sqlite-3.40.0/src/parse.y

348784efSdrh/*
b19a2bc6Sdrh** 2001 September 15
348784efSdrh**
b19a2bc6Sdrh** The author disclaims copyright to this source code.  In place of
b19a2bc6Sdrh** a legal notice, here is a blessing:
348784efSdrh**
b19a2bc6Sdrh**    May you do good and not evil.
b19a2bc6Sdrh**    May you find forgiveness for yourself and forgive others.
b19a2bc6Sdrh**    May you share freely, never taking more than you give.
348784efSdrh**
348784efSdrh*************************************************************************
348784efSdrh** This file contains SQLite's grammar for SQL.  Process this file
348784efSdrh** using the lemon parser generator to generate C code that runs
348784efSdrh** the parser.  Lemon will also generate a header file containing
348784efSdrh** numeric codes for all of the tokens.
348784efSdrh**
*49ffdbf4Sshane** @(#) $Id: parse.y,v 1.259 2008/10/10 18:25:46 shane Exp $
348784efSdrh*/
487e262fSdrh
487e262fSdrh// All token codes are small integers with #defines that begin with "TK_"
348784efSdrh%token_prefix TK_
487e262fSdrh
487e262fSdrh// The type of the data attached to each token is Token.  This is also the
487e262fSdrh// default type for non-terminals.
487e262fSdrh//
348784efSdrh%token_type {Token}
f57b14a6Sdrh%default_type {Token}
487e262fSdrh
487e262fSdrh// The generated parser function takes a 4th argument as follows:
348784efSdrh%extra_argument {Parse *pParse}
487e262fSdrh
487e262fSdrh// This code runs whenever there is a syntax error
487e262fSdrh//
348784efSdrh%syntax_error {
55176259Sdrh  assert( TOKEN.z[0] );  /* The tokenizer always gives us a token */
4adee20fSdanielk1977  sqlite3ErrorMsg(pParse, "near \"%T\": syntax error", &TOKEN);
86dac2b6Sdrh  pParse->parseError = 1;
b86ccfb2Sdrh}
8fc3345fSdrh%stack_overflow {
8fc3345fSdrh  sqlite3ErrorMsg(pParse, "parser stack overflow");
86dac2b6Sdrh  pParse->parseError = 1;
8fc3345fSdrh}
487e262fSdrh
487e262fSdrh// The name of the generated procedure that implements the parser
487e262fSdrh// is as follows:
4adee20fSdanielk1977%name sqlite3Parser
487e262fSdrh
487e262fSdrh// The following text is included near the beginning of the C source
487e262fSdrh// code file that implements the parser.
487e262fSdrh//
348784efSdrh%include {
348784efSdrh#include "sqliteInt.h"
9bbca4c1Sdrh
9bbca4c1Sdrh/*
ad3cab52Sdrh** An instance of this structure holds information about the
ad3cab52Sdrh** LIMIT clause of a SELECT statement.
9bbca4c1Sdrh*/
ad3cab52Sdrhstruct LimitVal {
a2dc3b1aSdanielk1977  Expr *pLimit;    /* The LIMIT expression.  NULL if there is no limit */
a2dc3b1aSdanielk1977  Expr *pOffset;   /* The OFFSET expression.  NULL if there is none */
ad3cab52Sdrh};
c3f9bad2Sdanielk1977
c3f9bad2Sdanielk1977/*
2e3a1f16Sdrh** An instance of this structure is used to store the LIKE,
2e3a1f16Sdrh** GLOB, NOT LIKE, and NOT GLOB operators.
2e3a1f16Sdrh*/
2e3a1f16Sdrhstruct LikeOp {
b52076cdSdrh  Token eOperator;  /* "like" or "glob" or "regexp" */
2e3a1f16Sdrh  int not;         /* True if the NOT keyword is present */
2e3a1f16Sdrh};
2e3a1f16Sdrh
2e3a1f16Sdrh/*
ad3cab52Sdrh** An instance of the following structure describes the event of a
ad3cab52Sdrh** TRIGGER.  "a" is the event type, one of TK_UPDATE, TK_INSERT,
ad3cab52Sdrh** TK_DELETE, or TK_INSTEAD.  If the event is of the form
ad3cab52Sdrh**
ad3cab52Sdrh**      UPDATE ON (a,b,c)
ad3cab52Sdrh**
ad3cab52Sdrh** Then the "b" IdList records the list "a,b,c".
c3f9bad2Sdanielk1977*/
ad3cab52Sdrhstruct TrigEvent { int a; IdList * b; };
caec2f12Sdrh
25d6543dSdrh/*
25d6543dSdrh** An instance of this structure holds the ATTACH key and the key type.
25d6543dSdrh*/
25d6543dSdrhstruct AttachKey { int type;  Token key; };
25d6543dSdrh
caec2f12Sdrh} // end %include
348784efSdrh
826fb5a3Sdrh// Input is a single SQL command
c4a3c779Sdrhinput ::= cmdlist.
094b2bbfSdrhcmdlist ::= cmdlist ecmd.
826fb5a3Sdrhcmdlist ::= ecmd.
b7f9164eSdrhecmd ::= SEMI.
b7f9164eSdrhecmd ::= explain cmdx SEMI.
4adee20fSdanielk1977explain ::= .           { sqlite3BeginParse(pParse, 0); }
b7f9164eSdrh%ifndef SQLITE_OMIT_EXPLAIN
b7f9164eSdrhexplain ::= EXPLAIN.              { sqlite3BeginParse(pParse, 1); }
ecc9242fSdrhexplain ::= EXPLAIN QUERY PLAN.   { sqlite3BeginParse(pParse, 2); }
154d4b24Sdrh%endif  SQLITE_OMIT_EXPLAIN
200a81dcSdrhcmdx ::= cmd.           { sqlite3FinishCoding(pParse); }
348784efSdrh
382c0247Sdrh///////////////////// Begin and end transactions. ////////////////////////////
c4a3c779Sdrh//
fa86c412Sdrh
684917c2Sdrhcmd ::= BEGIN transtype(Y) trans_opt.  {sqlite3BeginTransaction(pParse, Y);}
c4a3c779Sdrhtrans_opt ::= .
c4a3c779Sdrhtrans_opt ::= TRANSACTION.
