indexParams)
2743 {
2744 iparam = (IndexElem *) lfirst(columns);
2745 if (iparam->name && strcmp(key, iparam->name) == 0)
2746 {
2747 if (index->primary)
2748 ereport(ERROR,
2749 (errcode(ERRCODE_DUPLICATE_COLUMN),
2750 errmsg("column \"%s\" appears twice in primary key constraint",
2751 key),
2752 parser_errposition(cxt->pstate, constraint->location)));
2753 else
2754 ereport(ERROR,
2755 (errcode(ERRCODE_DUPLICATE_COLUMN),
2756 errmsg("column \"%s\" appears twice in unique constraint",
2757 key),
2758 parser_errposition(cxt->pstate, constraint->location)));
2759 }
2760 }
2761
2762 /*
2763 * The WITHOUT OVERLAPS part (if any) must be a range or
2764 * multirange type.
2765 */
2766 if (constraint->without_overlaps && lc == list_last_cell(constraint->keys))
2767 {
2768 if (!found && cxt->isalter)
2769 {
2770 /*
2771 * Look up the column type on existing table. If we can't
2772 * find it, let things fail in DefineIndex.
2773 */
2774 Relation rel = cxt->rel;
2775
2776 for (int i = 0; i < rel->rd_att->natts; i++)
2777 {
2778 Form_pg_attribute attr = TupleDescAttr(rel->rd_att, i);
2779 const char *attname;
2780
2781 if (attr->attisdropped)
2782 break;
2783
2784 attname = NameStr(attr->attname);
2785 if (strcmp(attname, key) == 0)
2786 {
2787 found = true;
2788 typid = attr->atttypid;
2789 break;
2790 }
2791 }
2792 }
2793 if (found)
2794 {
2795 if (!OidIsValid(typid) && column)
2796 typid = typenameTypeId(NULL, column->typeName);
2797
2798 if (!OidIsValid(typid) || !(type_is_range(typid) || type_is_multirange(typid)))
2799 ereport(ERROR,
2800 (errcode(ERRCODE_DATATYPE_MISMATCH),
2801 errmsg("column \"%s\" in WITHOUT OVERLAPS is not a range or multirange type", key),
2802 parser_errposition(cxt->pstate, constraint->location)));
2803 }
2804 }
2805
2806 /* OK, add it to the index definition */
2807 iparam = makeNode(IndexElem);
2808 iparam->name = pstrdup(key);
2809 iparam->expr = NULL;
2810 iparam->indexcolname = NULL;
2811 iparam->collation = NIL;
2812 iparam->opclass = NIL;
2813 iparam->opclassopts = NIL;
2814 iparam->ordering = SORTBY_DEFAULT;
2815 iparam->nulls_ordering = SORTBY_NULLS_DEFAULT;
2816 index->indexParams = lappend(index->indexParams, iparam);
2817 }
2818
2819 if (constraint->without_overlaps)
2820 {
2821 /*
2822 * This enforces that there is at least one equality column
2823 * besides the WITHOUT OVERLAPS columns. This is per SQL
2824 * standard. XXX Do we need this?
2825 */
2826 if (list_length(constraint->keys) < 2)
2827 ereport(ERROR,
2828 errcode(ERRCODE_SYNTAX_ERROR),
2829 errmsg("constraint using WITHOUT OVERLAPS needs at least two columns"));
2830
2831 /* WITHOUT OVERLAPS requires a GiST index */
2832 index->accessMethod = "gist";
2833 }
2834
2835 }
2836
2837 /*
2838 * Add included columns to index definition. This is much like the
2839 * simple-column-name-list code above, except that we don't worry about
2840 * NOT NULL marking; included columns in a primary key should not be
2841 * forced NOT NULL. We don't complain about duplicate columns, either,
2842 * though maybe we should?
2843 */
2844 foreach(lc, constraint->including)
2845 {
2846 char *key = strVal(lfirst(lc));
2847 bool found = false;
2848 ColumnDef *column = NULL;
2849 ListCell *columns;
2850 IndexElem *iparam;
2851
2852 foreach(columns, cxt->columns)
2853 {
2854 column = lfirst_node(ColumnDef, columns);
2855 if (strcmp(column->colname, key) == 0)
2856 {
2857 found = true;
2858 break;
2859 }
2860 }
2861
2862 if (!found)
2863 {
2864 if (SystemAttributeByName(key) != NULL)
2865 {
2866 /*
2867 * column will be a system column in the new table, so accept
2868 * it.
2869 */
2870 found = true;
2871 }
2872 else if (cxt->inhRelations)
2873 {
2874 /* try inherited tables */
2875 ListCell *inher;
2876
2877 foreach(inher, cxt->inhRelations)
2878 {
2879 RangeVar *inh = lfirst_node(RangeVar, inher);
2880 Relation rel;
2881 int count;
2882
2883 rel = table_openrv(inh, AccessShareLock);
2884 /* check user requested inheritance from valid relkind */
2885 if (rel->rd_rel->relkind != RELKIND_RELATION &&
2886 rel->rd_rel->relkind != RELKIND_FOREIGN_TABLE &&
2887 rel->rd_rel->relkind != RELKIND_PARTITIONED_TABLE)
2888 ereport(ERROR,
2889 (errcode(ERRCODE_WRONG_OBJECT_TYPE),
2890 errmsg("inherited relation \"%s\" is not a table or foreign table",
2891 inh->relname)));
2892 for (count = 0; count < rel->rd_att->natts; count++)
2893 {
2894 Form_pg_attribute inhattr = TupleDescAttr(rel->rd_att,
2895 count);
2896 char *inhname = NameStr(inhattr->attname);
2897
2898 if (inhattr->attisdropped)
2899 continue;
2900 if (strcmp(key, inhname) == 0)
2901 {
2902 found = true;
2903 break;
2904 }
2905 }
2906 table_close(rel, NoLock);
2907 if (found)
2908 break;
2909 }
2910 }
2911 }
2912
2913 /*
2914 * In the ALTER TABLE case, don't complain about index keys not
2915 * created in the command; they may well exist already. DefineIndex
2916 * will complain about them if not.
2917 */
2918 if (!found && !cxt->isalter)
2919 ereport(ERROR,
2920 (errcode(ERRCODE_UNDEFINED_COLUMN),
2921 errmsg("column \"%s\" named in key does not exist", key),
2922 parser_errposition(cxt->pstate, constraint->location)));
2923
2924 /* OK, add it to the index definition */
2925 iparam = makeNode(IndexElem);
2926 iparam->name = pstrdup(key);
2927 iparam->expr = NULL;
2928 iparam->indexcolname = NULL;
2929 iparam->collation = NIL;
2930 iparam->opclass = NIL;
2931 iparam->opclassopts = NIL;
2932 index->indexIncludingParams = lappend(index->indexIncludingParams, iparam);
2933 }
2934
2935 return index;
2936}
2937
2938/*
2939 * transformCheckConstraints
2940 * handle CHECK constraints
2941 *
2942 * Right now, there's nothing to do here when called from ALTER TABLE,
2943 * but the other constraint-transformation functions are called in both
2944 * the CREATE TABLE and ALTER TABLE paths, so do the same here, and just
2945 * don't do anything if we're not authorized to skip validation.
2946 */
2947static void
2948transformCheckConstraints(CreateStmtContext *cxt, bool skipValidation)
2949{
2950 ListCell *ckclist;
2951
2952 if (cxt->ckconstraints == NIL)
2953 return;
2954
2955 /*
2956 * When creating a new table (but not a foreign table), we can safely skip
2957 * the validation of check constraints and mark them as valid based on the
2958 * constraint enforcement flag, since NOT ENFORCED constraints must always
2959 * be marked as NOT VALID. (This will override any user-supplied NOT VALID
2960 * flag.)
2961 */
2962 if (skipValidation)
2963 {
2964 foreach(ckclist, cxt->ckconstraints)
2965 {
2966 Constraint *constraint = (Constraint *) lfirst(ckclist);
2967
2968 constraint->skip_validation = true;
2969 constraint->initially_valid = constraint->is_enforced;
2970 }
2971 }
2972}
2973
2974/*
2975 * transformFKConstraints
2976 * handle FOREIGN KEY constraints
2977 */
2978static void
2979transformFKConstraints(CreateStmtContext *cxt,
2980 bool skipValidation, bool isAddConstraint)
2981{
2982 ListCell *fkclist;
2983
2984 if (cxt->fkconstraints == NIL)
2985 return;
2986
2987 /*
2988 * If CREATE TABLE or adding a column with NULL default, we can safely
2989 * skip validation of FK constraints, and mark them as valid based on the
2990 * constraint enforcement flag, since NOT ENFORCED constraints must always
2991 * be marked as NOT VALID. (This will override any user-supplied NOT VALID
2992 * flag.)
2993 */
2994 if (skipValidation)
2995 {
2996 foreach(fkclist, cxt->fkconstraints)
2997 {
2998 Constraint *constraint = (Constraint *) lfirst(fkclist);
2999
3000 constraint->skip_validation = true;
3001 constraint->initially_valid = constraint->is_enforced;
3002 }
3003 }
3004
3005 /*
3006 * For CREATE TABLE or ALTER TABLE ADD COLUMN, gin up an ALTER TABLE ADD
3007 * CONSTRAINT command to execute after the basic command is complete. (If
3008 * called from ADD CONSTRAINT, that routine will add the FK constraints to
3009 * its own subcommand list.)
3010 *
3011 * Note: the ADD CONSTRAINT command must also execute after any index
3012 * creation commands. Thus, this should run after
3013 * transformIndexConstraints, so that the CREATE INDEX commands are
3014 * already in cxt->alist. See also the handling of cxt->likeclauses.
3015 */
3016 if (!isAddConstraint)
3017 {
3018 AlterTableStmt *alterstmt = makeNode(AlterTableStmt);
3019
3020 alterstmt->relation = cxt->relation;
3021 alterstmt->cmds = NIL;
3022 alterstmt->objtype = OBJECT_TABLE;
3023
3024 foreach(fkclist, cxt->fkconstraints)
3025 {
3026 Constraint *constraint = (Constraint *) lfirst(fkclist);
3027 AlterTableCmd *altercmd = makeNode(AlterTableCmd);
3028
3029 altercmd->subtype = AT_AddConstraint;
3030 altercmd->name = NULL;
3031 altercmd->def = (Node *) constraint;
3032 alterstmt->cmds = lappend(alterstmt->cmds, altercmd);
3033 }
3034
3035 cxt->alist = lappend(cxt->alist, alterstmt);
3036 }
3037}
3038
3039/*
3040 * transformIndexStmt - parse analysis for CREATE INDEX and ALTER TABLE
3041 *
3042 * Note: this is a no-op for an index not using either index expressions or
3043 * a predicate expression. There are several code paths that create indexes
3044 * without bothering to call this, because they know they don't have any
3045 * such expressions to deal with.
3046 *
3047 * To avoid race conditions, it's important that this function rely only on
3048 * the passed-in relid (and not on stmt->relation) to determine the target
3049 * relation.
3050 */
3051IndexStmt *
3052transformIndexStmt(Oid relid, IndexStmt *stmt, const char *queryString)
3053{
3054 ParseState *pstate;
3055 ParseNamespaceItem *nsitem;
3056 ListCell *l;
3057 Relation rel;
3058
3059 /* Nothing to do if statement already transformed. */
3060 if (stmt->transformed)
3061 return stmt;
3062
3063 /* Set up pstate */
3064 pstate = make_parsestate(NULL);
3065 pstate->p_sourcetext = queryString;
3066
3067 /*
3068 * Put the parent table into the rtable so that the expressions can refer
3069 * to its fields without qualification. Caller is responsible for locking
3070 * relation, but we still need to open it.
3071 */
3072 rel = relation_open(relid, NoLock);
3073 nsitem = addRangeTableEntryForRelation(pstate, rel,
3074 AccessShareLock,
3075 NULL, false, true);
3076
3077 /* no to join list, yes to namespaces */
3078 addNSItemToQuery(pstate, nsitem, false, true, true);
3079
3080 /* take care of the where clause */
3081 if (stmt->whereClause)
3082 {
3083 stmt->whereClause = transformWhereClause(pstate,
3084 stmt->whereClause,
3085 EXPR_KIND_INDEX_PREDICATE,
3086 "WHERE");
3087 /* we have to fix its collations too */
3088 assign_expr_collations(pstate, stmt->whereClause);
3089 }
3090
3091 /* take care of any index expressions */
3092 foreach(l, stmt->indexParams)
3093 {
3094 IndexElem *ielem = (IndexElem *) lfirst(l);
3095
3096 if (ielem->expr)
3097 {
3098 /* Extract preliminary index col name before transforming expr */
3099 if (ielem->indexcolname == NULL)
3100 ielem->indexcolname = FigureIndexColname(ielem->expr);
3101
3102 /* Now do parse transformation of the expression */
3103 ielem->expr = transformExpr(pstate, ielem->expr,
3104 EXPR_KIND_INDEX_EXPRESSION);
3105
3106 /* We have to fix its collations too */
3107 assign_expr_collations(pstate, ielem->expr);
3108
3109 /*
3110 * transformExpr() should have already rejected subqueries,
3111 * aggregates, window functions, and SRFs, based on the EXPR_KIND_
3112 * for an index expression.
3113 *
3114 * DefineIndex() will make more checks.
3115 */
3116 }
3117 }
3118
3119 /*
3120 * Check that only the base rel is mentioned. (This should be dead code
3121 * now that add_missing_from is history.)
3122 */
3123 if (list_length(pstate->p_rtable) != 1)
3124 ereport(ERROR,
3125 (errcode(ERRCODE_INVALID_COLUMN_REFERENCE),
3126 errmsg("index expressions and predicates can refer only to the table being indexed")));
3127
3128 free_parsestate(pstate);
3129
3130 /* Close relation */
3131 table_close(rel, NoLock);
3132
3133 /* Mark statement as successfully transformed */
3134 stmt->transformed = true;
3135
3136 return stmt;
3137}
3138
3139/*
3140 * transformStatsStmt - parse analysis for CREATE STATISTICS
3141 *
3142 * To avoid race conditions, it's important that this function relies only on
3143 * the passed-in relid (and not on stmt->relation) to determine the target
3144 * relation.
3145 */
3146CreateStatsStmt *
3147transformStatsStmt(Oid relid, CreateStatsStmt *stmt, const char *queryString)
3148{
3149 ParseState *pstate;
3150 ParseNamespaceItem *nsitem;
3151 ListCell *l;
3152 Relation rel;
3153
3154 /* Nothing to do if statement already transformed. */
3155 if (stmt->transformed)
3156 return stmt;
3157
3158 /* Set up pstate */
3159 pstate = make_parsestate(NULL);
3160 pstate->p_sourcetext = queryString;
3161
3162 /*
3163 * Put the parent table into the rtable so that the expressions can refer
3164 * to its fields without qualification. Caller is responsible for locking
3165 * relation, but we still need to open it.
3166 */
3167 rel = relation_open(relid, NoLock);
3168 nsitem = addRangeTableEntryForRelation(pstate, rel,
3169 AccessShareLock,
3170 NULL, false, true);
3171
3172 /* no to join list, yes to namespaces */
3173 addNSItemToQuery(pstate, nsitem, false, true, true);
3174
3175 /* take care of any expressions */
3176 foreach(l, stmt->exprs)
3177 {
3178 StatsElem *selem = (StatsElem *) lfirst(l);
3179
3180 if (selem->expr)
3181 {
3182 /* Now do parse transformation of the expression */
3183 selem->expr = transformExpr(pstate, selem->expr,
3184 EXPR_KIND_STATS_EXPRESSION);
3185
3186 /* We have to fix its collations too */
3187 assign_expr_collations(pstate, selem->expr);
3188 }
3189 }
3190
3191 /*
3192 * Check that only the base rel is mentioned. (This should be dead code
3193 * now that add_missing_from is history.)
3194 */
3195 if (list_length(pstate->p_rtable) != 1)
3196 ereport(ERROR,
3197 (errcode(ERRCODE_INVALID_COLUMN_REFERENCE),
3198 errmsg("statistics expressions can refer only to the table being referenced")));
3199
3200 free_parsestate(pstate);
3201
3202 /* Close relation */
3203 table_close(rel, NoLock);
3204
3205 /* Mark statement as successfully transformed */
3206 stmt->transformed = true;
3207
3208 return stmt;
3209}
3210
3211
3212/*
3213 * transformRuleStmt -
3214 * transform a CREATE RULE Statement. The action is a list of parse
3215 * trees which is transformed into a list of query trees, and we also
3216 * transform the WHERE clause if any.