5ad1a6c8Sdrhtrans_opt ::= TRANSACTION nm.
684917c2Sdrh%type transtype {int}
684917c2Sdrhtranstype(A) ::= .             {A = TK_DEFERRED;}
684917c2Sdrhtranstype(A) ::= DEFERRED(X).  {A = @X;}
684917c2Sdrhtranstype(A) ::= IMMEDIATE(X). {A = @X;}
684917c2Sdrhtranstype(A) ::= EXCLUSIVE(X). {A = @X;}
4adee20fSdanielk1977cmd ::= COMMIT trans_opt.      {sqlite3CommitTransaction(pParse);}
4adee20fSdanielk1977cmd ::= END trans_opt.         {sqlite3CommitTransaction(pParse);}
4adee20fSdanielk1977cmd ::= ROLLBACK trans_opt.    {sqlite3RollbackTransaction(pParse);}
c4a3c779Sdrh
382c0247Sdrh///////////////////// The CREATE TABLE statement ////////////////////////////
348784efSdrh//
348784efSdrhcmd ::= create_table create_table_args.
74161705Sdrhcreate_table ::= CREATE temp(T) TABLE ifnotexists(E) nm(Y) dbnm(Z). {
f1a381e7Sdanielk1977   sqlite3StartTable(pParse,&Y,&Z,T,0,0,E);
969fa7c1Sdrh}
faa59554Sdrh%type ifnotexists {int}
faa59554Sdrhifnotexists(A) ::= .              {A = 0;}
faa59554Sdrhifnotexists(A) ::= IF NOT EXISTS. {A = 1;}
f57b3399Sdrh%type temp {int}
53c0f748Sdanielk1977%ifndef SQLITE_OMIT_TEMPDB
d24cc427Sdrhtemp(A) ::= TEMP.  {A = 1;}
154d4b24Sdrh%endif  SQLITE_OMIT_TEMPDB
d24cc427Sdrhtemp(A) ::= .      {A = 0;}
19a8e7e8Sdanielk1977create_table_args ::= LP columnlist conslist_opt(X) RP(Y). {
19a8e7e8Sdanielk1977  sqlite3EndTable(pParse,&X,&Y,0);
969fa7c1Sdrh}
969fa7c1Sdrhcreate_table_args ::= AS select(S). {
19a8e7e8Sdanielk1977  sqlite3EndTable(pParse,0,0,S);
633e6d57Sdrh  sqlite3SelectDelete(pParse->db, S);
969fa7c1Sdrh}
348784efSdrhcolumnlist ::= columnlist COMMA column.
348784efSdrhcolumnlist ::= column.
348784efSdrh
487e262fSdrh// A "column" is a complete description of a single column in a
487e262fSdrh// CREATE TABLE statement.  This includes the column name, its
487e262fSdrh// datatype, and other keywords such as PRIMARY KEY, UNIQUE, REFERENCES,
487e262fSdrh// NOT NULL and so forth.
348784efSdrh//
19a8e7e8Sdanielk1977column(A) ::= columnid(X) type carglist. {
19a8e7e8Sdanielk1977  A.z = X.z;
19a8e7e8Sdanielk1977  A.n = (pParse->sLastToken.z-X.z) + pParse->sLastToken.n;
19a8e7e8Sdanielk1977}
19a8e7e8Sdanielk1977columnid(A) ::= nm(X). {
19a8e7e8Sdanielk1977  sqlite3AddColumn(pParse,&X);
19a8e7e8Sdanielk1977  A = X;
19a8e7e8Sdanielk1977}
19a8e7e8Sdanielk1977
c4a3c779Sdrh
c4a3c779Sdrh// An IDENTIFIER can be a generic identifier, or one of several
c4a3c779Sdrh// keywords.  Any non-standard keyword can also be an identifier.
c4a3c779Sdrh//
982cef7eSdrh%type id {Token}
f18543caSdrhid(A) ::= ID(X).         {A = X;}
0bd1f4eaSdrh
34e33bb8Sdrh// The following directive causes tokens ABORT, AFTER, ASC, etc. to
34e33bb8Sdrh// fallback to ID if they will not parse as their original value.
34e33bb8Sdrh// This obviates the need for the "id" nonterminal.
34e33bb8Sdrh//
0bd1f4eaSdrh%fallback ID
9f18e8a0Sdrh  ABORT AFTER ANALYZE ASC ATTACH BEFORE BEGIN CASCADE CAST CONFLICT
684917c2Sdrh  DATABASE DEFERRED DESC DETACH EACH END EXCLUSIVE EXPLAIN FAIL FOR
ca5557f9Sdrh  IGNORE IMMEDIATE INITIALLY INSTEAD LIKE_KW MATCH PLAN
4f5c74e6Sdrh  QUERY KEY OF OFFSET PRAGMA RAISE REPLACE RESTRICT ROW
e09daa90Sdrh  TEMP TRIGGER VACUUM VIEW VIRTUAL
b7f9164eSdrh%ifdef SQLITE_OMIT_COMPOUND_SELECT
b7f9164eSdrh  EXCEPT INTERSECT UNION
154d4b24Sdrh%endif SQLITE_OMIT_COMPOUND_SELECT
a073384fSdrh  REINDEX RENAME CTIME_KW IF
b7f9164eSdrh  .
e09daa90Sdrh%wildcard ANY.
c4a3c779Sdrh
2d3917daSdrh// Define operator precedence early so that this is the first occurance
2d3917daSdrh// of the operator tokens in the grammer.  Keeping the operators together
2d3917daSdrh// causes them to be assigned integer values that are close together,
2d3917daSdrh// which keeps parser tables smaller.