3217 *
3218 * actions and whereClause are output parameters that receive the
3219 * transformed results.
3220 */
3221void
3222transformRuleStmt(RuleStmt *stmt, const char *queryString,
3223 List **actions, Node **whereClause)
3224{
3225 Relation rel;
3226 ParseState *pstate;
3227 ParseNamespaceItem *oldnsitem;
3228 ParseNamespaceItem *newnsitem;
3229
3230 /*
3231 * To avoid deadlock, make sure the first thing we do is grab
3232 * AccessExclusiveLock on the target relation. This will be needed by
3233 * DefineQueryRewrite(), and we don't want to grab a lesser lock
3234 * beforehand.
3235 */
3236 rel = table_openrv(stmt->relation, AccessExclusiveLock);
3237
3238 if (rel->rd_rel->relkind == RELKIND_MATVIEW)
3239 ereport(ERROR,
3240 (errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
3241 errmsg("rules on materialized views are not supported")));
3242
3243 /* Set up pstate */
3244 pstate = make_parsestate(NULL);
3245 pstate->p_sourcetext = queryString;
3246
3247 /*
3248 * NOTE: 'OLD' must always have a varno equal to 1 and 'NEW' equal to 2.
3249 * Set up their ParseNamespaceItems in the main pstate for use in parsing
3250 * the rule qualification.
3251 */
3252 oldnsitem = addRangeTableEntryForRelation(pstate, rel,
3253 AccessShareLock,
3254 makeAlias("old", NIL),
3255 false, false);
3256 newnsitem = addRangeTableEntryForRelation(pstate, rel,
3257 AccessShareLock,
3258 makeAlias("new", NIL),
3259 false, false);
3260
3261 /*
3262 * They must be in the namespace too for lookup purposes, but only add the
3263 * one(s) that are relevant for the current kind of rule. In an UPDATE
3264 * rule, quals must refer to OLD.field or NEW.field to be unambiguous, but
3265 * there's no need to be so picky for INSERT & DELETE. We do not add them
3266 * to the joinlist.
3267 */
3268 switch (stmt->event)
3269 {
3270 case CMD_SELECT:
3271 addNSItemToQuery(pstate, oldnsitem, false, true, true);
3272 break;
3273 case CMD_UPDATE:
3274 addNSItemToQuery(pstate, oldnsitem, false, true, true);
3275 addNSItemToQuery(pstate, newnsitem, false, true, true);
3276 break;
3277 case CMD_INSERT:
3278 addNSItemToQuery(pstate, newnsitem, false, true, true);
3279 break;
3280 case CMD_DELETE:
3281 addNSItemToQuery(pstate, oldnsitem, false, true, true);
3282 break;
3283 default:
3284 elog(ERROR, "unrecognized event type: %d",
3285 (int) stmt->event);
3286 break;
3287 }
3288
3289 /* take care of the where clause */
3290 *whereClause = transformWhereClause(pstate,
3291 stmt->whereClause,
3292 EXPR_KIND_WHERE,
3293 "WHERE");
3294 /* we have to fix its collations too */
3295 assign_expr_collations(pstate, *whereClause);
3296
3297 /* this is probably dead code without add_missing_from: */
3298 if (list_length(pstate->p_rtable) != 2) /* naughty, naughty... */
3299 ereport(ERROR,
3300 (errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
3301 errmsg("rule WHERE condition cannot contain references to other relations")));
3302
3303 /*
3304 * 'instead nothing' rules with a qualification need a query rangetable so
3305 * the rewrite handler can add the negated rule qualification to the
3306 * original query. We create a query with the new command type CMD_NOTHING
3307 * here that is treated specially by the rewrite system.
3308 */
3309 if (stmt->actions == NIL)
3310 {
3311 Query *nothing_qry = makeNode(Query);
3312
3313 nothing_qry->commandType = CMD_NOTHING;
3314 nothing_qry->rtable = pstate->p_rtable;
3315 nothing_qry->rteperminfos = pstate->p_rteperminfos;
3316 nothing_qry->jointree = makeFromExpr(NIL, NULL); /* no join wanted */
3317
3318 *actions = list_make1(nothing_qry);
3319 }
3320 else
3321 {
3322 ListCell *l;
3323 List *newactions = NIL;
3324
3325 /*
3326 * transform each statement, like parse_sub_analyze()
3327 */
3328 foreach(l, stmt->actions)
3329 {
3330 Node *action = (Node *) lfirst(l);
3331 ParseState *sub_pstate = make_parsestate(NULL);
3332 Query *sub_qry,
3333 *top_subqry;
3334 bool has_old,
3335 has_new;
3336
3337 /*
3338 * Since outer ParseState isn't parent of inner, have to pass down
3339 * the query text by hand.
3340 */
3341 sub_pstate->p_sourcetext = queryString;
3342
3343 /*
3344 * Set up OLD/NEW in the rtable for this statement. The entries
3345 * are added only to relnamespace, not varnamespace, because we
3346 * don't want them to be referred to by unqualified field names
3347 * nor "*" in the rule actions. We decide later whether to put
3348 * them in the joinlist.
3349 */
3350 oldnsitem = addRangeTableEntryForRelation(sub_pstate, rel,
3351 AccessShareLock,
3352 makeAlias("old", NIL),
3353 false, false);
3354 newnsitem = addRangeTableEntryForRelation(sub_pstate, rel,
3355 AccessShareLock,
3356 makeAlias("new", NIL),
3357 false, false);
3358 addNSItemToQuery(sub_pstate, oldnsitem, false, true, false);
3359 addNSItemToQuery(sub_pstate, newnsitem, false, true, false);
3360
3361 /* Transform the rule action statement */
3362 top_subqry = transformStmt(sub_pstate, action);
3363
3364 /*
3365 * We cannot support utility-statement actions (eg NOTIFY) with
3366 * nonempty rule WHERE conditions, because there's no way to make
3367 * the utility action execute conditionally.
3368 */
3369 if (top_subqry->commandType == CMD_UTILITY &&
3370 *whereClause != NULL)
3371 ereport(ERROR,
3372 (errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
3373 errmsg("rules with WHERE conditions can only have SELECT, INSERT, UPDATE, or DELETE actions")));
3374
3375 /*
3376 * If the action is INSERT...SELECT, OLD/NEW have been pushed down
3377 * into the SELECT, and that's what we need to look at. (Ugly
3378 * kluge ... try to fix this when we redesign querytrees.)
3379 */
3380 sub_qry = getInsertSelectQuery(top_subqry, NULL);
3381
3382 /*
3383 * If the sub_qry is a setop, we cannot attach any qualifications
3384 * to it, because the planner won't notice them. This could
3385 * perhaps be relaxed someday, but for now, we may as well reject
3386 * such a rule immediately.
3387 */
3388 if (sub_qry->setOperations != NULL && *whereClause != NULL)
3389 ereport(ERROR,
3390 (errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
3391 errmsg("conditional UNION/INTERSECT/EXCEPT statements are not implemented")));
3392
3393 /*
3394 * Validate action's use of OLD/NEW, qual too
3395 */
3396 has_old =
3397 rangeTableEntry_used((Node *) sub_qry, PRS2_OLD_VARNO, 0) ||
3398 rangeTableEntry_used(*whereClause, PRS2_OLD_VARNO, 0);
3399 has_new =
3400 rangeTableEntry_used((Node *) sub_qry, PRS2_NEW_VARNO, 0) ||
3401 rangeTableEntry_used(*whereClause, PRS2_NEW_VARNO, 0);
3402
3403 switch (stmt->event)
3404 {
3405 case CMD_SELECT:
3406 if (has_old)
3407 ereport(ERROR,
3408 (errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
3409 errmsg("ON SELECT rule cannot use OLD")));
3410 if (has_new)
3411 ereport(ERROR,
3412 (errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
3413 errmsg("ON SELECT rule cannot use NEW")));
3414 break;
3415 case CMD_UPDATE:
3416 /* both are OK */
3417 break;
3418 case CMD_INSERT:
3419 if (has_old)
3420 ereport(ERROR,
3421 (errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
3422 errmsg("ON INSERT rule cannot use OLD")));
3423 break;
3424 case CMD_DELETE:
3425 if (has_new)
3426 ereport(ERROR,
3427 (errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
3428 errmsg("ON DELETE rule cannot use NEW")));
3429 break;
3430 default:
3431 elog(ERROR, "unrecognized event type: %d",
3432 (int) stmt->event);
3433 break;
3434 }
3435
3436 /*
3437 * OLD/NEW are not allowed in WITH queries, because they would
3438 * amount to outer references for the WITH, which we disallow.
3439 * However, they were already in the outer rangetable when we
3440 * analyzed the query, so we have to check.
3441 *
3442 * Note that in the INSERT...SELECT case, we need to examine the
3443 * CTE lists of both top_subqry and sub_qry.
3444 *
3445 * Note that we aren't digging into the body of the query looking
3446 * for WITHs in nested sub-SELECTs. A WITH down there can
3447 * legitimately refer to OLD/NEW, because it'd be an
3448 * indirect-correlated outer reference.
3449 */
3450 if (rangeTableEntry_used((Node *) top_subqry->cteList,
3451 PRS2_OLD_VARNO, 0) ||
3452 rangeTableEntry_used((Node *) sub_qry->cteList,
3453 PRS2_OLD_VARNO, 0))
3454 ereport(ERROR,
3455 (errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
3456 errmsg("cannot refer to OLD within WITH query")));
3457 if (rangeTableEntry_used((Node *) top_subqry->cteList,
3458 PRS2_NEW_VARNO, 0) ||
3459 rangeTableEntry_used((Node *) sub_qry->cteList,
3460 PRS2_NEW_VARNO, 0))
3461 ereport(ERROR,
3462 (errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
3463 errmsg("cannot refer to NEW within WITH query")));
3464
3465 /*
3466 * For efficiency's sake, add OLD to the rule action's jointree
3467 * only if it was actually referenced in the statement or qual.
3468 *
3469 * For INSERT, NEW is not really a relation (only a reference to
3470 * the to-be-inserted tuple) and should never be added to the
3471 * jointree.
3472 *
3473 * For UPDATE, we treat NEW as being another kind of reference to
3474 * OLD, because it represents references to *transformed* tuples
3475 * of the existing relation. It would be wrong to enter NEW
3476 * separately in the jointree, since that would cause a double
3477 * join of the updated relation. It's also wrong to fail to make
3478 * a jointree entry if only NEW and not OLD is mentioned.
3479 */
3480 if (has_old || (has_new && stmt->event == CMD_UPDATE))
3481 {
3482 RangeTblRef *rtr;
3483
3484 /*
3485 * If sub_qry is a setop, manipulating its jointree will do no
3486 * good at all, because the jointree is dummy. (This should be
3487 * a can't-happen case because of prior tests.)
3488 */
3489 if (sub_qry->setOperations != NULL)
3490 ereport(ERROR,
3491 (errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
3492 errmsg("conditional UNION/INTERSECT/EXCEPT statements are not implemented")));
3493 /* hackishly add OLD to the already-built FROM clause */
3494 rtr = makeNode(RangeTblRef);
3495 rtr->rtindex = oldnsitem->p_rtindex;
3496 sub_qry->jointree->fromlist =
3497 lappend(sub_qry->jointree->fromlist, rtr);
3498 }
3499
3500 newactions = lappend(newactions, top_subqry);
3501
3502 free_parsestate(sub_pstate);
3503 }
3504
3505 *actions = newactions;
3506 }
3507
3508 free_parsestate(pstate);
3509
3510 /* Close relation, but keep the exclusive lock */
3511 table_close(rel, NoLock);
3512}
3513
3514
3515/*
3516 * checkPartition
3517 * Check whether partRelOid is a leaf partition of the parent table (rel).
3518 * isMerge: true indicates the operation is "ALTER TABLE ... MERGE PARTITIONS";
3519 * false indicates the operation is "ALTER TABLE ... SPLIT PARTITION".
3520 */
3521static void
3522checkPartition(Relation rel, Oid partRelOid, bool isMerge)
3523{
3524 Relation partRel;
3525
3526 partRel = table_open(partRelOid, NoLock);
3527
3528 if (partRel->rd_rel->relkind != RELKIND_RELATION)
3529 ereport(ERROR,
3530 errcode(ERRCODE_WRONG_OBJECT_TYPE),
3531 errmsg("\"%s\" is not a table", RelationGetRelationName(partRel)),
3532 isMerge
3533 ? errhint("ALTER TABLE ... MERGE PARTITIONS can only merge partitions don't have sub-partitions")
3534 : errhint("ALTER TABLE ... SPLIT PARTITION can only split partitions don't have sub-partitions"));
3535
3536 if (!partRel->rd_rel->relispartition)
3537 ereport(ERROR,
3538 errcode(ERRCODE_WRONG_OBJECT_TYPE),
3539 errmsg("\"%s\" is not a partition of partitioned table \"%s\"",
3540 RelationGetRelationName(partRel), RelationGetRelationName(rel)),
3541 isMerge
3542 ? errhint("ALTER TABLE ... MERGE PARTITIONS can only merge partitions don't have sub-partitions")
3543 : errhint("ALTER TABLE ... SPLIT PARTITION can only split partitions don't have sub-partitions"));
3544
3545 if (get_partition_parent(partRelOid, false) != RelationGetRelid(rel))
3546 ereport(ERROR,
3547 errcode(ERRCODE_UNDEFINED_TABLE),
3548 errmsg("relation \"%s\" is not a partition of relation \"%s\"",
3549 RelationGetRelationName(partRel), RelationGetRelationName(rel)),
3550 isMerge
3551 ? errhint("ALTER TABLE ... MERGE PARTITIONS can only merge partitions don't have sub-partitions")
3552 : errhint("ALTER TABLE ... SPLIT PARTITION can only split partitions don't have sub-partitions"));
3553
3554 table_close(partRel, NoLock);
3555}
3556
3557/*
3558 * transformPartitionCmdForSplit -
3559 * analyze the ALTER TABLE ... SPLIT PARTITION command
3560 *
3561 * For each new partition, sps->bound is set to the transformed value of bound.
3562 * Does checks for bounds of new partitions.
3563 */
3564static void
3565transformPartitionCmdForSplit(CreateStmtContext *cxt, PartitionCmd *partcmd)
3566{
3567 Relation parent = cxt->rel;
3568 PartitionKey key;
3569 char strategy;
3570 Oid splitPartOid;
3571 Oid defaultPartOid;
3572 int default_index = -1;
3573 bool isSplitPartDefault;
3574 ListCell *listptr,
3575 *listptr2;
3576 List *splitlist;
3577
3578 splitlist = partcmd->partlist;
3579 key = RelationGetPartitionKey(parent);
3580 strategy = get_partition_strategy(key);
3581 defaultPartOid = get_default_oid_from_partdesc(RelationGetPartitionDesc(parent, true));
3582
3583 /* Transform partition bounds for all partitions in the list: */
3584 foreach_node(SinglePartitionSpec, sps, splitlist)
3585 {
3586 cxt->partbound = NULL;
3587 transformPartitionCmd(cxt, sps->bound);
3588 /* Assign the transformed value of the partition bound. */
3589 sps->bound = cxt->partbound;
3590 }
3591
3592 /*
3593 * Open and lock the partition, check ownership along the way. We need to
3594 * use AccessExclusiveLock here because this split partition will be
3595 * detached, then dropped in ATExecSplitPartition.
3596 */
3597 splitPartOid = RangeVarGetRelidExtended(partcmd->name, AccessExclusiveLock,
3598 0, RangeVarCallbackOwnsRelation,
3599 NULL);
3600
3601 checkPartition(parent, splitPartOid, false);
3602
3603 switch (strategy)
3604 {
3605 case PARTITION_STRATEGY_LIST:
3606 case PARTITION_STRATEGY_RANGE:
3607 {
3608 foreach_node(SinglePartitionSpec, sps, splitlist)
3609 {
3610 if (sps->bound->is_default)
3611 {
3612 if (default_index != -1)
3613 ereport(ERROR,
3614 errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
3615 errmsg("DEFAULT partition should be one"),
3616 parser_errposition(cxt->pstate, sps->name->location));
3617
3618 default_index = foreach_current_index(sps);
3619 }
3620 }
3621 }
3622 break;
3623
3624 case PARTITION_STRATEGY_HASH:
3625 ereport(ERROR,
3626 errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
3627 errmsg("partition of hash-partitioned table cannot be split"));
3628 break;
3629
3630 default:
3631 elog(ERROR, "unexpected partition strategy: %d",
3632 (int) key->strategy);
3633 break;
3634 }
3635
3636 /* isSplitPartDefault: is the being split partition a DEFAULT partition? */
3637 isSplitPartDefault = (defaultPartOid == splitPartOid);
3638
3639 if (isSplitPartDefault && default_index == -1)
3640 ereport(ERROR,
3641 errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
3642 errmsg("can not split DEFAULT partition \"%s\"",
3643 get_rel_name(splitPartOid)),
3644 errhint("To split DEFAULT partition one of the new partition msut be DEFAULT"),
3645 parser_errposition(cxt->pstate, ((SinglePartitionSpec *) linitial(splitlist))->name->location));
3646
3647 /*
3648 * If the partition being split is not the DEFAULT partition, but the
3649 * DEFAULT partition exists, then none of the resulting split partitions
3650 * can be the DEFAULT.
3651 */
3652 if (!isSplitPartDefault && (default_index != -1) && OidIsValid(defaultPartOid))
3653 {
3654 SinglePartitionSpec *spsDef =
3655 (SinglePartitionSpec *) list_nth(splitlist, default_index);
3656
3657 ereport(ERROR,
3658 errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
3659 errmsg("can not split non-DEFAULT partition \"%s\"",
3660 get_rel_name(splitPartOid)),
3661 errmsg("new partition cannot be DEFAULT because DEFAULT partition \"%s\" already exists",
3662 get_rel_name(defaultPartOid)),
3663 parser_errposition(cxt->pstate, spsDef->name->location));
3664 }
3665
3666 foreach(listptr, splitlist)
3667 {
3668 Oid nspid;
3669 SinglePartitionSpec *sps = (SinglePartitionSpec *) lfirst(listptr);
3670 RangeVar *name = sps->name;
3671
3672 nspid = RangeVarGetCreationNamespace(sps->name);
3673
3674 /* Partitions in the list should have different names. */
3675 for_each_cell(listptr2, splitlist, lnext(splitlist, listptr))
3676 {
3677 Oid nspid2;
3678 SinglePartitionSpec *sps2 = (SinglePartitionSpec *) lfirst(listptr2);
3679 RangeVar *name2 = sps2->name;
3680
3681 if (equal(name, name2))
3682 ereport(ERROR,
3683 errcode(ERRCODE_DUPLICATE_TABLE),
3684 errmsg("partition with name \"%s\" is already used", name->relname),
3685 parser_errposition(cxt->pstate, name2->location));
3686
3687 nspid2 = RangeVarGetCreationNamespace(sps2->name);
3688
3689 if (nspid2 == nspid && strcmp(name->relname, name2->relname) == 0)
3690 ereport(ERROR,
3691 errcode(ERRCODE_DUPLICATE_TABLE),
3692 errmsg("partition with name \"%s\" is already used", name->relname),
3693 parser_errposition(cxt->pstate, name2->location));
3694 }
3695 }
3696
3697 /* Then we should check partitions with transformed bounds. */
3698 check_partitions_for_split(parent, splitPartOid, splitlist, cxt->pstate);
3699}
3700
3701
3702/*
3703 * transformPartitionCmdForMerge -
3704 * analyze the ALTER TABLE ... MERGE PARTITIONS command
3705 *
3706 * Does simple checks for merged partitions. Calculates bound of the resulting
3707 * partition.
3708 */
3709static void
3710transformPartitionCmdForMerge(CreateStmtContext *cxt, PartitionCmd *partcmd)
3711{
3712 Oid defaultPartOid;
3713 Oid partOid;
3714 Relation parent = cxt->rel;
3715 PartitionKey key;
3716 char strategy;
3717 ListCell *listptr,
3718 *listptr2;
3719 bool isDefaultPart = false;
3720 List *partOids = NIL;
3721
3722 key = RelationGetPartitionKey(parent);
3723 strategy = get_partition_strategy(key);
3724
3725 if (strategy == PARTITION_STRATEGY_HASH)
3726 ereport(ERROR,
3727 errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
3728 errmsg("partition of hash-partitioned table cannot be merged"));
3729
3730 /* Does the partitioned table (parent) have a default partition? */
3731 defaultPartOid = get_default_oid_from_partdesc(RelationGetPartitionDesc(parent, true));
3732
3733 foreach(listptr, partcmd->partlist)
3734 {
3735 RangeVar *name = (RangeVar *) lfirst(listptr);
3736
3737 /* Partitions in the list should have different names. */
3738 for_each_cell(listptr2, partcmd->partlist, lnext(partcmd->partlist, listptr))
3739 {
3740 RangeVar *name2 = (RangeVar *) lfirst(listptr2);
3741
3742 if (equal(name, name2))
3743 ereport(ERROR,
3744 errcode(ERRCODE_DUPLICATE_TABLE),
3745 errmsg("partition with name \"%s\" is already used", name->relname),
3746 parser_errposition(cxt->pstate, name2->location));
3747 }
3748
3749 /*
3750 * Search the DEFAULT partition in the list. Open and lock partitions
3751 * before calculating the boundary for resulting partition, we also
3752 * check for ownership along the way. We need to use
3753 * AccessExclusiveLock here, because these merged partitions will be
3754 * detached and then dropped in ATExecMergePartitions.
3755 */
3756 partOid = RangeVarGetRelidExtended(name, AccessExclusiveLock, 0,
3757 RangeVarCallbackOwnsRelation,
3758 NULL);
3759 /* Is the current partition a DEFAULT partition? */
3760 if (partOid == defaultPartOid)
3761 isDefaultPart = true;
3762
3763 /*
3764 * Extended check because the same partition can have different names
3765 * (for example, "part_name" and "public.part_name").
3766 */
3767 foreach(listptr2, partOids)
3768 {
3769 Oid curOid = lfirst_oid(listptr2);
3770
3771 if (curOid == partOid)
3772 ereport(ERROR,
3773 errcode(ERRCODE_DUPLICATE_TABLE),
3774 errmsg("partition with name \"%s\" is already used", name->relname),
3775 parser_errposition(cxt->pstate, name->location));
3776 }
3777
3778 checkPartition(parent, partOid, true);
3779
3780 partOids = lappend_oid(partOids, partOid);
3781 }
3782
3783 /* Allocate the bound of the resulting partition. */
3784 Assert(partcmd->bound == NULL);
3785 partcmd->bound = makeNode(PartitionBoundSpec);
3786
3787 /* Fill the partition bound. */
3788 partcmd->bound->strategy = strategy;
3789 partcmd->bound->location = -1;
3790 partcmd->bound->is_default = isDefaultPart;
3791 if (!isDefaultPart)
3792 calculate_partition_bound_for_merge(parent, partcmd->partlist,
3793 partOids, partcmd->bound,
3794 cxt->pstate);
3795}
3796
3797/*
3798 * transformAlterTableStmt -
3799 * parse analysis for ALTER TABLE
3800 *
3801 * Returns the transformed AlterTableStmt. There may be additional actions
3802 * to be done before and after the transformed statement, which are returned
3803 * in *beforeStmts and *afterStmts as lists of utility command parsetrees.
3804 *
3805 * To avoid race conditions, it's important that this function rely only on
3806 * the passed-in relid (and not on stmt->relation) to determine the target
3807 * relation.
3808 */
3809AlterTableStmt *
3810transformAlterTableStmt(Oid relid, AlterTableStmt *stmt,
3811 const char *queryString,
3812 List **beforeStmts, List **afterStmts)
3813{
3814 Relation rel;
3815 TupleDesc tupdesc;
3816 ParseState *pstate;
3817 CreateStmtContext cxt;
3818 List *save_alist;
3819 ListCell *lcmd,
3820 *l;
3821 List *newcmds = NIL;
3822 bool skipValidation = true;
3823 AlterTableCmd *newcmd;
3824 ParseNamespaceItem *nsitem;
3825
3826 /* Caller is responsible for locking the relation */
3827 rel = relation_open(relid, NoLock);
3828 tupdesc = RelationGetDescr(rel);
3829
3830 /* Set up pstate */
3831 pstate = make_parsestate(NULL);
3832 pstate->p_sourcetext = queryString;
3833 nsitem = addRangeTableEntryForRelation(pstate,
3834 rel,
3835 AccessShareLock,
3836 NULL,
3837 false,
3838 true);
3839 addNSItemToQuery(pstate, nsitem, false, true, true);
3840
3841 /* Set up CreateStmtContext */
3842 cxt.pstate = pstate;
3843 if (rel->rd_rel->relkind == RELKIND_FOREIGN_TABLE)
3844 {
3845 cxt.stmtType = "ALTER FOREIGN TABLE";
3846 cxt.isforeign = true;
3847 }
3848 else
3849 {
3850 cxt.stmtType = "ALTER TABLE";
3851 cxt.isforeign = false;
3852 }
3853 cxt.relation = stmt->relation;
3854 cxt.rel = rel;
3855 cxt.inhRelations = NIL;
3856 cxt.isalter = true;
3857 cxt.columns = NIL;
3858 cxt.ckconstraints = NIL;
3859 cxt.nnconstraints = NIL;
3860 cxt.fkconstraints = NIL;
3861 cxt.ixconstraints = NIL;
3862 cxt.likeclauses = NIL;
3863 cxt.blist = NIL;
3864 cxt.alist = NIL;
3865 cxt.pkey = NULL;
3866 cxt.ispartitioned = (rel->rd_rel->relkind == RELKIND_PARTITIONED_TABLE);
3867 cxt.partbound = NULL;
3868 cxt.ofType = false;
3869
3870 /*
3871 * Transform ALTER subcommands that need it (most don't). These largely
3872 * re-use code from CREATE TABLE.
3873 */
3874 foreach(lcmd, stmt->cmds)
3875 {
3876 AlterTableCmd *cmd = (AlterTableCmd *) lfirst(lcmd);
3877
3878 switch (cmd->subtype)
3879 {
3880 case AT_AddColumn:
3881 {
3882 ColumnDef *def = castNode(ColumnDef, cmd->def);
3883
3884 transformColumnDefinition(&cxt, def);
3885
3886 /*
3887 * If the column has a non-null default, we can't skip
3888 * validation of foreign keys.
3889 */
3890 if (def->raw_default != NULL)
3891 skipValidation = false;
3892
3893 /*
3894 * All constraints are processed in other ways. Remove the
3895 * original list
3896 */
3897 def->constraints = NIL;
3898
3899 newcmds = lappend(newcmds, cmd);
3900 break;
3901 }
3902
3903 case AT_AddConstraint:
3904
3905 /*
3906 * The original AddConstraint cmd node doesn't go to newcmds
3907 */
3908 if (IsA(cmd->def, Constraint))
3909 {
3910 transformTableConstraint(&cxt, (Constraint *) cmd->def);
3911 if (((Constraint *) cmd->def)->contype == CONSTR_FOREIGN)
3912 skipValidation = false;
3913 }
3914 else
3915 elog(ERROR, "unrecognized node type: %d",
3916 (int) nodeTag(cmd->def));
3917 break;
3918
3919 case AT_AlterColumnType:
3920 {
3921 ColumnDef *def = castNode(ColumnDef, cmd->def);
3922 AttrNumber attnum;
3923
3924 /*
3925 * For ALTER COLUMN TYPE, transform the USING clause if
3926 * one was specified.
3927 */
3928 if (def->raw_default)
3929 {
3930 def->cooked_default =
3931 transformExpr(pstate, def->raw_default,
3932 EXPR_KIND_ALTER_COL_TRANSFORM);
3933 }
3934
3935 /*
3936 * For identity column, create ALTER SEQUENCE command to
3937 * change the data type of the sequence. Identity sequence
3938 * is associated with the top level partitioned table.
3939 * Hence ignore partitions.
3940 */
3941 if (!RelationGetForm(rel)->relispartition)
3942 {
3943 attnum = get_attnum(relid, cmd->name);
3944 if (attnum == InvalidAttrNumber)
3945 ereport(ERROR,
3946 (errcode(ERRCODE_UNDEFINED_COLUMN),
3947 errmsg("column \"%s\" of relation \"%s\" does not exist",
3948 cmd->name, RelationGetRelationName(rel))));
3949
3950 if (attnum > 0 &&
3951 TupleDescAttr(tupdesc, attnum - 1)->attidentity)
3952 {
3953 Oid seq_relid = getIdentitySequence(rel, attnum, false);
3954 Oid typeOid = typenameTypeId(pstate, def->typeName);
3955 AlterSeqStmt *altseqstmt = makeNode(AlterSeqStmt);
3956
3957 altseqstmt->sequence
3958 = makeRangeVar(get_namespace_name(get_rel_namespace(seq_relid)),
3959 get_rel_name(seq_relid),
3960 -1);
3961 altseqstmt->options = list_make1(makeDefElem("as",
3962 (Node *) makeTypeNameFromOid(typeOid, -1),
3963 -1));
3964 altseqstmt->for_identity = true;
3965 cxt.blist = lappend(cxt.blist, altseqstmt);
3966 }
3967 }
3968
3969 newcmds = lappend(newcmds, cmd);
3970 break;
3971 }
3972
3973 case AT_AddIdentity:
3974 {
3975 Constraint *def = castNode(Constraint, cmd->def);
3976 ColumnDef *newdef = makeNode(ColumnDef);
3977 AttrNumber attnum;
3978
3979 newdef->colname = cmd->name;
3980 newdef->identity = def->generated_when;
3981 cmd->def = (Node *) newdef;
3982
3983 attnum = get_attnum(relid, cmd->name);
3984 if (attnum == InvalidAttrNumber)
3985 ereport(ERROR,
3986 (errcode(ERRCODE_UNDEFINED_COLUMN),
3987 errmsg("column \"%s\" of relation \"%s\" does not exist",
3988 cmd->name, RelationGetRelationName(rel))));
3989
3990 generateSerialExtraStmts(&cxt, newdef,
3991 get_atttype(relid, attnum),
3992 def->options, true, true,
3993 NULL, NULL);
3994
3995 newcmds = lappend(newcmds, cmd);
3996 break;
3997 }
3998
3999 case AT_SetIdentity:
4000 {
4001 /*
4002 * Create an ALTER SEQUENCE statement for the internal
4003 * sequence of the identity column.
4004 */
4005 ListCell *lc;
4006 List *newseqopts = NIL;
4007 List *newdef = NIL;
4008 AttrNumber attnum;
4009 Oid seq_relid;
4010
4011 /*
4012 * Split options into those handled by ALTER SEQUENCE and
4013 * those for ALTER TABLE proper.
4014 */
4015 foreach(lc, castNode(List, cmd->def))
4016 {
4017 DefElem *def = lfirst_node(DefElem, lc);
4018
4019 if (strcmp(def->defname, "generated") == 0)
4020 newdef = lappend(newdef, def);
4021 else
4022 newseqopts = lappend(newseqopts, def);
4023 }
4024
4025 attnum = get_attnum(relid, cmd->name);
4026 if (attnum == InvalidAttrNumber)
4027 ereport(ERROR,
4028 (errcode(ERRCODE_UNDEFINED_COLUMN),
4029 errmsg("column \"%s\" of relation \"%s\" does not exist",
4030 cmd->name, RelationGetRelationName(rel))));
4031
4032 seq_relid = getIdentitySequence(rel, attnum, true);
4033
4034 if (seq_relid)
4035 {
4036 AlterSeqStmt *seqstmt;
4037
4038 seqstmt = makeNode(AlterSeqStmt);
4039 seqstmt->sequence = makeRangeVar(get_namespace_name(get_rel_namespace(seq_relid)),
4040 get_rel_name(seq_relid), -1);
4041 seqstmt->options = newseqopts;
4042 seqstmt->for_identity = true;
4043 seqstmt->missing_ok = false;
4044
4045 cxt.blist = lappend(cxt.blist, seqstmt);
4046 }
4047
4048 /*
4049 * If column was not an identity column, we just let the
4050 * ALTER TABLE command error out later. (There are cases
4051 * this fails to cover, but we'll need to restructure
4052 * where creation of the sequence dependency linkage
4053 * happens before we can fix it.)