2d3917daSdrh//
f2bc013cSdrh// The token values assigned to these symbols is determined by the order
f2bc013cSdrh// in which lemon first sees them.  It must be the case that ISNULL/NOTNULL,
f2bc013cSdrh// NE/EQ, GT/LE, and GE/LT are separated by only a single value.  See
f2bc013cSdrh// the sqlite3ExprIfFalse() routine for additional information on this
f2bc013cSdrh// constraint.
f2bc013cSdrh//
2d3917daSdrh%left OR.
2d3917daSdrh%left AND.
2d3917daSdrh%right NOT.
03bea70cSdrh%left IS MATCH LIKE_KW BETWEEN IN ISNULL NOTNULL NE EQ.
9a43267bSdrh%left GT LE LT GE.
7c6303c0Sdanielk1977%right ESCAPE.
2d3917daSdrh%left BITAND BITOR LSHIFT RSHIFT.
2d3917daSdrh%left PLUS MINUS.
2d3917daSdrh%left STAR SLASH REM.
a34001c9Sdrh%left CONCAT.
a34001c9Sdrh%left COLLATE.
2d3917daSdrh%right UMINUS UPLUS BITNOT.
2d3917daSdrh
c4a3c779Sdrh// And "ids" is an identifer-or-string.
c4a3c779Sdrh//
c4a3c779Sdrh%type ids {Token}
fd405314Sdrhids(A) ::= ID|STRING(X).   {A = X;}
c4a3c779Sdrh
5ad1a6c8Sdrh// The name of a column or table can be any of the following:
5ad1a6c8Sdrh//
5ad1a6c8Sdrh%type nm {Token}
5ad1a6c8Sdrhnm(A) ::= ID(X).         {A = X;}
5ad1a6c8Sdrhnm(A) ::= STRING(X).     {A = X;}
5ad1a6c8Sdrhnm(A) ::= JOIN_KW(X).    {A = X;}
5ad1a6c8Sdrh
487e262fSdrh// A typetoken is really one or more tokens that form a type name such
487e262fSdrh// as can be found after the column name in a CREATE TABLE statement.
487e262fSdrh// Multiple tokens are concatenated to form the value of the typetoken.
487e262fSdrh//
487e262fSdrh%type typetoken {Token}
382c0247Sdrhtype ::= .
487e262fSdrhtype ::= typetoken(X).                   {sqlite3AddColumnType(pParse,&X);}
487e262fSdrhtypetoken(A) ::= typename(X).   {A = X;}
487e262fSdrhtypetoken(A) ::= typename(X) LP signed RP(Y). {
487e262fSdrh  A.z = X.z;
487e262fSdrh  A.n = &Y.z[Y.n] - X.z;
487e262fSdrh}
487e262fSdrhtypetoken(A) ::= typename(X) LP signed COMMA signed RP(Y). {
487e262fSdrh  A.z = X.z;
487e262fSdrh  A.n = &Y.z[Y.n] - X.z;
487e262fSdrh}
382c0247Sdrh%type typename {Token}
382c0247Sdrhtypename(A) ::= ids(X).             {A = X;}
596bd235Sdrhtypename(A) ::= typename(X) ids(Y). {A.z=X.z; A.n=Y.n+(Y.z-X.z);}
60218d2aSdrhsigned ::= plus_num.
60218d2aSdrhsigned ::= minus_num.
487e262fSdrh
487e262fSdrh// "carglist" is a list of additional constraints that come after the
487e262fSdrh// column name and column type in a CREATE TABLE statement.
487e262fSdrh//
348784efSdrhcarglist ::= carglist carg.
348784efSdrhcarglist ::= .
5ad1a6c8Sdrhcarg ::= CONSTRAINT nm ccons.
348784efSdrhcarg ::= ccons.
2b7acc35Sdrhccons ::= DEFAULT term(X).            {sqlite3AddDefaultValue(pParse,X);}
2b7acc35Sdrhccons ::= DEFAULT LP expr(X) RP.      {sqlite3AddDefaultValue(pParse,X);}
2b7acc35Sdrhccons ::= DEFAULT PLUS term(X).       {sqlite3AddDefaultValue(pParse,X);}
2b7acc35Sdrhccons ::= DEFAULT MINUS term(X).      {
17435752Sdrh  Expr *p = sqlite3PExpr(pParse, TK_UMINUS, X, 0, 0);
7977a17fSdanielk1977  sqlite3AddDefaultValue(pParse,p);
7977a17fSdanielk1977}
2b7acc35Sdrhccons ::= DEFAULT id(X).              {
17435752Sdrh  Expr *p = sqlite3PExpr(pParse, TK_STRING, 0, 0, &X);
7977a17fSdanielk1977  sqlite3AddDefaultValue(pParse,p);
7977a17fSdanielk1977}
348784efSdrh
382c0247Sdrh// In addition to the type name, we also care about the primary key and
382c0247Sdrh// UNIQUE constraints.
348784efSdrh//
0d316a40Sdrhccons ::= NULL onconf.
4adee20fSdanielk1977ccons ::= NOT NULL onconf(R).               {sqlite3AddNotNull(pParse, R);}
fdd6e85aSdrhccons ::= PRIMARY KEY sortorder(Z) onconf(R) autoinc(I).
fdd6e85aSdrh                                     {sqlite3AddPrimaryKey(pParse,0,R,I,Z);}
4d91a701Sdrhccons ::= UNIQUE onconf(R).    {sqlite3CreateIndex(pParse,0,0,0,0,R,0,0,0,0);}
ffe07b2dSdrhccons ::= CHECK LP expr(X) RP.       {sqlite3AddCheckConstraint(pParse,X);}
c2eef3b3Sdrhccons ::= REFERENCES nm(T) idxlist_opt(TA) refargs(R).
4adee20fSdanielk1977                                {sqlite3CreateForeignKey(pParse,0,&T,TA,R);}
4adee20fSdanielk1977ccons ::= defer_subclause(D).   {sqlite3DeferForeignKey(pParse,D);}
39002505Sdanielk1977ccons ::= COLLATE ids(C).  {sqlite3AddCollateType(pParse, &C);}
04738cb9Sdrh
205f48e6Sdrh// The optional AUTOINCREMENT keyword
205f48e6Sdrh%type autoinc {int}
205f48e6Sdrhautoinc(X) ::= .          {X = 0;}
2958a4e6Sdrhautoinc(X) ::= AUTOINCR.  {X = 1;}
205f48e6Sdrh
c2eef3b3Sdrh// The next group of rules parses the arguments to a REFERENCES clause
c2eef3b3Sdrh// that determine if the referential integrity checking is deferred or
c2eef3b3Sdrh// or immediate and which determine what action to take if a ref-integ
c2eef3b3Sdrh// check fails.