4054 */
4055
4056 cmd->def = (Node *) newdef;
4057 newcmds = lappend(newcmds, cmd);
4058 break;
4059 }
4060
4061 case AT_AttachPartition:
4062 case AT_DetachPartition:
4063 {
4064 PartitionCmd *partcmd = (PartitionCmd *) cmd->def;
4065
4066 transformPartitionCmd(&cxt, partcmd->bound);
4067 /* assign the transformed value of the partition bound */
4068 partcmd->bound = cxt.partbound;
4069 }
4070
4071 newcmds = lappend(newcmds, cmd);
4072 break;
4073
4074 case AT_MergePartitions:
4075 {
4076 PartitionCmd *partcmd = (PartitionCmd *) cmd->def;
4077
4078 if (list_length(partcmd->partlist) < 2)
4079 ereport(ERROR,
4080 errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
4081 errmsg("list of partitions to be merged should include at least two partitions"));
4082
4083 transformPartitionCmdForMerge(&cxt, partcmd);
4084 newcmds = lappend(newcmds, cmd);
4085 break;
4086 }
4087
4088 case AT_SplitPartition:
4089 {
4090 PartitionCmd *partcmd = (PartitionCmd *) cmd->def;
4091
4092 if (list_length(partcmd->partlist) < 2)
4093 ereport(ERROR,
4094 errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
4095 errmsg("list of new partitions should contain at least two partitions"));
4096
4097 transformPartitionCmdForSplit(&cxt, partcmd);
4098 newcmds = lappend(newcmds, cmd);
4099 break;
4100 }
4101
4102 default:
4103
4104 /*
4105 * Currently, we shouldn't actually get here for the
4106 * subcommand types that don't require transformation; but if
4107 * we do, just emit them unchanged.
4108 */
4109 newcmds = lappend(newcmds, cmd);
4110 break;
4111 }
4112 }
4113
4114 /*
4115 * Transfer anything we already have in cxt.alist into save_alist, to keep
4116 * it separate from the output of transformIndexConstraints.
4117 */
4118 save_alist = cxt.alist;
4119 cxt.alist = NIL;
4120
4121 /* Postprocess constraints */
4122 transformIndexConstraints(&cxt);
4123 transformFKConstraints(&cxt, skipValidation, true);
4124 transformCheckConstraints(&cxt, false);
4125
4126 /*
4127 * Push any index-creation commands into the ALTER, so that they can be
4128 * scheduled nicely by tablecmds.c. Note that tablecmds.c assumes that
4129 * the IndexStmt attached to an AT_AddIndex or AT_AddIndexConstraint
4130 * subcommand has already been through transformIndexStmt.
4131 */
4132 foreach(l, cxt.alist)
4133 {
4134 Node *istmt = (Node *) lfirst(l);
4135
4136 /*
4137 * We assume here that cxt.alist contains only IndexStmts generated
4138 * from primary key constraints.
4139 */
4140 if (IsA(istmt, IndexStmt))
4141 {
4142 IndexStmt *idxstmt = (IndexStmt *) istmt;
4143
4144 idxstmt = transformIndexStmt(relid, idxstmt, queryString);
4145 newcmd = makeNode(AlterTableCmd);
4146 newcmd->subtype = OidIsValid(idxstmt->indexOid) ? AT_AddIndexConstraint : AT_AddIndex;
4147 newcmd->def = (Node *) idxstmt;
4148 newcmds = lappend(newcmds, newcmd);
4149 }
4150 else
4151 elog(ERROR, "unexpected stmt type %d", (int) nodeTag(istmt));
4152 }
4153 cxt.alist = NIL;
4154
4155 /* Append any CHECK, NOT NULL or FK constraints to the commands list */
4156 foreach_node(Constraint, def, cxt.ckconstraints)
4157 {
4158 newcmd = makeNode(AlterTableCmd);
4159 newcmd->subtype = AT_AddConstraint;
4160 newcmd->def = (Node *) def;
4161 newcmds = lappend(newcmds, newcmd);
4162 }
4163 foreach_node(Constraint, def, cxt.nnconstraints)
4164 {
4165 newcmd = makeNode(AlterTableCmd);
4166 newcmd->subtype = AT_AddConstraint;
4167 newcmd->def = (Node *) def;
4168 newcmds = lappend(newcmds, newcmd);
4169 }
4170 foreach_node(Constraint, def, cxt.fkconstraints)
4171 {
4172 newcmd = makeNode(AlterTableCmd);
4173 newcmd->subtype = AT_AddConstraint;
4174 newcmd->def = (Node *) def;
4175 newcmds = lappend(newcmds, newcmd);
4176 }
4177
4178 /* Close rel */
4179 relation_close(rel, NoLock);
4180
4181 /*
4182 * Output results.
4183 */
4184 stmt->cmds = newcmds;
4185
4186 *beforeStmts = cxt.blist;
4187 *afterStmts = list_concat(cxt.alist, save_alist);
4188
4189 return stmt;
4190}
4191
4192
4193/*
4194 * Preprocess a list of column constraint clauses
4195 * to attach constraint attributes to their primary constraint nodes
4196 * and detect inconsistent/misplaced constraint attributes.
4197 *
4198 * NOTE: currently, attributes are only supported for FOREIGN KEY, UNIQUE,
4199 * EXCLUSION, and PRIMARY KEY constraints, but someday they ought to be
4200 * supported for other constraint types.
4201 */
4202static void
4203transformConstraintAttrs(CreateStmtContext *cxt, List *constraintList)
4204{
4205 Constraint *lastprimarycon = NULL;
4206 bool saw_deferrability = false;
4207 bool saw_initially = false;
4208 bool saw_enforced = false;
4209 ListCell *clist;
4210
4211#define SUPPORTS_ATTRS(node) \
4212 ((node) != NULL && \
4213 ((node)->contype == CONSTR_PRIMARY || \
4214 (node)->contype == CONSTR_UNIQUE || \
4215 (node)->contype == CONSTR_EXCLUSION || \
4216 (node)->contype == CONSTR_FOREIGN))
4217
4218 foreach(clist, constraintList)
4219 {
4220 Constraint *con = (Constraint *) lfirst(clist);
4221
4222 if (!IsA(con, Constraint))
4223 elog(ERROR, "unrecognized node type: %d",
4224 (int) nodeTag(con));
4225 switch (con->contype)
4226 {
4227 case CONSTR_ATTR_DEFERRABLE:
4228 if (!SUPPORTS_ATTRS(lastprimarycon))
4229 ereport(ERROR,
4230 (errcode(ERRCODE_SYNTAX_ERROR),
4231 errmsg("misplaced DEFERRABLE clause"),
4232 parser_errposition(cxt->pstate, con->location)));
4233 if (saw_deferrability)
4234 ereport(ERROR,
4235 (errcode(ERRCODE_SYNTAX_ERROR),
4236 errmsg("multiple DEFERRABLE/NOT DEFERRABLE clauses not allowed"),
4237 parser_errposition(cxt->pstate, con->location)));
4238 saw_deferrability = true;
4239 lastprimarycon->deferrable = true;
4240 break;
4241
4242 case CONSTR_ATTR_NOT_DEFERRABLE:
4243 if (!SUPPORTS_ATTRS(lastprimarycon))
4244 ereport(ERROR,
4245 (errcode(ERRCODE_SYNTAX_ERROR),
4246 errmsg("misplaced NOT DEFERRABLE clause"),
4247 parser_errposition(cxt->pstate, con->location)));
4248 if (saw_deferrability)
4249 ereport(ERROR,
4250 (errcode(ERRCODE_SYNTAX_ERROR),
4251 errmsg("multiple DEFERRABLE/NOT DEFERRABLE clauses not allowed"),
4252 parser_errposition(cxt->pstate, con->location)));
4253 saw_deferrability = true;
4254 lastprimarycon->deferrable = false;
4255 if (saw_initially &&
4256 lastprimarycon->initdeferred)
4257 ereport(ERROR,
4258 (errcode(ERRCODE_SYNTAX_ERROR),
4259 errmsg("constraint declared INITIALLY DEFERRED must be DEFERRABLE"),
4260 parser_errposition(cxt->pstate, con->location)));
4261 break;
4262
4263 case CONSTR_ATTR_DEFERRED:
4264 if (!SUPPORTS_ATTRS(lastprimarycon))
4265 ereport(ERROR,
4266 (errcode(ERRCODE_SYNTAX_ERROR),
4267 errmsg("misplaced INITIALLY DEFERRED clause"),
4268 parser_errposition(cxt->pstate, con->location)));
4269 if (saw_initially)
4270 ereport(ERROR,
4271 (errcode(ERRCODE_SYNTAX_ERROR),
4272 errmsg("multiple INITIALLY IMMEDIATE/DEFERRED clauses not allowed"),
4273 parser_errposition(cxt->pstate, con->location)));
4274 saw_initially = true;
4275 lastprimarycon->initdeferred = true;
4276
4277 /*
4278 * If only INITIALLY DEFERRED appears, assume DEFERRABLE
4279 */
4280 if (!saw_deferrability)
4281 lastprimarycon->deferrable = true;
4282 else if (!lastprimarycon->deferrable)
4283 ereport(ERROR,
4284 (errcode(ERRCODE_SYNTAX_ERROR),
4285 errmsg("constraint declared INITIALLY DEFERRED must be DEFERRABLE"),
4286 parser_errposition(cxt->pstate, con->location)));
4287 break;
4288
4289 case CONSTR_ATTR_IMMEDIATE:
4290 if (!SUPPORTS_ATTRS(lastprimarycon))
4291 ereport(ERROR,
4292 (errcode(ERRCODE_SYNTAX_ERROR),
4293 errmsg("misplaced INITIALLY IMMEDIATE clause"),
4294 parser_errposition(cxt->pstate, con->location)));
4295 if (saw_initially)
4296 ereport(ERROR,
4297 (errcode(ERRCODE_SYNTAX_ERROR),
4298 errmsg("multiple INITIALLY IMMEDIATE/DEFERRED clauses not allowed"),
4299 parser_errposition(cxt->pstate, con->location)));
4300 saw_initially = true;
4301 lastprimarycon->initdeferred = false;
4302 break;
4303
4304 case CONSTR_ATTR_ENFORCED:
4305 if (lastprimarycon == NULL ||
4306 (lastprimarycon->contype != CONSTR_CHECK &&
4307 lastprimarycon->contype != CONSTR_FOREIGN))
4308 ereport(ERROR,
4309 (errcode(ERRCODE_SYNTAX_ERROR),
4310 errmsg("misplaced ENFORCED clause"),
4311 parser_errposition(cxt->pstate, con->location)));
4312 if (saw_enforced)
4313 ereport(ERROR,
4314 (errcode(ERRCODE_SYNTAX_ERROR),
4315 errmsg("multiple ENFORCED/NOT ENFORCED clauses not allowed"),
4316 parser_errposition(cxt->pstate, con->location)));
4317 saw_enforced = true;
4318 lastprimarycon->is_enforced = true;
4319 break;
4320
4321 case CONSTR_ATTR_NOT_ENFORCED:
4322 if (lastprimarycon == NULL ||
4323 (lastprimarycon->contype != CONSTR_CHECK &&
4324 lastprimarycon->contype != CONSTR_FOREIGN))
4325 ereport(ERROR,
4326 (errcode(ERRCODE_SYNTAX_ERROR),
4327 errmsg("misplaced NOT ENFORCED clause"),
4328 parser_errposition(cxt->pstate, con->location)));
4329 if (saw_enforced)
4330 ereport(ERROR,
4331 (errcode(ERRCODE_SYNTAX_ERROR),
4332 errmsg("multiple ENFORCED/NOT ENFORCED clauses not allowed"),
4333 parser_errposition(cxt->pstate, con->location)));
4334 saw_enforced = true;
4335 lastprimarycon->is_enforced = false;
4336
4337 /* A NOT ENFORCED constraint must be marked as invalid. */
4338 lastprimarycon->skip_validation = true;
4339 lastprimarycon->initially_valid = false;
4340 break;
4341
4342 default:
4343 /* Otherwise it's not an attribute */
4344 lastprimarycon = con;
4345 /* reset flags for new primary node */
4346 saw_deferrability = false;
4347 saw_initially = false;
4348 saw_enforced = false;
4349 break;
4350 }
4351 }
4352}
4353
4354/*
4355 * Special handling of type definition for a column
4356 */
4357static void
4358transformColumnType(CreateStmtContext *cxt, ColumnDef *column)
4359{
4360 /*
4361 * All we really need to do here is verify that the type is valid,
4362 * including any collation spec that might be present.
4363 */
4364 Type ctype = typenameType(cxt->pstate, column->typeName, NULL);
4365
4366 if (column->collClause)
4367 {
4368 Form_pg_type typtup = (Form_pg_type) GETSTRUCT(ctype);
4369
4370 LookupCollation(cxt->pstate,
4371 column->collClause->collname,
4372 column->collClause->location);
4373 /* Complain if COLLATE is applied to an uncollatable type */
4374 if (!OidIsValid(typtup->typcollation))
4375 ereport(ERROR,
4376 (errcode(ERRCODE_DATATYPE_MISMATCH),
4377 errmsg("collations are not supported by type %s",
4378 format_type_be(typtup->oid)),
4379 parser_errposition(cxt->pstate,
4380 column->collClause->location)));
4381 }
4382
4383 ReleaseSysCache(ctype);
4384}
4385
4386
4387/*
4388 * transformCreateSchemaStmtElements -
4389 * analyzes the elements of a CREATE SCHEMA statement
4390 *
4391 * Split the schema element list from a CREATE SCHEMA statement into
4392 * individual commands and place them in the result list in an order
4393 * such that there are no forward references (e.g. GRANT to a table
4394 * created later in the list). Note that the logic we use for determining
4395 * forward references is presently quite incomplete.
4396 *
4397 * "schemaName" is the name of the schema that will be used for the creation
4398 * of the objects listed, that may be compiled from the schema name defined
4399 * in the statement or a role specification.
4400 *
4401 * SQL also allows constraints to make forward references, so thumb through
4402 * the table columns and move forward references to a posterior alter-table
4403 * command.
4404 *
4405 * The result is a list of parse nodes that still need to be analyzed ---
4406 * but we can't analyze the later commands until we've executed the earlier
4407 * ones, because of possible inter-object references.
4408 *
4409 * Note: this breaks the rules a little bit by modifying schema-name fields
4410 * within passed-in structs. However, the transformation would be the same
4411 * if done over, so it should be all right to scribble on the input to this
4412 * extent.
4413 */
4414List *
4415transformCreateSchemaStmtElements(List *schemaElts, const char *schemaName)
4416{
4417 CreateSchemaStmtContext cxt;
4418 List *result;
4419 ListCell *elements;
4420
4421 cxt.schemaname = schemaName;
4422 cxt.sequences = NIL;
4423 cxt.tables = NIL;
4424 cxt.views = NIL;
4425 cxt.indexes = NIL;
4426 cxt.triggers = NIL;
4427 cxt.grants = NIL;
4428
4429 /*
4430 * Run through each schema element in the schema element list. Separate
4431 * statements by type, and do preliminary analysis.
4432 */
4433 foreach(elements, schemaElts)
4434 {
4435 Node *element = lfirst(elements);
4436
4437 switch (nodeTag(element))
4438 {
4439 case T_CreateSeqStmt:
4440 {
4441 CreateSeqStmt *elp = (CreateSeqStmt *) element;
4442
4443 setSchemaName(cxt.schemaname, &elp->sequence->schemaname);
4444 cxt.sequences = lappend(cxt.sequences, element);
4445 }
4446 break;
4447
4448 case T_CreateStmt:
4449 {
4450 CreateStmt *elp = (CreateStmt *) element;
4451
4452 setSchemaName(cxt.schemaname, &elp->relation->schemaname);
4453
4454 /*
4455 * XXX todo: deal with constraints
4456 */
4457 cxt.tables = lappend(cxt.tables, element);
4458 }
4459 break;
4460
4461 case T_ViewStmt:
4462 {
4463 ViewStmt *elp = (ViewStmt *) element;
4464
4465 setSchemaName(cxt.schemaname, &elp->view->schemaname);
4466
4467 /*
4468 * XXX todo: deal with references between views
4469 */
4470 cxt.views = lappend(cxt.views, element);
4471 }
4472 break;
4473
4474 case T_IndexStmt:
4475 {
4476 IndexStmt *elp = (IndexStmt *) element;
4477
4478 setSchemaName(cxt.schemaname, &elp->relation->schemaname);
4479 cxt.indexes = lappend(cxt.indexes, element);
4480 }
4481 break;
4482
4483 case T_CreateTrigStmt:
4484 {
4485 CreateTrigStmt *elp = (CreateTrigStmt *) element;
4486
4487 setSchemaName(cxt.schemaname, &elp->relation->schemaname);
4488 cxt.triggers = lappend(cxt.triggers, element);
4489 }
4490 break;
4491
4492 case T_GrantStmt:
4493 cxt.grants = lappend(cxt.grants, element);
4494 break;
4495
4496 default:
4497 elog(ERROR, "unrecognized node type: %d",
4498 (int) nodeTag(element));
4499 }
4500 }
4501
4502 result = NIL;
4503 result = list_concat(result, cxt.sequences);
4504 result = list_concat(result, cxt.tables);
4505 result = list_concat(result, cxt.views);
4506 result = list_concat(result, cxt.indexes);
4507 result = list_concat(result, cxt.triggers);
4508 result = list_concat(result, cxt.grants);
4509
4510 return result;
4511}
4512
4513/*
4514 * setSchemaName
4515 * Set or check schema name in an element of a CREATE SCHEMA command
4516 */
4517static void
4518setSchemaName(const char *context_schema, char **stmt_schema_name)
4519{
4520 if (*stmt_schema_name == NULL)
4521 *stmt_schema_name = unconstify(char *, context_schema);
4522 else if (strcmp(context_schema, *stmt_schema_name) != 0)
4523 ereport(ERROR,
4524 (errcode(ERRCODE_INVALID_SCHEMA_DEFINITION),
4525 errmsg("CREATE specifies a schema (%s) "
4526 "different from the one being created (%s)",
4527 *stmt_schema_name, context_schema)));
4528}
4529
4530/*
4531 * transformPartitionCmd
4532 * Analyze the ATTACH/DETACH/SPLIT PARTITION command
4533 *
4534 * In case of the ATTACH/SPLIT PARTITION command, cxt->partbound is set to the
4535 * transformed value of bound.
4536 */
4537static void
4538transformPartitionCmd(CreateStmtContext *cxt, PartitionBoundSpec *bound)
4539{
4540 Relation parentRel = cxt->rel;
4541
4542 switch (parentRel->rd_rel->relkind)
4543 {
4544 case RELKIND_PARTITIONED_TABLE:
4545 /* transform the partition bound, if any */
4546 Assert(RelationGetPartitionKey(parentRel) != NULL);
4547 if (bound != NULL)
4548 cxt->partbound = transformPartitionBound(cxt->pstate, parentRel,
4549 bound);
4550 break;
4551 case RELKIND_PARTITIONED_INDEX:
4552
4553 /*
4554 * A partitioned index cannot have a partition bound set. ALTER
4555 * INDEX prevents that with its grammar, but not ALTER TABLE.
4556 */
4557 if (bound != NULL)
4558 ereport(ERROR,
4559 (errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
4560 errmsg("\"%s\" is not a partitioned table",
4561 RelationGetRelationName(parentRel))));
4562 break;
4563 case RELKIND_RELATION:
4564 /* the table must be partitioned */
4565 ereport(ERROR,
4566 (errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
4567 errmsg("table \"%s\" is not partitioned",
4568 RelationGetRelationName(parentRel))));
4569 break;
4570 case RELKIND_INDEX:
4571 /* the index must be partitioned */
4572 ereport(ERROR,
4573 (errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
4574 errmsg("index \"%s\" is not partitioned",
4575 RelationGetRelationName(parentRel))));
4576 break;
4577 default:
4578 /* parser shouldn't let this case through */
4579 elog(ERROR, "\"%s\" is not a partitioned table or index",
4580 RelationGetRelationName(parentRel));
4581 break;
4582 }
4583}
4584
4585/*
4586 * transformPartitionBound
4587 *
4588 * Transform a partition bound specification
4589 */
4590PartitionBoundSpec *
4591transformPartitionBound(ParseState *pstate, Relation parent,
4592 PartitionBoundSpec *spec)
4593{
4594 PartitionBoundSpec *result_spec;
4595 PartitionKey key = RelationGetPartitionKey(parent);
4596 char strategy = get_partition_strategy(key);
4597 int partnatts = get_partition_natts(key);
4598 List *partexprs = get_partition_exprs(key);
4599
4600 /* Avoid scribbling on input */
4601 result_spec = copyObject(spec);
4602
4603 if (spec->is_default)
4604 {
4605 /*
4606 * Hash partitioning does not support a default partition; there's no
4607 * use case for it (since the set of partitions to create is perfectly
4608 * defined), and if users do get into it accidentally, it's hard to
4609 * back out from it afterwards.
4610 */
4611 if (strategy == PARTITION_STRATEGY_HASH)
4612 ereport(ERROR,
4613 (errcode(ERRCODE_INVALID_TABLE_DEFINITION),
4614 errmsg("a hash-partitioned table may not have a default partition")));
4615
4616 /*
4617 * In case of the default partition, parser had no way to identify the
4618 * partition strategy. Assign the parent's strategy to the default
4619 * partition bound spec.
4620 */
4621 result_spec->strategy = strategy;
4622
4623 return result_spec;
4624 }
4625
4626 if (strategy == PARTITION_STRATEGY_HASH)
4627 {
4628 if (spec->strategy != PARTITION_STRATEGY_HASH)
4629 ereport(ERROR,
4630 (errcode(ERRCODE_INVALID_TABLE_DEFINITION),
4631 errmsg("invalid bound specification for a hash partition"),
4632 parser_errposition(pstate, exprLocation((Node *) spec))));
4633
4634 if (spec->modulus <= 0)
4635 ereport(ERROR,
4636 (errcode(ERRCODE_INVALID_TABLE_DEFINITION),
4637 errmsg("modulus for hash partition must be an integer value greater than zero")));
4638
4639 Assert(spec->remainder >= 0);
4640
4641 if (spec->remainder >= spec->modulus)
4642 ereport(ERROR,
4643 (errcode(ERRCODE_INVALID_TABLE_DEFINITION),
4644 errmsg("remainder for hash partition must be less than modulus")));
4645 }
4646 else if (strategy == PARTITION_STRATEGY_LIST)
4647 {
4648 ListCell *cell;
4649 char *colname;
4650 Oid coltype;
4651 int32 coltypmod;
4652 Oid partcollation;
4653
4654 if (spec->strategy != PARTITION_STRATEGY_LIST)
4655 ereport(ERROR,
4656 (errcode(ERRCODE_INVALID_TABLE_DEFINITION),
4657 errmsg("invalid bound specification for a list partition"),
4658 parser_errposition(pstate, exprLocation((Node *) spec))));
4659
4660 /* Get the only column's name in case we need to output an error */
4661 if (key->partattrs[0] != 0)
4662 colname = get_attname(RelationGetRelid(parent),
4663 key->partattrs[0], false);
4664 else
4665 colname = deparse_expression((Node *) linitial(partexprs),
4666 deparse_context_for(RelationGetRelationName(parent),
4667 RelationGetRelid(parent)),
4668 false, false);
4669 /* Need its type data too */
4670 coltype = get_partition_col_typid(key, 0);
4671 coltypmod = get_partition_col_typmod(key, 0);
4672 partcollation = get_partition_col_collation(key, 0);
4673
4674 result_spec->listdatums = NIL;
4675 foreach(cell, spec->listdatums)
4676 {
4677 Node *expr = lfirst(cell);
4678 Const *value;
4679 ListCell *cell2;
4680 bool duplicate;
4681
4682 value = transformPartitionBoundValue(pstate, expr,
4683 colname, coltype, coltypmod,
4684 partcollation);
4685
4686 /* Don't add to the result if the value is a duplicate */
4687 duplicate = false;
4688 foreach(cell2, result_spec->listdatums)
4689 {
4690 Const *value2 = lfirst_node(Const, cell2);
4691
4692 if (equal(value, value2))
4693 {
4694 duplicate = true;
4695 break;
4696 }
4697 }
4698 if (duplicate)
4699 continue;
4700
4701 result_spec->listdatums = lappend(result_spec->listdatums,
4702 value);
4703 }
4704 }
4705 else if (strategy == PARTITION_STRATEGY_RANGE)
4706 {
4707 if (spec->strategy != PARTITION_STRATEGY_RANGE)
4708 ereport(ERROR,
4709 (errcode(ERRCODE_INVALID_TABLE_DEFINITION),
4710 errmsg("invalid bound specification for a range partition"),
4711 parser_errposition(pstate, exprLocation((Node *) spec))));
4712
4713 if (list_length(spec->lowerdatums) != partnatts)
4714 ereport(ERROR,
4715 (errcode(ERRCODE_INVALID_TABLE_DEFINITION),
4716 errmsg("FROM must specify exactly one value per partitioning column")));
4717 if (list_length(spec->upperdatums) != partnatts)
4718 ereport(ERROR,
4719 (errcode(ERRCODE_INVALID_TABLE_DEFINITION),
4720 errmsg("TO must specify exactly one value per partitioning column")));
4721
4722 /*
4723 * Convert raw parse nodes into PartitionRangeDatum nodes and perform
4724 * any necessary validation.
4725 */
4726 result_spec->lowerdatums =
4727 transformPartitionRangeBounds(pstate, spec->lowerdatums,
4728 parent);
4729 result_spec->upperdatums =
4730 transformPartitionRangeBounds(pstate, spec->upperdatums,
4731 parent);
4732 }
4733 else
4734 elog(ERROR, "unexpected partition strategy: %d", (int) strategy);
4735
4736 return result_spec;
4737}
4738
4739/*
4740 * transformPartitionRangeBounds
4741 * This converts the expressions for range partition bounds from the raw
4742 * grammar representation to PartitionRangeDatum structs
4743 */
4744static List *
4745transformPartitionRangeBounds(ParseState *pstate, List *blist,
4746 Relation parent)
4747{
4748 List *result = NIL;
4749 PartitionKey key = RelationGetPartitionKey(parent);
4750 List *partexprs = get_partition_exprs(key);
4751 ListCell *lc;
4752 int i,
4753 j;
4754
4755 i = j = 0;
4756 foreach(lc, blist)
4757 {
4758 Node *expr = lfirst(lc);
4759 PartitionRangeDatum *prd = NULL;
4760
4761 /*
4762 * Infinite range bounds -- "minvalue" and "maxvalue" -- get passed in
4763 * as ColumnRefs.
4764 */
4765 if (IsA(expr, ColumnRef))
4766 {
4767 ColumnRef *cref = (ColumnRef *) expr;
4768 char *cname = NULL;
4769
4770 /*
4771 * There should be a single field named either "minvalue" or
4772 * "maxvalue".
4773 */
4774 if (list_length(cref->fields) == 1 &&
4775 IsA(linitial(cref->fields), String))
4776 cname = strVal(linitial(cref->fields));
4777
4778 if (cname == NULL)
4779 {
4780 /*
4781 * ColumnRef is not in the desired single-field-name form. For
4782 * consistency between all partition strategies, let the
4783 * expression transformation report any errors rather than
4784 * doing it ourselves.
4785 */
4786 }
4787 else if (strcmp("minvalue", cname) == 0)
4788 {
4789 prd = makeNode(PartitionRangeDatum);
4790 prd->kind = PARTITION_RANGE_DATUM_MINVALUE;
4791 prd->value = NULL;
4792 }
4793 else if (strcmp("maxvalue", cname) == 0)
4794 {
4795 prd = makeNode(PartitionRangeDatum);
4796 prd->kind = PARTITION_RANGE_DATUM_MAXVALUE;
4797 prd->value = NULL;
4798 }
4799 }
4800
4801 if (prd == NULL)
4802 {
4803 char *colname;
4804 Oid coltype;
4805 int32 coltypmod;
4806 Oid partcollation;
4807 Const *value;
4808
4809 /* Get the column's name in case we need to output an error */
4810 if (key->partattrs[i] != 0)
4811 colname = get_attname(RelationGetRelid(parent),
4812 key->partattrs[i], false);
4813 else
4814 {
4815 colname = deparse_expression((Node *) list_nth(partexprs, j),
4816 deparse_context_for(RelationGetRelationName(parent),
4817 RelationGetRelid(parent)),
4818 false, false);
4819 ++j;
4820 }
4821
4822 /* Need its type data too */
4823 coltype = get_partition_col_typid(key, i);
4824 coltypmod = get_partition_col_typmod(key, i);
4825 partcollation = get_partition_col_collation(key, i);
4826
4827 value = transformPartitionBoundValue(pstate, expr,
4828 colname,
4829 coltype, coltypmod,
4830 partcollation);
4831 if (value->constisnull)
4832 ereport(ERROR,
4833 (errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
4834 errmsg("cannot specify NULL in range bound")));
4835 prd = makeNode(PartitionRangeDatum);
4836 prd->kind = PARTITION_RANGE_DATUM_VALUE;
4837 prd->value = (Node *) value;
4838 ++i;
4839 }
4840
4841 prd->location = exprLocation(expr);
4842
4843 result = lappend(result, prd);
4844 }
4845
4846 /*
4847 * Once we see MINVALUE or MAXVALUE for one column, the remaining columns
4848 * must be the same.
4849 */
4850 validateInfiniteBounds(pstate, result);
4851
4852 return result;
4853}
4854
4855/*
4856 * validateInfiniteBounds
4857 *
4858 * Check that a MAXVALUE or MINVALUE specification in a partition bound is
4859 * followed only by more of the same.
4860 */
4861static void
4862validateInfiniteBounds(ParseState *pstate, List *blist)
4863{
4864 ListCell *lc;
4865 PartitionRangeDatumKind kind = PARTITION_RANGE_DATUM_VALUE;
4866
4867 foreach(lc, blist)
4868 {
4869 PartitionRangeDatum *prd = lfirst_node(PartitionRangeDatum, lc);
4870
4871 if (kind == prd->kind)
4872 continue;
4873
4874 switch (kind)
4875 {
4876 case PARTITION_RANGE_DATUM_VALUE:
4877 kind = prd->kind;
4878 break;
4879
4880 case PARTITION_RANGE_DATUM_MAXVALUE:
4881 ereport(ERROR,
4882 (errcode(ERRCODE_DATATYPE_MISMATCH),
4883 errmsg("every bound following MAXVALUE must also be MAXVALUE"),
4884 parser_errposition(pstate, exprLocation((Node *) prd))));
4885 break;
4886
4887 case PARTITION_RANGE_DATUM_MINVALUE:
4888 ereport(ERROR,
4889 (errcode(ERRCODE_DATATYPE_MISMATCH),
4890 errmsg("every bound following MINVALUE must also be MINVALUE"),
4891 parser_errposition(pstate, exprLocation((Node *) prd))));
4892 break;
4893 }
4894 }
4895}
4896
4897/*
4898 * Transform one entry in a partition bound spec, producing a constant.
4899 */
4900static Const *
4901transformPartitionBoundValue(ParseState *pstate, Node *val,
4902 const char *colName, Oid colType, int32 colTypmod,
4903 Oid partCollation)
4904{
4905 Node *value;
4906
4907 /* Transform raw parsetree */
4908 value = transformExpr(pstate, val, EXPR_KIND_PARTITION_BOUND);
4909
4910 /*
4911 * transformExpr() should have already rejected column references,
4912 * subqueries, aggregates, window functions, and SRFs, based on the
4913 * EXPR_KIND_ of a partition bound expression.
4914 */
4915 Assert(!contain_var_clause(value));
4916
4917 /*
4918 * Coerce to the correct type. This might cause an explicit coercion step
4919 * to be added on top of the expression, which must be evaluated before
4920 * returning the result to the caller.
4921 */
4922 value = coerce_to_target_type(pstate,
4923 value, exprType(value),
4924 colType,
4925 colTypmod,
4926 COERCION_ASSIGNMENT,
4927 COERCE_IMPLICIT_CAST,
4928 -1);
4929
4930 if (value == NULL)
4931 ereport(ERROR,
4932 (errcode(ERRCODE_DATATYPE_MISMATCH),
4933 errmsg("specified value cannot be cast to type %s for column \"%s\"",
4934 format_type_be(colType), colName),
4935 parser_errposition(pstate, exprLocation(val))));
4936
4937 /*
4938 * Evaluate the expression, if needed, assigning the partition key's data
4939 * type and collation to the resulting Const node.