04738cb9Sdrh//
c2eef3b3Sdrh%type refargs {int}
c2eef3b3Sdrhrefargs(A) ::= .                     { A = OE_Restrict * 0x010101; }
50af3e1dSdanielk1977refargs(A) ::= refargs(X) refarg(Y). { A = (X & ~Y.mask) | Y.value; }
c2eef3b3Sdrh%type refarg {struct {int value; int mask;}}
c2eef3b3Sdrhrefarg(A) ::= MATCH nm.              { A.value = 0;     A.mask = 0x000000; }
c2eef3b3Sdrhrefarg(A) ::= ON DELETE refact(X).   { A.value = X;     A.mask = 0x0000ff; }
c2eef3b3Sdrhrefarg(A) ::= ON UPDATE refact(X).   { A.value = X<<8;  A.mask = 0x00ff00; }
c2eef3b3Sdrhrefarg(A) ::= ON INSERT refact(X).   { A.value = X<<16; A.mask = 0xff0000; }
c2eef3b3Sdrh%type refact {int}
c2eef3b3Sdrhrefact(A) ::= SET NULL.              { A = OE_SetNull; }
c2eef3b3Sdrhrefact(A) ::= SET DEFAULT.           { A = OE_SetDflt; }
c2eef3b3Sdrhrefact(A) ::= CASCADE.               { A = OE_Cascade; }
c2eef3b3Sdrhrefact(A) ::= RESTRICT.              { A = OE_Restrict; }
c2eef3b3Sdrh%type defer_subclause {int}
c2eef3b3Sdrhdefer_subclause(A) ::= NOT DEFERRABLE init_deferred_pred_opt(X).  {A = X;}
c2eef3b3Sdrhdefer_subclause(A) ::= DEFERRABLE init_deferred_pred_opt(X).      {A = X;}
c2eef3b3Sdrh%type init_deferred_pred_opt {int}
c2eef3b3Sdrhinit_deferred_pred_opt(A) ::= .                       {A = 0;}
c2eef3b3Sdrhinit_deferred_pred_opt(A) ::= INITIALLY DEFERRED.     {A = 1;}
c2eef3b3Sdrhinit_deferred_pred_opt(A) ::= INITIALLY IMMEDIATE.    {A = 0;}
348784efSdrh
348784efSdrh// For the time being, the only constraint we care about is the primary
382c0247Sdrh// key and UNIQUE.  Both create indices.
348784efSdrh//
19a8e7e8Sdanielk1977conslist_opt(A) ::= .                   {A.n = 0; A.z = 0;}
19a8e7e8Sdanielk1977conslist_opt(A) ::= COMMA(X) conslist.  {A = X;}
348784efSdrhconslist ::= conslist COMMA tcons.
a2e1bb5aSdrhconslist ::= conslist tcons.
348784efSdrhconslist ::= tcons.
5ad1a6c8Sdrhtcons ::= CONSTRAINT nm.
f3388144Sdrhtcons ::= PRIMARY KEY LP idxlist(X) autoinc(I) RP onconf(R).
fdd6e85aSdrh                                         {sqlite3AddPrimaryKey(pParse,X,R,I,0);}
9cfcf5d4Sdrhtcons ::= UNIQUE LP idxlist(X) RP onconf(R).
4d91a701Sdrh                                 {sqlite3CreateIndex(pParse,0,0,0,X,R,0,0,0,0);}
e72e728bSdrhtcons ::= CHECK LP expr(E) RP onconf. {sqlite3AddCheckConstraint(pParse,E);}
c2eef3b3Sdrhtcons ::= FOREIGN KEY LP idxlist(FA) RP
c2eef3b3Sdrh          REFERENCES nm(T) idxlist_opt(TA) refargs(R) defer_subclause_opt(D). {
4adee20fSdanielk1977    sqlite3CreateForeignKey(pParse, FA, &T, TA, R);
4adee20fSdanielk1977    sqlite3DeferForeignKey(pParse, D);
c2eef3b3Sdrh}
c2eef3b3Sdrh%type defer_subclause_opt {int}
c2eef3b3Sdrhdefer_subclause_opt(A) ::= .                    {A = 0;}
c2eef3b3Sdrhdefer_subclause_opt(A) ::= defer_subclause(X).  {A = X;}
9cfcf5d4Sdrh
9cfcf5d4Sdrh// The following is a non-standard extension that allows us to declare the
9cfcf5d4Sdrh// default behavior when there is a constraint conflict.