4940 */
4941 if (!IsA(value, Const))
4942 {
4943 assign_expr_collations(pstate, value);
4944 value = (Node *) expression_planner((Expr *) value);
4945 value = (Node *) evaluate_expr((Expr *) value, colType, colTypmod,
4946 partCollation);
4947 if (!IsA(value, Const))
4948 elog(ERROR, "could not evaluate partition bound expression");
4949 }
4950 else
4951 {
4952 /*
4953 * If the expression is already a Const, as is often the case, we can
4954 * skip the rather expensive steps above. But we still have to insert
4955 * the right collation, since coerce_to_target_type doesn't handle
4956 * that.
4957 */
4958 ((Const *) value)->constcollid = partCollation;
4959 }
4960
4961 /*
4962 * Attach original expression's parse location to the Const, so that
4963 * that's what will be reported for any later errors related to this
4964 * partition bound.
4965 */
4966 ((Const *) value)->location = exprLocation(val);
4967
4968 return (Const *) value;
4969}
AclResult
AclResult
Definition: acl.h:182
ACLCHECK_OK
@ ACLCHECK_OK
Definition: acl.h:183
aclcheck_error
void aclcheck_error(AclResult aclerr, ObjectType objtype, const char *objectname)
Definition: aclchk.c:2654
object_aclcheck
AclResult object_aclcheck(Oid classid, Oid objectid, Oid roleid, AclMode mode)
Definition: aclchk.c:3836
pg_class_aclcheck
AclResult pg_class_aclcheck(Oid table_oid, Oid roleid, AclMode mode)
Definition: aclchk.c:4039
get_index_am_oid
Oid get_index_am_oid(const char *amname, bool missing_ok)
Definition: amcmds.c:163
ARR_NDIM
#define ARR_NDIM(a)
Definition: array.h:290
ARR_DATA_PTR
#define ARR_DATA_PTR(a)
Definition: array.h:322
DatumGetArrayTypeP
#define DatumGetArrayTypeP(X)
Definition: array.h:261
ARR_ELEMTYPE
#define ARR_ELEMTYPE(a)
Definition: array.h:292
ARR_DIMS
#define ARR_DIMS(a)
Definition: array.h:294
ARR_HASNULL
#define ARR_HASNULL(a)
Definition: array.h:291
deconstruct_array_builtin
void deconstruct_array_builtin(const ArrayType *array, Oid elmtype, Datum **elemsp, bool **nullsp, int *nelemsp)
Definition: arrayfuncs.c:3698
build_attrmap_by_name
AttrMap * build_attrmap_by_name(TupleDesc indesc, TupleDesc outdesc, bool missing_ok)
Definition: attmap.c:175
AttrNumber
int16 AttrNumber
Definition: attnum.h:21
AttributeNumberIsValid
#define AttributeNumberIsValid(attributeNumber)
Definition: attnum.h:34
InvalidAttrNumber
#define InvalidAttrNumber
Definition: attnum.h:23
get_tablespace_name
char * get_tablespace_name(Oid spc_oid)
Definition: tablespace.c:1472
TextDatumGetCString
#define TextDatumGetCString(d)
Definition: builtins.h:98
NameStr
#define NameStr(name)
Definition: c.h:765
unconstify
#define unconstify(underlying_type, expr)
Definition: c.h:1243
InvalidSubTransactionId
#define InvalidSubTransactionId
Definition: c.h:677
int16
int16_t int16
Definition: c.h:547
int32
int32_t int32
Definition: c.h:548
OidIsValid
#define OidIsValid(objectId)
Definition: c.h:788
evaluate_expr
Expr * evaluate_expr(Expr *expr, Oid result_type, int32 result_typmod, Oid result_collation)
Definition: clauses.c:5157
nspid
int nspid
Definition: collationcmds.c:696
sequence_options
List * sequence_options(Oid relid)
Definition: sequence.c:1712
GetComment
char * GetComment(Oid oid, Oid classoid, int32 subid)
Definition: comment.c:410
errorConflictingDefElem
void errorConflictingDefElem(DefElem *defel, ParseState *pstate)
Definition: define.c:371
errmsg_internal
int errmsg_internal(const char *fmt,...)
Definition: elog.c:1170
errdetail
int errdetail(const char *fmt,...)
Definition: elog.c:1216
errhint
int errhint(const char *fmt,...)
Definition: elog.c:1330
errcode
int errcode(int sqlerrcode)
Definition: elog.c:863
errmsg
int errmsg(const char *fmt,...)
Definition: elog.c:1080
DEBUG1
#define DEBUG1
Definition: elog.h:30
ERROR
#define ERROR
Definition: elog.h:39
elog
#define elog(elevel,...)
Definition: elog.h:226
NOTICE
#define NOTICE
Definition: elog.h:35
ereport
#define ereport(elevel,...)
Definition: elog.h:150
equal
bool equal(const void *a, const void *b)
Definition: equalfuncs.c:223
format_type_be
char * format_type_be(Oid type_oid)
Definition: format_type.c:343
Assert
Assert(PointerIsAligned(start, uint64))
SystemAttributeByName
const FormData_pg_attribute * SystemAttributeByName(const char *attname)
Definition: heap.c:248
SystemAttributeDefinition
const FormData_pg_attribute * SystemAttributeDefinition(AttrNumber attno)
Definition: heap.c:236
HeapTupleIsValid
#define HeapTupleIsValid(tuple)
Definition: htup.h:78
htup_details.h
GETSTRUCT
static void * GETSTRUCT(const HeapTupleData *tuple)
Definition: htup_details.h:728
stmt
#define stmt
Definition: indent_codes.h:59
comment
#define comment
Definition: indent_codes.h:49
DEFAULT_INDEX_TYPE
#define DEFAULT_INDEX_TYPE
Definition: index.h:21
index_close
void index_close(Relation relation, LOCKMODE lockmode)
Definition: indexam.c:177
index_open
Relation index_open(Oid relationId, LOCKMODE lockmode)
Definition: indexam.c:133
ChooseRelationName
char * ChooseRelationName(const char *name1, const char *name2, const char *label, Oid namespaceid, bool isconstraint)
Definition: indexcmds.c:2606
GetDefaultOpClass
Oid GetDefaultOpClass(Oid type_id, Oid am_id)
Definition: indexcmds.c:2345
val
long val
Definition: informix.c:689
value
static struct @171 value
j
int j
Definition: isn.c:78
i
int i
Definition: isn.c:77
if
if(TABLE==NULL||TABLE_index==NULL)
Definition: isn.c:81
lappend
List * lappend(List *list, void *datum)
Definition: list.c:339
list_concat
List * list_concat(List *list1, const List *list2)
Definition: list.c:561
list_copy
List * list_copy(const List *oldlist)
Definition: list.c:1573
lappend_oid
List * lappend_oid(List *list, Oid datum)
Definition: list.c:375
lcons
List * lcons(void *datum, List *list)
Definition: list.c:495
list_free
void list_free(List *list)
Definition: list.c:1546
NoLock
#define NoLock
Definition: lockdefs.h:34
AccessExclusiveLock
#define AccessExclusiveLock
Definition: lockdefs.h:43
AccessShareLock
#define AccessShareLock
Definition: lockdefs.h:36
get_rel_name
char * get_rel_name(Oid relid)
Definition: lsyscache.c:2093
get_attnum
AttrNumber get_attnum(Oid relid, const char *attname)
Definition: lsyscache.c:949
type_is_range
bool type_is_range(Oid typid)
Definition: lsyscache.c:2853
get_attoptions
Datum get_attoptions(Oid relid, int16 attnum)
Definition: lsyscache.c:1061
get_rel_namespace
Oid get_rel_namespace(Oid relid)
Definition: lsyscache.c:2117
get_typcollation
Oid get_typcollation(Oid typid)
Definition: lsyscache.c:3221
get_attname
char * get_attname(Oid relid, AttrNumber attnum, bool missing_ok)
Definition: lsyscache.c:918
get_namespace_name
char * get_namespace_name(Oid nspid)
Definition: lsyscache.c:3531
get_atttype
Oid get_atttype(Oid relid, AttrNumber attnum)
Definition: lsyscache.c:1004
get_relname_relid
Oid get_relname_relid(const char *relname, Oid relnamespace)
Definition: lsyscache.c:2050
type_is_multirange
bool type_is_multirange(Oid typid)
Definition: lsyscache.c:2863
makeAlias
Alias * makeAlias(const char *aliasname, List *colnames)
Definition: makefuncs.c:438
makeDefElem
DefElem * makeDefElem(char *name, Node *arg, int location)
Definition: makefuncs.c:637
makeFromExpr
FromExpr * makeFromExpr(List *fromlist, Node *quals)
Definition: makefuncs.c:336
makeColumnDef
ColumnDef * makeColumnDef(const char *colname, Oid typeOid, int32 typmod, Oid collOid)
Definition: makefuncs.c:565
makeRangeVar
RangeVar * makeRangeVar(char *schemaname, char *relname, int location)
Definition: makefuncs.c:473
makeFuncCall
FuncCall * makeFuncCall(List *name, List *args, CoercionForm funcformat, int location)
Definition: makefuncs.c:676
makeNotNullConstraint
Constraint * makeNotNullConstraint(String *colname)
Definition: makefuncs.c:493
makeTypeNameFromOid
TypeName * makeTypeNameFromOid(Oid typeOid, int32 typmod)
Definition: makefuncs.c:547
pstrdup
char * pstrdup(const char *in)
Definition: mcxt.c:1759
pfree
void pfree(void *pointer)
Definition: mcxt.c:1594
GetUserId
Oid GetUserId(void)
Definition: miscinit.c:469
RangeVarGetAndCheckCreationNamespace
Oid RangeVarGetAndCheckCreationNamespace(RangeVar *relation, LOCKMODE lockmode, Oid *existing_relation_id)
Definition: namespace.c:738
RangeVarAdjustRelationPersistence
void RangeVarAdjustRelationPersistence(RangeVar *newRelation, Oid nspid)
Definition: namespace.c:845
RangeVarGetCreationNamespace
Oid RangeVarGetCreationNamespace(const RangeVar *newRelation)
Definition: namespace.c:653
makeRangeVarFromNameList
RangeVar * makeRangeVarFromNameList(const List *names)
Definition: namespace.c:3624
RangeVarGetRelidExtended
Oid RangeVarGetRelidExtended(const RangeVar *relation, LOCKMODE lockmode, uint32 flags, RangeVarGetRelidCallback callback, void *callback_arg)
Definition: namespace.c:440
generate_unaccent_rules.action
action
Definition: generate_unaccent_rules.py:287
exprType
Oid exprType(const Node *expr)
Definition: nodeFuncs.c:42
exprLocation
int exprLocation(const Node *expr)
Definition: nodeFuncs.c:1384
IsA
#define IsA(nodeptr, _type_)
Definition: nodes.h:164
copyObject
#define copyObject(obj)
Definition: nodes.h:232
nodeTag
#define nodeTag(nodeptr)
Definition: nodes.h:139
CMD_UTILITY
@ CMD_UTILITY
Definition: nodes.h:280
CMD_INSERT
@ CMD_INSERT
Definition: nodes.h:277
CMD_DELETE
@ CMD_DELETE
Definition: nodes.h:278
CMD_UPDATE
@ CMD_UPDATE
Definition: nodes.h:276
CMD_SELECT
@ CMD_SELECT
Definition: nodes.h:275
CMD_NOTHING
@ CMD_NOTHING
Definition: nodes.h:282
makeNode
#define makeNode(_type_)
Definition: nodes.h:161
castNode
#define castNode(_type_, nodeptr)
Definition: nodes.h:182
get_relkind_objtype
ObjectType get_relkind_objtype(char relkind)
Definition: objectaddress.c:6185
ObjectAddressSet
#define ObjectAddressSet(addr, class_id, object_id)
Definition: objectaddress.h:40
nodeToString
char * nodeToString(const void *obj)
Definition: outfuncs.c:802
transformWhereClause
Node * transformWhereClause(ParseState *pstate, Node *clause, ParseExprKind exprKind, const char *constructName)
Definition: parse_clause.c:1854
parse_clause.h
coerce_to_target_type
Node * coerce_to_target_type(ParseState *pstate, Node *expr, Oid exprtype, Oid targettype, int32 targettypmod, CoercionContext ccontext, CoercionForm cformat, int location)
Definition: parse_coerce.c:79
parse_coerce.h
assign_expr_collations
void assign_expr_collations(ParseState *pstate, Node *expr)
Definition: parse_collate.c:177
parse_collate.h
transformExpr
Node * transformExpr(ParseState *pstate, Node *expr, ParseExprKind exprKind)
Definition: parse_expr.c:119
parse_expr.h
cancel_parser_errposition_callback
void cancel_parser_errposition_callback(ParseCallbackState *pcbstate)
Definition: parse_node.c:156
free_parsestate
void free_parsestate(ParseState *pstate)
Definition: parse_node.c:72
parser_errposition
int parser_errposition(ParseState *pstate, int location)
Definition: parse_node.c:106
setup_parser_errposition_callback
void setup_parser_errposition_callback(ParseCallbackState *pcbstate, ParseState *pstate, int location)
Definition: parse_node.c:140
make_parsestate
ParseState * make_parsestate(ParseState *parentParseState)
Definition: parse_node.c:39
EXPR_KIND_STATS_EXPRESSION
@ EXPR_KIND_STATS_EXPRESSION
Definition: parse_node.h:74
EXPR_KIND_INDEX_EXPRESSION
@ EXPR_KIND_INDEX_EXPRESSION
Definition: parse_node.h:72
EXPR_KIND_PARTITION_BOUND
@ EXPR_KIND_PARTITION_BOUND
Definition: parse_node.h:79
EXPR_KIND_INDEX_PREDICATE
@ EXPR_KIND_INDEX_PREDICATE
Definition: parse_node.h:73
EXPR_KIND_ALTER_COL_TRANSFORM
@ EXPR_KIND_ALTER_COL_TRANSFORM
Definition: parse_node.h:75
EXPR_KIND_WHERE
@ EXPR_KIND_WHERE
Definition: parse_node.h:46
addRangeTableEntryForRelation
ParseNamespaceItem * addRangeTableEntryForRelation(ParseState *pstate, Relation rel, int lockmode, Alias *alias, bool inh, bool inFromCl)
Definition: parse_relation.c:1580
addNSItemToQuery
void addNSItemToQuery(ParseState *pstate, ParseNamespaceItem *nsitem, bool addToJoinList, bool addToRelNameSpace, bool addToVarNameSpace)
Definition: parse_relation.c:2706
parse_relation.h
FigureIndexColname
char * FigureIndexColname(Node *node)
Definition: parse_target.c:1731
parse_target.h
LookupCollation
Oid LookupCollation(ParseState *pstate, List *collnames, int location)
Definition: parse_type.c:515
typenameType
Type typenameType(ParseState *pstate, const TypeName *typeName, int32 *typmod_p)
Definition: parse_type.c:264
typenameTypeId
Oid typenameTypeId(ParseState *pstate, const TypeName *typeName)
Definition: parse_type.c:291
parse_type.h
generateSerialExtraStmts
static void generateSerialExtraStmts(CreateStmtContext *cxt, ColumnDef *column, Oid seqtypid, List *seqoptions, bool for_identity, bool col_exists, char **snamespace_p, char **sname_p)
Definition: parse_utilcmd.c:393
transformCreateStmt
List * transformCreateStmt(CreateStmt *stmt, const char *queryString)
Definition: parse_utilcmd.c:167
transformIndexStmt
IndexStmt * transformIndexStmt(Oid relid, IndexStmt *stmt, const char *queryString)
Definition: parse_utilcmd.c:3052
transformCreateSchemaStmtElements
List * transformCreateSchemaStmtElements(List *schemaElts, const char *schemaName)
Definition: parse_utilcmd.c:4415
transformColumnType
static void transformColumnType(CreateStmtContext *cxt, ColumnDef *column)
Definition: parse_utilcmd.c:4358
transformColumnDefinition
static void transformColumnDefinition(CreateStmtContext *cxt, ColumnDef *column)
Definition: parse_utilcmd.c:594
transformRuleStmt
void transformRuleStmt(RuleStmt *stmt, const char *queryString, List **actions, Node **whereClause)
Definition: parse_utilcmd.c:3222
transformIndexConstraints
static void transformIndexConstraints(CreateStmtContext *cxt)
Definition: parse_utilcmd.c:2242
get_collation
static List * get_collation(Oid collation, Oid actual_datatype)
Definition: parse_utilcmd.c:2176
transformIndexConstraint
static IndexStmt * transformIndexConstraint(Constraint *constraint, CreateStmtContext *cxt)
Definition: parse_utilcmd.c:2341
transformAlterTableStmt
AlterTableStmt * transformAlterTableStmt(Oid relid, AlterTableStmt *stmt, const char *queryString, List **beforeStmts, List **afterStmts)
Definition: parse_utilcmd.c:3810
transformTableLikeClause
static void transformTableLikeClause(CreateStmtContext *cxt, TableLikeClause *table_like_clause)
Definition: parse_utilcmd.c:1129
transformConstraintAttrs
static void transformConstraintAttrs(CreateStmtContext *cxt, List *constraintList)
Definition: parse_utilcmd.c:4203
expandTableLikeClause
List * expandTableLikeClause(RangeVar *heapRel, TableLikeClause *table_like_clause)
Definition: parse_utilcmd.c:1347
transformPartitionCmdForSplit
static void transformPartitionCmdForSplit(CreateStmtContext *cxt, PartitionCmd *partcmd)
Definition: parse_utilcmd.c:3565
transformTableConstraint
static void transformTableConstraint(CreateStmtContext *cxt, Constraint *constraint)
Definition: parse_utilcmd.c:1038
get_opclass
static List * get_opclass(Oid opclass, Oid actual_datatype)
Definition: parse_utilcmd.c:2210
transformPartitionCmdForMerge
static void transformPartitionCmdForMerge(CreateStmtContext *cxt, PartitionCmd *partcmd)
Definition: parse_utilcmd.c:3710
checkPartition
static void checkPartition(Relation rel, Oid partRelOid, bool isMerge)
Definition: parse_utilcmd.c:3522
transformPartitionRangeBounds
static List * transformPartitionRangeBounds(ParseState *pstate, List *blist, Relation parent)
Definition: parse_utilcmd.c:4745
setSchemaName
static void setSchemaName(const char *context_schema, char **stmt_schema_name)
Definition: parse_utilcmd.c:4518
transformStatsStmt
CreateStatsStmt * transformStatsStmt(Oid relid, CreateStatsStmt *stmt, const char *queryString)
Definition: parse_utilcmd.c:3147
validateInfiniteBounds
static void validateInfiniteBounds(ParseState *pstate, List *blist)
Definition: parse_utilcmd.c:4862
transformPartitionCmd
static void transformPartitionCmd(CreateStmtContext *cxt, PartitionBoundSpec *bound)
Definition: parse_utilcmd.c:4538
transformPartitionBoundValue
static Const * transformPartitionBoundValue(ParseState *pstate, Node *val, const char *colName, Oid colType, int32 colTypmod, Oid partCollation)
Definition: parse_utilcmd.c:4901
transformCheckConstraints
static void transformCheckConstraints(CreateStmtContext *cxt, bool skipValidation)
Definition: parse_utilcmd.c:2948
transformOfType
static void transformOfType(CreateStmtContext *cxt, TypeName *ofTypename)
Definition: parse_utilcmd.c:1642
generateClonedExtStatsStmt
static CreateStatsStmt * generateClonedExtStatsStmt(RangeVar *heapRel, Oid heapRelid, Oid source_statsid, const AttrMap *attmap)
Definition: parse_utilcmd.c:2049
transformPartitionBound
PartitionBoundSpec * transformPartitionBound(ParseState *pstate, Relation parent, PartitionBoundSpec *spec)
Definition: parse_utilcmd.c:4591
transformFKConstraints
static void transformFKConstraints(CreateStmtContext *cxt, bool skipValidation, bool isAddConstraint)
Definition: parse_utilcmd.c:2979
generateClonedIndexStmt
IndexStmt * generateClonedIndexStmt(RangeVar *heapRel, Relation source_idx, const AttrMap *attmap, Oid *constraintOid)
Definition: parse_utilcmd.c:1695
SUPPORTS_ATTRS
#define SUPPORTS_ATTRS(node)
parse_utilcmd.h
SORTBY_NULLS_DEFAULT
@ SORTBY_NULLS_DEFAULT
Definition: parsenodes.h:54
SORTBY_NULLS_LAST
@ SORTBY_NULLS_LAST
Definition: parsenodes.h:56
SORTBY_NULLS_FIRST
@ SORTBY_NULLS_FIRST
Definition: parsenodes.h:55
ACL_USAGE
#define ACL_USAGE
Definition: parsenodes.h:84
PARTITION_STRATEGY_HASH
@ PARTITION_STRATEGY_HASH
Definition: parsenodes.h:902
PARTITION_STRATEGY_LIST
@ PARTITION_STRATEGY_LIST
Definition: parsenodes.h:900
PARTITION_STRATEGY_RANGE
@ PARTITION_STRATEGY_RANGE
Definition: parsenodes.h:901
CONSTR_ATTR_ENFORCED
@ CONSTR_ATTR_ENFORCED
Definition: parsenodes.h:2842
CONSTR_FOREIGN
@ CONSTR_FOREIGN
Definition: parsenodes.h:2837
CONSTR_ATTR_DEFERRED
@ CONSTR_ATTR_DEFERRED
Definition: parsenodes.h:2840
CONSTR_IDENTITY
@ CONSTR_IDENTITY
Definition: parsenodes.h:2831
CONSTR_UNIQUE
@ CONSTR_UNIQUE
Definition: parsenodes.h:2835
CONSTR_ATTR_NOT_DEFERRABLE
@ CONSTR_ATTR_NOT_DEFERRABLE
Definition: parsenodes.h:2839
CONSTR_DEFAULT
@ CONSTR_DEFAULT
Definition: parsenodes.h:2830
CONSTR_NOTNULL
@ CONSTR_NOTNULL
Definition: parsenodes.h:2829
CONSTR_ATTR_IMMEDIATE
@ CONSTR_ATTR_IMMEDIATE
Definition: parsenodes.h:2841
CONSTR_CHECK
@ CONSTR_CHECK
Definition: parsenodes.h:2833
CONSTR_NULL
@ CONSTR_NULL
Definition: parsenodes.h:2827
CONSTR_GENERATED
@ CONSTR_GENERATED
Definition: parsenodes.h:2832
CONSTR_EXCLUSION
@ CONSTR_EXCLUSION
Definition: parsenodes.h:2836
CONSTR_ATTR_DEFERRABLE
@ CONSTR_ATTR_DEFERRABLE
Definition: parsenodes.h:2838
CONSTR_ATTR_NOT_ENFORCED
@ CONSTR_ATTR_NOT_ENFORCED
Definition: parsenodes.h:2843
CONSTR_PRIMARY
@ CONSTR_PRIMARY
Definition: parsenodes.h:2834
PartitionRangeDatumKind
PartitionRangeDatumKind
Definition: parsenodes.h:951
PARTITION_RANGE_DATUM_MAXVALUE
@ PARTITION_RANGE_DATUM_MAXVALUE
Definition: parsenodes.h:954
PARTITION_RANGE_DATUM_VALUE
@ PARTITION_RANGE_DATUM_VALUE
Definition: parsenodes.h:953
PARTITION_RANGE_DATUM_MINVALUE
@ PARTITION_RANGE_DATUM_MINVALUE
Definition: parsenodes.h:952
DROP_RESTRICT
@ DROP_RESTRICT
Definition: parsenodes.h:2424
OBJECT_FOREIGN_TABLE
@ OBJECT_FOREIGN_TABLE
Definition: parsenodes.h:2369
OBJECT_COLUMN
@ OBJECT_COLUMN
Definition: parsenodes.h:2357
OBJECT_TABLE
@ OBJECT_TABLE
Definition: parsenodes.h:2392
OBJECT_TYPE
@ OBJECT_TYPE
Definition: parsenodes.h:2400
OBJECT_TABCONSTRAINT
@ OBJECT_TABCONSTRAINT
Definition: parsenodes.h:2391
AT_AddIndexConstraint
@ AT_AddIndexConstraint
Definition: parsenodes.h:2464
AT_MergePartitions
@ AT_MergePartitions
Definition: parsenodes.h:2506
AT_SetIdentity
@ AT_SetIdentity
Definition: parsenodes.h:2508
AT_AddIndex
@ AT_AddIndex
Definition: parsenodes.h:2457
AT_AddIdentity
@ AT_AddIdentity
Definition: parsenodes.h:2507
AT_AlterColumnType
@ AT_AlterColumnType
Definition: parsenodes.h:2467
AT_AlterColumnGenericOptions
@ AT_AlterColumnGenericOptions
Definition: parsenodes.h:2468
AT_DetachPartition
@ AT_DetachPartition
Definition: parsenodes.h:2503
AT_AttachPartition
@ AT_AttachPartition
Definition: parsenodes.h:2502
AT_AddConstraint
@ AT_AddConstraint
Definition: parsenodes.h:2459
AT_CookedColumnDefault
@ AT_CookedColumnDefault
Definition: parsenodes.h:2446
AT_SplitPartition
@ AT_SplitPartition
Definition: parsenodes.h:2505
AT_AddColumn
@ AT_AddColumn
Definition: parsenodes.h:2443
ACL_SELECT
#define ACL_SELECT
Definition: parsenodes.h:77
SORTBY_DESC
@ SORTBY_DESC
Definition: parsenodes.h:48
SORTBY_DEFAULT
@ SORTBY_DEFAULT
Definition: parsenodes.h:46
CREATE_TABLE_LIKE_COMMENTS
@ CREATE_TABLE_LIKE_COMMENTS
Definition: parsenodes.h:789
CREATE_TABLE_LIKE_GENERATED
@ CREATE_TABLE_LIKE_GENERATED
Definition: parsenodes.h:793
CREATE_TABLE_LIKE_IDENTITY
@ CREATE_TABLE_LIKE_IDENTITY
Definition: parsenodes.h:794
CREATE_TABLE_LIKE_COMPRESSION
@ CREATE_TABLE_LIKE_COMPRESSION
Definition: parsenodes.h:790
CREATE_TABLE_LIKE_STORAGE
@ CREATE_TABLE_LIKE_STORAGE
Definition: parsenodes.h:797
CREATE_TABLE_LIKE_INDEXES
@ CREATE_TABLE_LIKE_INDEXES
Definition: parsenodes.h:795
CREATE_TABLE_LIKE_DEFAULTS
@ CREATE_TABLE_LIKE_DEFAULTS
Definition: parsenodes.h:792
CREATE_TABLE_LIKE_STATISTICS
@ CREATE_TABLE_LIKE_STATISTICS
Definition: parsenodes.h:796
CREATE_TABLE_LIKE_CONSTRAINTS
@ CREATE_TABLE_LIKE_CONSTRAINTS
Definition: parsenodes.h:791
transformStmt
Query * transformStmt(ParseState *pstate, Node *parseTree)
Definition: analyze.c:324
SystemFuncName
List * SystemFuncName(char *name)
SystemTypeName
TypeName * SystemTypeName(char *name)
check_partitions_for_split
void check_partitions_for_split(Relation parent, Oid splitPartOid, List *partlist, ParseState *pstate)
Definition: partbounds.c:5724
calculate_partition_bound_for_merge
void calculate_partition_bound_for_merge(Relation parent, List *partNames, List *partOids, PartitionBoundSpec *spec, ParseState *pstate)
Definition: partbounds.c:5098
RelationGetPartitionKey
PartitionKey RelationGetPartitionKey(Relation rel)
Definition: partcache.c:51
get_partition_strategy
static int get_partition_strategy(PartitionKey key)
Definition: partcache.h:59
get_partition_col_typmod
static int32 get_partition_col_typmod(PartitionKey key, int col)
Definition: partcache.h:92
get_partition_natts
static int get_partition_natts(PartitionKey key)
Definition: partcache.h:65
get_partition_col_typid
static Oid get_partition_col_typid(PartitionKey key, int col)
Definition: partcache.h:86
get_partition_exprs
static List * get_partition_exprs(PartitionKey key)
Definition: partcache.h:71
get_partition_col_collation
static Oid get_partition_col_collation(PartitionKey key, int col)
Definition: partcache.h:98
RelationGetPartitionDesc
PartitionDesc RelationGetPartitionDesc(Relation rel, bool omit_detached)
Definition: partdesc.c:71
get_default_oid_from_partdesc
Oid get_default_oid_from_partdesc(PartitionDesc partdesc)
Definition: partdesc.c:501
get_partition_parent
Oid get_partition_parent(Oid relid, bool even_if_detached)
Definition: partition.c:53
pg_am.h
Form_pg_am
FormData_pg_am * Form_pg_am
Definition: pg_am.h:48
FormData_pg_attribute
FormData_pg_attribute
Definition: pg_attribute.h:186
attname
NameData attname
Definition: pg_attribute.h:41
attnum
int16 attnum
Definition: pg_attribute.h:74
Form_pg_attribute
FormData_pg_attribute * Form_pg_attribute
Definition: pg_attribute.h:202
errdetail_relkind_not_supported
int errdetail_relkind_not_supported(char relkind)
Definition: pg_class.c:24
Form_pg_class
FormData_pg_class * Form_pg_class
Definition: pg_class.h:156
pg_collation.h
Form_pg_collation
FormData_pg_collation * Form_pg_collation
Definition: pg_collation.h:58
RelationGetNotNullConstraints
List * RelationGetNotNullConstraints(Oid relid, bool cooked, bool include_noinh)
Definition: pg_constraint.c:817
get_relation_constraint_oid
Oid get_relation_constraint_oid(Oid relid, const char *conname, bool missing_ok)
Definition: pg_constraint.c:1183
pg_constraint.h
Form_pg_constraint
FormData_pg_constraint * Form_pg_constraint
Definition: pg_constraint.h:175
checkMembershipInCurrentExtension
void checkMembershipInCurrentExtension(const ObjectAddress *object)
Definition: pg_depend.c:258
getIdentitySequence
Oid getIdentitySequence(Relation rel, AttrNumber attnum, bool missing_ok)
Definition: pg_depend.c:945
get_index_constraint
Oid get_index_constraint(Oid indexId)
Definition: pg_depend.c:988
Form_pg_index
FormData_pg_index * Form_pg_index
Definition: pg_index.h:70
lfirst
#define lfirst(lc)
Definition: pg_list.h:172
lfirst_node
#define lfirst_node(type, lc)
Definition: pg_list.h:176
list_length
static int list_length(const List *l)
Definition: pg_list.h:152
linitial_node
#define linitial_node(type, l)
Definition: pg_list.h:181
NIL
#define NIL
Definition: pg_list.h:68
lsecond_node
#define lsecond_node(type, l)
Definition: pg_list.h:186
foreach_current_index
#define foreach_current_index(var_or_cell)
Definition: pg_list.h:403
foreach_delete_current
#define foreach_delete_current(lst, var_or_cell)
Definition: pg_list.h:391
list_make1
#define list_make1(x1)
Definition: pg_list.h:212
for_each_cell
#define for_each_cell(cell, lst, initcell)
Definition: pg_list.h:438
list_nth
static void * list_nth(const List *list, int n)
Definition: pg_list.h:299
linitial
#define linitial(l)
Definition: pg_list.h:178
list_make3
#define list_make3(x1, x2, x3)
Definition: pg_list.h:216
foreach_node
#define foreach_node(type, var, lst)
Definition: pg_list.h:496
list_head
static ListCell * list_head(const List *l)
Definition: pg_list.h:128
lnext
static ListCell * lnext(const List *l, const ListCell *c)
Definition: pg_list.h:343
lfirst_oid
#define lfirst_oid(lc)
Definition: pg_list.h:174
list_make2
#define list_make2(x1, x2)
Definition: pg_list.h:214
list_last_cell
static ListCell * list_last_cell(const List *list)
Definition: pg_list.h:288
pg_opclass.h
Form_pg_opclass
FormData_pg_opclass * Form_pg_opclass
Definition: pg_opclass.h:83
pg_operator.h
Form_pg_operator
FormData_pg_operator * Form_pg_operator
Definition: pg_operator.h:83
pg_statistic_ext.h
Form_pg_statistic_ext
FormData_pg_statistic_ext * Form_pg_statistic_ext
Definition: pg_statistic_ext.h:69
pg_type.h
Form_pg_type
FormData_pg_type * Form_pg_type
Definition: pg_type.h:261
typname
NameData typname
Definition: pg_type.h:41
ERRCODE_UNDEFINED_TABLE
#define ERRCODE_UNDEFINED_TABLE
Definition: pgbench.c:79
expression_planner
Expr * expression_planner(Expr *expr)
Definition: planner.c:6763
DatumGetObjectId
static Oid DatumGetObjectId(Datum X)
Definition: postgres.h:252
ObjectIdGetDatum
static Datum ObjectIdGetDatum(Oid X)
Definition: postgres.h:262
Datum
uint64_t Datum
Definition: postgres.h:70
DatumGetPointer
static Pointer DatumGetPointer(Datum X)
Definition: postgres.h:322
InvalidOid
#define InvalidOid
Definition: postgres_ext.h:37
Oid
unsigned int Oid
Definition: postgres_ext.h:32
PRS2_OLD_VARNO
#define PRS2_OLD_VARNO
Definition: primnodes.h:250
PRS2_NEW_VARNO
#define PRS2_NEW_VARNO
Definition: primnodes.h:251
COERCE_IMPLICIT_CAST
@ COERCE_IMPLICIT_CAST
Definition: primnodes.h:768
COERCE_EXPLICIT_CALL
@ COERCE_EXPLICIT_CALL
Definition: primnodes.h:766
COERCION_ASSIGNMENT
@ COERCION_ASSIGNMENT
Definition: primnodes.h:747
stringToNode
void * stringToNode(const char *str)
Definition: read.c:90
element
static chr element(struct vars *v, const chr *startp, const chr *endp)
Definition: regc_locale.c:376
RelationGetForm
#define RelationGetForm(relation)
Definition: rel.h:509
RelationGetRelid
#define RelationGetRelid(relation)