9cfcf5d4Sdrh//
9cfcf5d4Sdrh%type onconf {int}
1c92853dSdrh%type orconf {int}
1c92853dSdrh%type resolvetype {int}
1c92853dSdrhonconf(A) ::= .                              {A = OE_Default;}
1c92853dSdrhonconf(A) ::= ON CONFLICT resolvetype(X).    {A = X;}
1c92853dSdrhorconf(A) ::= .                              {A = OE_Default;}
1c92853dSdrhorconf(A) ::= OR resolvetype(X).             {A = X;}
74ad7fe9Sdrhresolvetype(A) ::= raisetype(X).             {A = X;}
1c92853dSdrhresolvetype(A) ::= IGNORE.                   {A = OE_Ignore;}
1c92853dSdrhresolvetype(A) ::= REPLACE.                  {A = OE_Replace;}
348784efSdrh
382c0247Sdrh////////////////////////// The DROP TABLE /////////////////////////////////////
348784efSdrh//
a073384fSdrhcmd ::= DROP TABLE ifexists(E) fullname(X). {
a073384fSdrh  sqlite3DropTable(pParse, X, 0, E);
a8858103Sdanielk1977}
a073384fSdrh%type ifexists {int}
a073384fSdrhifexists(A) ::= IF EXISTS.   {A = 1;}
a073384fSdrhifexists(A) ::= .            {A = 0;}
348784efSdrh
a76b5dfcSdrh///////////////////// The CREATE VIEW statement /////////////////////////////
a76b5dfcSdrh//
b7f9164eSdrh%ifndef SQLITE_OMIT_VIEW
fdd48a76Sdrhcmd ::= CREATE(X) temp(T) VIEW ifnotexists(E) nm(Y) dbnm(Z) AS select(S). {
fdd48a76Sdrh  sqlite3CreateView(pParse, &X, &Y, &Z, S, T, E);
a76b5dfcSdrh}
a073384fSdrhcmd ::= DROP VIEW ifexists(E) fullname(X). {
a073384fSdrh  sqlite3DropTable(pParse, X, 1, E);
a76b5dfcSdrh}
154d4b24Sdrh%endif  SQLITE_OMIT_VIEW
a76b5dfcSdrh
382c0247Sdrh//////////////////////// The SELECT statement /////////////////////////////////
348784efSdrh//
9bb61fe7Sdrhcmd ::= select(X).  {
7d10d5a6Sdrh  SelectDest dest = {SRT_Output, 0, 0, 0, 0};
7d10d5a6Sdrh  sqlite3Select(pParse, X, &dest);
633e6d57Sdrh  sqlite3SelectDelete(pParse->db, X);
9bb61fe7Sdrh}
efb7251dSdrh
9bb61fe7Sdrh%type select {Select*}
633e6d57Sdrh%destructor select {sqlite3SelectDelete(pParse->db, $$);}
82c3d636Sdrh%type oneselect {Select*}
633e6d57Sdrh%destructor oneselect {sqlite3SelectDelete(pParse->db, $$);}
9bb61fe7Sdrh
82c3d636Sdrhselect(A) ::= oneselect(X).                      {A = X;}
b7f9164eSdrh%ifndef SQLITE_OMIT_COMPOUND_SELECT
0a36c57eSdrhselect(A) ::= select(X) multiselect_op(Y) oneselect(Z).  {
daffd0e5Sdrh  if( Z ){
82c3d636Sdrh    Z->op = Y;
82c3d636Sdrh    Z->pPrior = X;
43b78826Sdrh  }else{
633e6d57Sdrh    sqlite3SelectDelete(pParse->db, X);
daffd0e5Sdrh  }
82c3d636Sdrh  A = Z;
82c3d636Sdrh}
0a36c57eSdrh%type multiselect_op {int}
74ad7fe9Sdrhmultiselect_op(A) ::= UNION(OP).             {A = @OP;}
0a36c57eSdrhmultiselect_op(A) ::= UNION ALL.             {A = TK_ALL;}
fd405314Sdrhmultiselect_op(A) ::= EXCEPT|INTERSECT(OP).  {A = @OP;}
154d4b24Sdrh%endif SQLITE_OMIT_COMPOUND_SELECT
82c3d636Sdrhoneselect(A) ::= SELECT distinct(D) selcollist(W) from(X) where_opt(Y)
9bbca4c1Sdrh                 groupby_opt(P) having_opt(Q) orderby_opt(Z) limit_opt(L). {
17435752Sdrh  A = sqlite3SelectNew(pParse,W,X,Y,P,Q,Z,D,L.pLimit,L.pOffset);
9bb61fe7Sdrh}
9bb61fe7Sdrh
9bb61fe7Sdrh// The "distinct" nonterminal is true (1) if the DISTINCT keyword is
9bb61fe7Sdrh// present and false (0) if it is not.
9bb61fe7Sdrh//
efb7251dSdrh%type distinct {int}
efb7251dSdrhdistinct(A) ::= DISTINCT.   {A = 1;}
fef5208cSdrhdistinct(A) ::= ALL.        {A = 0;}
efb7251dSdrhdistinct(A) ::= .           {A = 0;}
348784efSdrh
9bb61fe7Sdrh// selcollist is a list of expressions that are to become the return
7c917d19Sdrh// values of the SELECT statement.  The "*" in statements like
7c917d19Sdrh// "SELECT * FROM ..." is encoded as a special expression with an
7c917d19Sdrh// opcode of TK_ALL.
9bb61fe7Sdrh//
348784efSdrh%type selcollist {ExprList*}
633e6d57Sdrh%destructor selcollist {sqlite3ExprListDelete(pParse->db, $$);}
348784efSdrh%type sclp {ExprList*}
633e6d57Sdrh%destructor sclp {sqlite3ExprListDelete(pParse->db, $$);}
348784efSdrhsclp(A) ::= selcollist(X) COMMA.             {A = X;}
348784efSdrhsclp(A) ::= .                                {A = 0;}
01f3f253Sdrhselcollist(A) ::= sclp(P) expr(X) as(Y).     {
17435752Sdrh   A = sqlite3ExprListAppend(pParse,P,X,Y.n?&Y:0);
01f3f253Sdrh}
7c917d19Sdrhselcollist(A) ::= sclp(P) STAR. {
1e536953Sdanielk1977  Expr *p = sqlite3PExpr(pParse, TK_ALL, 0, 0, 0);
17435752Sdrh  A = sqlite3ExprListAppend(pParse, P, p, 0);
7c917d19Sdrh}
e54a62adSdrhselcollist(A) ::= sclp(P) nm(X) DOT STAR(Y). {
e54a62adSdrh  Expr *pRight = sqlite3PExpr(pParse, TK_ALL, 0, 0, &Y);
17435752Sdrh  Expr *pLeft = sqlite3PExpr(pParse, TK_ID, 0, 0, &X);
17435752Sdrh  Expr *pDot = sqlite3PExpr(pParse, TK_DOT, pLeft, pRight, 0);
17435752Sdrh  A = sqlite3ExprListAppend(pParse,P, pDot, 0);
54473229Sdrh}
01f3f253Sdrh
01f3f253Sdrh// An option "AS <id>" phrase that can follow one of the expressions that
01f3f253Sdrh// define the result set, or one of the tables in the FROM clause.
01f3f253Sdrh//
01f3f253Sdrh%type as {Token}
5ad1a6c8Sdrhas(X) ::= AS nm(Y).    {X = Y;}
5ad1a6c8Sdrhas(X) ::= ids(Y).      {X = Y;}
01f3f253Sdrhas(X) ::= .            {X.n = 0;}
9bb61fe7Sdrh
348784efSdrh
ad3cab52Sdrh%type seltablist {SrcList*}
633e6d57Sdrh%destructor seltablist {sqlite3SrcListDelete(pParse->db, $$);}
ad3cab52Sdrh%type stl_prefix {SrcList*}
633e6d57Sdrh%destructor stl_prefix {sqlite3SrcListDelete(pParse->db, $$);}
ad3cab52Sdrh%type from {SrcList*}
633e6d57Sdrh%destructor from {sqlite3SrcListDelete(pParse->db, $$);}
348784efSdrh
01f3f253Sdrh// A complete FROM clause.
01f3f253Sdrh//
17435752Sdrhfrom(A) ::= .                {A = sqlite3DbMallocZero(pParse->db, sizeof(*A));}
61dfc31dSdrhfrom(A) ::= FROM seltablist(X).  {
61dfc31dSdrh  A = X;
61dfc31dSdrh  sqlite3SrcListShiftJoinType(A);
61dfc31dSdrh}
01f3f253Sdrh
01f3f253Sdrh// "seltablist" is a "Select Table List" - the content of the FROM clause
01f3f253Sdrh// in a SELECT statement.  "stl_prefix" is a prefix of this list.
01f3f253Sdrh//
01f3f253Sdrhstl_prefix(A) ::= seltablist(X) joinop(Y).    {
01f3f253Sdrh   A = X;
01f3f253Sdrh   if( A && A->nSrc>0 ) A->a[A->nSrc-1].jointype = Y;
01f3f253Sdrh}
348784efSdrhstl_prefix(A) ::= .                           {A = 0;}
85574e31Sdanielk1977seltablist(A) ::= stl_prefix(X) nm(Y) dbnm(D) as(Z) indexed_opt(I) on_opt(N) using_opt(U). {
b1c685b0Sdanielk1977  A = sqlite3SrcListAppendFromTerm(pParse,X,&Y,&D,&Z,0,N,U);
b1c685b0Sdanielk1977  sqlite3SrcListIndexedBy(pParse, A, &I);
01f3f253Sdrh}
51522cd3Sdrh%ifndef SQLITE_OMIT_SUBQUERY
b733d037Sdrh  seltablist(A) ::= stl_prefix(X) LP seltablist_paren(S) RP
b733d037Sdrh                    as(Z) on_opt(N) using_opt(U). {
b1c685b0Sdanielk1977    A = sqlite3SrcListAppendFromTerm(pParse,X,0,0,&Z,S,N,U);
22f70c32Sdrh  }
348784efSdrh
b733d037Sdrh  // A seltablist_paren nonterminal represents anything in a FROM that
b733d037Sdrh  // is contained inside parentheses.  This can be either a subquery or
b733d037Sdrh  // a grouping of table and subqueries.
b733d037Sdrh  //
b733d037Sdrh  %type seltablist_paren {Select*}
633e6d57Sdrh  %destructor seltablist_paren {sqlite3SelectDelete(pParse->db, $$);}
b733d037Sdrh  seltablist_paren(A) ::= select(S).      {A = S;}
b733d037Sdrh  seltablist_paren(A) ::= seltablist(F).  {
61dfc31dSdrh     sqlite3SrcListShiftJoinType(F);
17435752Sdrh     A = sqlite3SelectNew(pParse,0,F,0,0,0,0,0,0,0);
b733d037Sdrh  }
154d4b24Sdrh%endif  SQLITE_OMIT_SUBQUERY
b733d037Sdrh
113088ecSdrh%type dbnm {Token}
113088ecSdrhdbnm(A) ::= .          {A.z=0; A.n=0;}
113088ecSdrhdbnm(A) ::= DOT nm(X). {A = X;}
113088ecSdrh
74ad7fe9Sdrh%type fullname {SrcList*}
633e6d57Sdrh%destructor fullname {sqlite3SrcListDelete(pParse->db, $$);}
17435752Sdrhfullname(A) ::= nm(X) dbnm(Y).  {A = sqlite3SrcListAppend(pParse->db,0,&X,&Y);}
74ad7fe9Sdrh
01f3f253Sdrh%type joinop {int}
01f3f253Sdrh%type joinop2 {int}
fd405314Sdrhjoinop(X) ::= COMMA|JOIN.              { X = JT_INNER; }
4adee20fSdanielk1977joinop(X) ::= JOIN_KW(A) JOIN.         { X = sqlite3JoinType(pParse,&A,0,0); }
4adee20fSdanielk1977joinop(X) ::= JOIN_KW(A) nm(B) JOIN.   { X = sqlite3JoinType(pParse,&A,&B,0); }
5ad1a6c8Sdrhjoinop(X) ::= JOIN_KW(A) nm(B) nm(C) JOIN.
4adee20fSdanielk1977                                       { X = sqlite3JoinType(pParse,&A,&B,&C); }
01f3f253Sdrh
01f3f253Sdrh%type on_opt {Expr*}
633e6d57Sdrh%destructor on_opt {sqlite3ExprDelete(pParse->db, $$);}
01f3f253Sdrhon_opt(N) ::= ON expr(E).   {N = E;}
01f3f253Sdrhon_opt(N) ::= .             {N = 0;}
01f3f253Sdrh
85574e31Sdanielk1977// Note that this block abuses the Token type just a little. If there is
85574e31Sdanielk1977// no "INDEXED BY" clause, the returned token is empty (z==0 && n==0). If
85574e31Sdanielk1977// there is an INDEXED BY clause, then the token is populated as per normal,
85574e31Sdanielk1977// with z pointing to the token data and n containing the number of bytes
85574e31Sdanielk1977// in the token.