Definition: rel.h:515
RelationGetDescr
#define RelationGetDescr(relation)
Definition: rel.h:541
RelationGetRelationName
#define RelationGetRelationName(relation)
Definition: rel.h:549
RelationGetNamespace
#define RelationGetNamespace(relation)
Definition: rel.h:556
RelationGetIndexList
List * RelationGetIndexList(Relation relation)
Definition: relcache.c:4836
RelationGetIndexPredicate
List * RelationGetIndexPredicate(Relation relation)
Definition: relcache.c:5210
RelationGetStatExtList
List * RelationGetStatExtList(Relation relation)
Definition: relcache.c:4977
RelationGetIndexExpressions
List * RelationGetIndexExpressions(Relation relation)
Definition: relcache.c:5097
untransformRelOptions
List * untransformRelOptions(Datum options)
Definition: reloptions.c:1360
InvalidRelFileNumber
#define InvalidRelFileNumber
Definition: relpath.h:26
rangeTableEntry_used
bool rangeTableEntry_used(Node *node, int rt_index, int sublevels_up)
Definition: rewriteManip.c:1058
getInsertSelectQuery
Query * getInsertSelectQuery(Query *parsetree, Query ***subquery_ptr)
Definition: rewriteManip.c:1090
map_variable_attnos
Node * map_variable_attnos(Node *node, int target_varno, int sublevels_up, const AttrMap *attno_map, Oid to_rowtype, bool *found_whole_row)
Definition: rewriteManip.c:1702
quote_qualified_identifier
char * quote_qualified_identifier(const char *qualifier, const char *ident)
Definition: ruleutils.c:13146
deparse_context_for
List * deparse_context_for(const char *aliasname, Oid relid)
Definition: ruleutils.c:3711
deparse_expression
char * deparse_expression(Node *expr, List *dpcontext, bool forceprefix, bool showimplicit)
Definition: ruleutils.c:3648
relation_close
void relation_close(Relation relation, LOCKMODE lockmode)
Definition: relation.c:205
relation_openrv
Relation relation_openrv(const RangeVar *relation, LOCKMODE lockmode)
Definition: relation.c:137
relation_open
Relation relation_open(Oid relationId, LOCKMODE lockmode)
Definition: relation.c:47
A_Const
Definition: parsenodes.h:383
A_Const::val
union ValUnion val
Definition: parsenodes.h:387
A_Const::location
ParseLoc location
Definition: parsenodes.h:389
AlterSeqStmt::options
List * options
Definition: parsenodes.h:3264
AlterSeqStmt::sequence
RangeVar * sequence
Definition: parsenodes.h:3263
AlterSeqStmt::for_identity
bool for_identity
Definition: parsenodes.h:3265
AlterTableCmd::behavior
DropBehavior behavior
Definition: parsenodes.h:2524
AlterTableCmd::subtype
AlterTableType subtype
Definition: parsenodes.h:2516
AlterTableStmt::relation
RangeVar * relation
Definition: parsenodes.h:2435
AlterTableStmt::objtype
ObjectType objtype
Definition: parsenodes.h:2437
AttrMap
Definition: attmap.h:35
AttrMap::attnums
AttrNumber * attnums
Definition: attmap.h:36
CollateClause::collname
List * collname
Definition: parsenodes.h:410
CollateClause::location
ParseLoc location
Definition: parsenodes.h:411
ColumnDef::is_not_null
bool is_not_null
Definition: parsenodes.h:759
ColumnDef::collClause
CollateClause * collClause
Definition: parsenodes.h:769
ColumnDef::identity
char identity
Definition: parsenodes.h:765
ColumnDef::identitySequence
RangeVar * identitySequence
Definition: parsenodes.h:766
ColumnDef::constraints
List * constraints
Definition: parsenodes.h:771
ColumnDef::cooked_default
Node * cooked_default
Definition: parsenodes.h:764
ColumnDef::colname
char * colname
Definition: parsenodes.h:754
ColumnDef::typeName
TypeName * typeName
Definition: parsenodes.h:755
ColumnDef::generated
char generated
Definition: parsenodes.h:768
ColumnDef::is_from_type
bool is_from_type
Definition: parsenodes.h:760
ColumnDef::fdwoptions
List * fdwoptions
Definition: parsenodes.h:772
ColumnDef::raw_default
Node * raw_default
Definition: parsenodes.h:763
ColumnDef::storage
char storage
Definition: parsenodes.h:761
ColumnDef::compression
char * compression
Definition: parsenodes.h:756
ColumnRef::fields
List * fields
Definition: parsenodes.h:311
ConstrCheck::ccname
char * ccname
Definition: tupdesc.h:30
ConstrCheck::ccenforced
bool ccenforced
Definition: tupdesc.h:32
ConstrCheck::ccnoinherit
bool ccnoinherit
Definition: tupdesc.h:34
ConstrCheck::ccbin
char * ccbin
Definition: tupdesc.h:31
Constraint::initdeferred
bool initdeferred
Definition: parsenodes.h:2864
Constraint::exclusions
List * exclusions
Definition: parsenodes.h:2881
Constraint::location
ParseLoc location
Definition: parsenodes.h:2905
Constraint::reset_default_tblspc
bool reset_default_tblspc
Definition: parsenodes.h:2886
Constraint::keys
List * keys
Definition: parsenodes.h:2876
Constraint::where_clause
Node * where_clause
Definition: parsenodes.h:2889
Constraint::indexname
char * indexname
Definition: parsenodes.h:2884
Constraint::indexspace
char * indexspace
Definition: parsenodes.h:2885
Constraint::contype
ConstrType contype
Definition: parsenodes.h:2861
Constraint::access_method
char * access_method
Definition: parsenodes.h:2888
Constraint::is_no_inherit
bool is_no_inherit
Definition: parsenodes.h:2868
Constraint::options
List * options
Definition: parsenodes.h:2883
Constraint::is_enforced
bool is_enforced
Definition: parsenodes.h:2865
Constraint::nulls_not_distinct
bool nulls_not_distinct
Definition: parsenodes.h:2875
Constraint::cooked_expr
char * cooked_expr
Definition: parsenodes.h:2871
Constraint::initially_valid
bool initially_valid
Definition: parsenodes.h:2867
Constraint::skip_validation
bool skip_validation
Definition: parsenodes.h:2866
Constraint::without_overlaps
bool without_overlaps
Definition: parsenodes.h:2878
Constraint::deferrable
bool deferrable
Definition: parsenodes.h:2863
Constraint::raw_expr
Node * raw_expr
Definition: parsenodes.h:2869
Constraint::conname
char * conname
Definition: parsenodes.h:2862
Constraint::generated_when
char generated_when
Definition: parsenodes.h:2873
Constraint::including
List * including
Definition: parsenodes.h:2879
CreateSeqStmt::options
List * options
Definition: parsenodes.h:3254
CreateSeqStmt::sequence
RangeVar * sequence
Definition: parsenodes.h:3253
CreateStmtContext::pkey
IndexStmt * pkey
Definition: parse_utilcmd.c:95
CreateStmtContext::stmtType
const char * stmtType
Definition: parse_utilcmd.c:79
CreateStmtContext::relation
RangeVar * relation
Definition: parse_utilcmd.c:80
CreateStmtContext::pstate
ParseState * pstate
Definition: parse_utilcmd.c:78
CreateStmtContext::partbound
PartitionBoundSpec * partbound
Definition: parse_utilcmd.c:97
CreateStmt::relation
RangeVar * relation
Definition: parsenodes.h:2778
CreateTrigStmt::relation
RangeVar * relation
Definition: parsenodes.h:3140
DefElem::defname
char * defname
Definition: parsenodes.h:843
DefElem::location
ParseLoc location
Definition: parsenodes.h:847
DefElem::arg
Node * arg
Definition: parsenodes.h:844
FromExpr::fromlist
List * fromlist
Definition: primnodes.h:2357
IndexAmRoutine::amcanorder
bool amcanorder
Definition: amapi.h:246
IndexElem::expr
Node * expr
Definition: parsenodes.h:812
IndexElem::ordering
SortByDir ordering
Definition: parsenodes.h:817
IndexElem::opclassopts
List * opclassopts
Definition: parsenodes.h:816
IndexElem::indexcolname
char * indexcolname
Definition: parsenodes.h:813
IndexElem::nulls_ordering
SortByNulls nulls_ordering
Definition: parsenodes.h:818
IndexElem::opclass
List * opclass
Definition: parsenodes.h:815
IndexElem::name
char * name
Definition: parsenodes.h:811
IndexElem::collation
List * collation
Definition: parsenodes.h:814
IndexStmt::unique
bool unique
Definition: parsenodes.h:3529
IndexStmt::deferrable
bool deferrable
Definition: parsenodes.h:3534
IndexStmt::indexParams
List * indexParams
Definition: parsenodes.h:3517
IndexStmt::indexOid
Oid indexOid
Definition: parsenodes.h:3524
IndexStmt::initdeferred
bool initdeferred
Definition: parsenodes.h:3535
IndexStmt::relation
RangeVar * relation
Definition: parsenodes.h:3514
IndexStmt::excludeOpNames
List * excludeOpNames
Definition: parsenodes.h:3522
IndexStmt::nulls_not_distinct
bool nulls_not_distinct
Definition: parsenodes.h:3530
IndexStmt::idxname
char * idxname
Definition: parsenodes.h:3513
IndexStmt::whereClause
Node * whereClause
Definition: parsenodes.h:3521
IndexStmt::accessMethod
char * accessMethod
Definition: parsenodes.h:3515
IndexStmt::idxcomment
char * idxcomment
Definition: parsenodes.h:3523
IndexStmt::indexIncludingParams
List * indexIncludingParams
Definition: parsenodes.h:3518
List
Definition: pg_list.h:54
Node
Definition: nodes.h:135
Node::type
NodeTag type
Definition: nodes.h:136
ParseState::p_sourcetext
const char * p_sourcetext
Definition: parse_node.h:195
ParseState::p_rteperminfos
List * p_rteperminfos
Definition: parse_node.h:197
ParseState::p_rtable
List * p_rtable
Definition: parse_node.h:196
PartitionCmd::bound
PartitionBoundSpec * bound
Definition: parsenodes.h:992
PartitionCmd::partlist
List * partlist
Definition: parsenodes.h:1000
PartitionCmd::name
RangeVar * name
Definition: parsenodes.h:989
PartitionRangeDatum::kind
PartitionRangeDatumKind kind
Definition: parsenodes.h:961
Query::jointree
FromExpr * jointree
Definition: parsenodes.h:182
Query::setOperations
Node * setOperations
Definition: parsenodes.h:236
Query::cteList
List * cteList
Definition: parsenodes.h:173
Query::rtable
List * rtable
Definition: parsenodes.h:175
Query::commandType
CmdType commandType
Definition: parsenodes.h:121
RangeVar::relname
char * relname
Definition: primnodes.h:83
RangeVar::relpersistence
char relpersistence
Definition: primnodes.h:89
RangeVar::location
ParseLoc location
Definition: primnodes.h:95
RangeVar::schemaname
char * schemaname
Definition: primnodes.h:80
RelationData::rd_indam
struct IndexAmRoutine * rd_indam
Definition: rel.h:206
RelationData::rd_indextuple
struct HeapTupleData * rd_indextuple
Definition: rel.h:194
RelationData::rd_indoption
int16 * rd_indoption
Definition: rel.h:211
RelationData::rd_att
TupleDesc rd_att
Definition: rel.h:112
RelationData::rd_index
Form_pg_index rd_index
Definition: rel.h:192
RelationData::rd_indcollation
Oid * rd_indcollation
Definition: rel.h:217
RelationData::rd_rel
Form_pg_class rd_rel
Definition: rel.h:111
StatsElem::name
char * name
Definition: parsenodes.h:3569
StatsElem::expr
Node * expr
Definition: parsenodes.h:3570
String
Definition: value.h:64
String::sval
char * sval
Definition: value.h:68
TableLikeClause::relation
RangeVar * relation
Definition: parsenodes.h:782
TupleConstr::has_not_null
bool has_not_null
Definition: tupdesc.h:45
TupleConstr::check
ConstrCheck * check
Definition: tupdesc.h:41
TupleConstr::num_check
uint16 num_check
Definition: tupdesc.h:44
TupleDescData::constr
TupleConstr * constr
Definition: tupdesc.h:141
TypeCast::typeName
TypeName * typeName
Definition: parsenodes.h:399
TypeCast::location
ParseLoc location
Definition: parsenodes.h:400
TypeCast::arg
Node * arg
Definition: parsenodes.h:398
TypeName::typeOid
Oid typeOid
Definition: parsenodes.h:286
TypeName::pct_type
bool pct_type
Definition: parsenodes.h:288
TypeName::names
List * names
Definition: parsenodes.h:285
TypeName::arrayBounds
List * arrayBounds
Definition: parsenodes.h:291
TypeName::location
ParseLoc location
Definition: parsenodes.h:292
ViewStmt::view
RangeVar * view
Definition: parsenodes.h:3907
index
Definition: type.h:96
oidvector
Definition: c.h:745
oidvector::values
Oid values[FLEXIBLE_ARRAY_MEMBER]
Definition: c.h:752
ReleaseSysCache
void ReleaseSysCache(HeapTuple tuple)
Definition: syscache.c:264
SearchSysCache1
HeapTuple SearchSysCache1(int cacheId, Datum key1)
Definition: syscache.c:220
SysCacheGetAttr
Datum SysCacheGetAttr(int cacheId, HeapTuple tup, AttrNumber attributeNumber, bool *isNull)
Definition: syscache.c:595
SysCacheGetAttrNotNull
Datum SysCacheGetAttrNotNull(int cacheId, HeapTuple tup, AttrNumber attributeNumber)
Definition: syscache.c:625
table_close
void table_close(Relation relation, LOCKMODE lockmode)
Definition: table.c:126
table_open
Relation table_open(Oid relationId, LOCKMODE lockmode)
Definition: table.c:40
table_openrv
Relation table_openrv(const RangeVar *relation, LOCKMODE lockmode)
Definition: table.c:83
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void check_of_type(HeapTuple typetuple)
Definition: tablecmds.c:7171
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void RangeVarCallbackOwnsRelation(const RangeVar *relation, Oid relId, Oid oldRelId, void *arg)
Definition: tablecmds.c:19580
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const char * GetCompressionMethodName(char method)
Definition: toast_compression.c:304
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#define CompressionMethodIsValid(cm)
Definition: toast_compression.h:53
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Node * TupleDescGetDefault(TupleDesc tupdesc, AttrNumber attnum)
Definition: tupdesc.c:1092
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#define ReleaseTupleDesc(tupdesc)
Definition: tupdesc.h:219
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static FormData_pg_attribute * TupleDescAttr(TupleDesc tupdesc, int i)
Definition: tupdesc.h:160
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TupleDesc lookup_rowtype_tupdesc(Oid type_id, int32 typmod)
Definition: typcache.c:1921
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Node node
Definition: parsenodes.h:374
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String sval
Definition: parsenodes.h:378
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String * makeString(char *str)
Definition: value.c:63
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#define strVal(v)
Definition: value.h:82
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bool contain_var_clause(Node *node)
Definition: var.c:406
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const char * name
Definition: wait_event_funcs.c:28