85574e31Sdanielk1977//
85574e31Sdanielk1977// If there is a "NOT INDEXED" clause, then (z==0 && n==1), which is
b1c685b0Sdanielk1977// normally illegal. The sqlite3SrcListIndexedBy() function
85574e31Sdanielk1977// recognizes and interprets this as a special case.
85574e31Sdanielk1977//
85574e31Sdanielk1977%type indexed_opt {Token}
85574e31Sdanielk1977indexed_opt(A) ::= .                 {A.z=0; A.n=0;}
85574e31Sdanielk1977indexed_opt(A) ::= INDEXED BY nm(X). {A = X;}
85574e31Sdanielk1977indexed_opt(A) ::= NOT INDEXED.      {A.z=0; A.n=1;}
85574e31Sdanielk1977
01f3f253Sdrh%type using_opt {IdList*}
633e6d57Sdrh%destructor using_opt {sqlite3IdListDelete(pParse->db, $$);}
0202b29eSdanielk1977using_opt(U) ::= USING LP inscollist(L) RP.  {U = L;}
01f3f253Sdrhusing_opt(U) ::= .                        {U = 0;}
01f3f253Sdrh
01f3f253Sdrh
348784efSdrh%type orderby_opt {ExprList*}
633e6d57Sdrh%destructor orderby_opt {sqlite3ExprListDelete(pParse->db, $$);}
348784efSdrh%type sortlist {ExprList*}
633e6d57Sdrh%destructor sortlist {sqlite3ExprListDelete(pParse->db, $$);}
348784efSdrh%type sortitem {Expr*}
633e6d57Sdrh%destructor sortitem {sqlite3ExprDelete(pParse->db, $$);}
348784efSdrh
348784efSdrhorderby_opt(A) ::= .                          {A = 0;}
348784efSdrhorderby_opt(A) ::= ORDER BY sortlist(X).      {A = X;}
8b4c40d8Sdrhsortlist(A) ::= sortlist(X) COMMA sortitem(Y) sortorder(Z). {
17435752Sdrh  A = sqlite3ExprListAppend(pParse,X,Y,0);
d3d39e93Sdrh  if( A ) A->a[A->nExpr-1].sortOrder = Z;
348784efSdrh}
8b4c40d8Sdrhsortlist(A) ::= sortitem(Y) sortorder(Z). {
17435752Sdrh  A = sqlite3ExprListAppend(pParse,0,Y,0);
96fb0dd5Sdanielk1977  if( A && A->a ) A->a[0].sortOrder = Z;
348784efSdrh}
da9d6c45Sdrhsortitem(A) ::= expr(X).   {A = X;}
348784efSdrh
348784efSdrh%type sortorder {int}
348784efSdrh
8e2ca029Sdrhsortorder(A) ::= ASC.           {A = SQLITE_SO_ASC;}
8e2ca029Sdrhsortorder(A) ::= DESC.          {A = SQLITE_SO_DESC;}
8e2ca029Sdrhsortorder(A) ::= .              {A = SQLITE_SO_ASC;}
348784efSdrh
2282792aSdrh%type groupby_opt {ExprList*}
633e6d57Sdrh%destructor groupby_opt {sqlite3ExprListDelete(pParse->db, $$);}
2282792aSdrhgroupby_opt(A) ::= .                      {A = 0;}
9245c243Sdrhgroupby_opt(A) ::= GROUP BY nexprlist(X). {A = X;}
2282792aSdrh
2282792aSdrh%type having_opt {Expr*}
633e6d57Sdrh%destructor having_opt {sqlite3ExprDelete(pParse->db, $$);}
2282792aSdrhhaving_opt(A) ::= .                {A = 0;}
2282792aSdrhhaving_opt(A) ::= HAVING expr(X).  {A = X;}
2282792aSdrh
ad3cab52Sdrh%type limit_opt {struct LimitVal}
15926590Sdrh
15926590Sdrh// The destructor for limit_opt will never fire in the current grammar.
15926590Sdrh// The limit_opt non-terminal only occurs at the end of a single production
15926590Sdrh// rule for SELECT statements.  As soon as the rule that create the
15926590Sdrh// limit_opt non-terminal reduces, the SELECT statement rule will also
15926590Sdrh// reduce.  So there is never a limit_opt non-terminal on the stack
15926590Sdrh// except as a transient.  So there is never anything to destroy.
15926590Sdrh//
15926590Sdrh//%destructor limit_opt {
633e6d57Sdrh//  sqlite3ExprDelete(pParse->db, $$.pLimit);
633e6d57Sdrh//  sqlite3ExprDelete(pParse->db, $$.pOffset);
15926590Sdrh//}
a2dc3b1aSdanielk1977limit_opt(A) ::= .                     {A.pLimit = 0; A.pOffset = 0;}
a2dc3b1aSdanielk1977limit_opt(A) ::= LIMIT expr(X).        {A.pLimit = X; A.pOffset = 0;}
a2dc3b1aSdanielk1977limit_opt(A) ::= LIMIT expr(X) OFFSET expr(Y).
a2dc3b1aSdanielk1977                                       {A.pLimit = X; A.pOffset = Y;}
a2dc3b1aSdanielk1977limit_opt(A) ::= LIMIT expr(X) COMMA expr(Y).
a2dc3b1aSdanielk1977                                       {A.pOffset = X; A.pLimit = Y;}
9bbca4c1Sdrh
382c0247Sdrh/////////////////////////// The DELETE statement /////////////////////////////
382c0247Sdrh//
273f619bSshane%ifdef SQLITE_ENABLE_UPDATE_DELETE_LIMIT
931577f1Sdrhcmd ::= DELETE FROM fullname(X) indexed_opt(I) where_opt(W)
931577f1Sdrh        orderby_opt(O) limit_opt(L). {
b1c685b0Sdanielk1977  sqlite3SrcListIndexedBy(pParse, X, &I);
*49ffdbf4Sshane  W = sqlite3LimitWhere(pParse, X, W, O, L.pLimit, L.pOffset, "DELETE");
4281bd42Sshane  sqlite3DeleteFrom(pParse,X,W);
4281bd42Sshane}
4281bd42Sshane%endif
273f619bSshane%ifndef SQLITE_ENABLE_UPDATE_DELETE_LIMIT
4281bd42Sshanecmd ::= DELETE FROM fullname(X) indexed_opt(I) where_opt(W). {
4281bd42Sshane  sqlite3SrcListIndexedBy(pParse, X, &I);
4281bd42Sshane  sqlite3DeleteFrom(pParse,X,W);
4281bd42Sshane}
4281bd42Sshane%endif
348784efSdrh
348784efSdrh%type where_opt {Expr*}
633e6d57Sdrh%destructor where_opt {sqlite3ExprDelete(pParse->db, $$);}
348784efSdrh
348784efSdrhwhere_opt(A) ::= .                    {A = 0;}
348784efSdrhwhere_opt(A) ::= WHERE expr(X).       {A = X;}
348784efSdrh
382c0247Sdrh////////////////////////// The UPDATE command ////////////////////////////////
382c0247Sdrh//
273f619bSshane%ifdef SQLITE_ENABLE_UPDATE_DELETE_LIMIT
4281bd42Sshanecmd ::= UPDATE orconf(R) fullname(X) indexed_opt(I) SET setlist(Y) where_opt(W) orderby_opt(O) limit_opt(L).  {
b1c685b0Sdanielk1977  sqlite3SrcListIndexedBy(pParse, X, &I);
b1a6c3c1Sdrh  sqlite3ExprListCheckLength(pParse,Y,"set list");
*49ffdbf4Sshane  W = sqlite3LimitWhere(pParse, X, W, O, L.pLimit, L.pOffset, "UPDATE");
4281bd42Sshane  sqlite3Update(pParse,X,Y,W,R);
4281bd42Sshane}
4281bd42Sshane%endif
273f619bSshane%ifndef SQLITE_ENABLE_UPDATE_DELETE_LIMIT
4281bd42Sshanecmd ::= UPDATE orconf(R) fullname(X) indexed_opt(I) SET setlist(Y) where_opt(W).  {
4281bd42Sshane  sqlite3SrcListIndexedBy(pParse, X, &I);
4281bd42Sshane  sqlite3ExprListCheckLength(pParse,Y,"set list");
4281bd42Sshane  sqlite3Update(pParse,X,Y,W,R);
4281bd42Sshane}
4281bd42Sshane%endif
348784efSdrh
f8db1bc0Sdrh%type setlist {ExprList*}
633e6d57Sdrh%destructor setlist {sqlite3ExprListDelete(pParse->db, $$);}
f8db1bc0Sdrh
5ad1a6c8Sdrhsetlist(A) ::= setlist(Z) COMMA nm(X) EQ expr(Y).
17435752Sdrh    {A = sqlite3ExprListAppend(pParse,Z,Y,&X);}
17435752Sdrhsetlist(A) ::= nm(X) EQ expr(Y).
17435752Sdrh    {A = sqlite3ExprListAppend(pParse,0,Y,&X);}
348784efSdrh
382c0247Sdrh////////////////////////// The INSERT command /////////////////////////////////
382c0247Sdrh//
74ad7fe9Sdrhcmd ::= insert_cmd(R) INTO fullname(X) inscollist_opt(F)
113088ecSdrh        VALUES LP itemlist(Y) RP.
74ad7fe9Sdrh            {sqlite3Insert(pParse, X, Y, 0, F, R);}
74ad7fe9Sdrhcmd ::= insert_cmd(R) INTO fullname(X) inscollist_opt(F) select(S).
74ad7fe9Sdrh            {sqlite3Insert(pParse, X, 0, S, F, R);}
147d0cccSdrhcmd ::= insert_cmd(R) INTO fullname(X) inscollist_opt(F) DEFAULT VALUES.
147d0cccSdrh            {sqlite3Insert(pParse, X, 0, 0, F, R);}
348784efSdrh
fa86c412Sdrh%type insert_cmd {int}
fa86c412Sdrhinsert_cmd(A) ::= INSERT orconf(R).   {A = R;}
fa86c412Sdrhinsert_cmd(A) ::= REPLACE.            {A = OE_Replace;}
fa86c412Sdrh
348784efSdrh
348784efSdrh%type itemlist {ExprList*}
633e6d57Sdrh%destructor itemlist {sqlite3ExprListDelete(pParse->db, $$);}
348784efSdrh
17435752Sdrhitemlist(A) ::= itemlist(X) COMMA expr(Y).
17435752Sdrh    {A = sqlite3ExprListAppend(pParse,X,Y,0);}
17435752Sdrhitemlist(A) ::= expr(X).
17435752Sdrh    {A = sqlite3ExprListAppend(pParse,0,X,0);}
348784efSdrh
967e8b73Sdrh%type inscollist_opt {IdList*}
633e6d57Sdrh%destructor inscollist_opt {sqlite3IdListDelete(pParse->db, $$);}
967e8b73Sdrh%type inscollist {IdList*}
633e6d57Sdrh%destructor inscollist {sqlite3IdListDelete(pParse->db, $$);}
348784efSdrh
967e8b73Sdrhinscollist_opt(A) ::= .                       {A = 0;}
967e8b73Sdrhinscollist_opt(A) ::= LP inscollist(X) RP.    {A = X;}
17435752Sdrhinscollist(A) ::= inscollist(X) COMMA nm(Y).
17435752Sdrh    {A = sqlite3IdListAppend(pParse->db,X,&Y);}
17435752Sdrhinscollist(A) ::= nm(Y).
17435752Sdrh    {A = sqlite3IdListAppend(pParse->db,0,&Y);}
348784efSdrh
382c0247Sdrh/////////////////////////// Expression Processing /////////////////////////////
382c0247Sdrh//
348784efSdrh
348784efSdrh%type expr {Expr*}
633e6d57Sdrh%destructor expr {sqlite3ExprDelete(pParse->db, $$);}
7977a17fSdanielk1977%type term {Expr*}
633e6d57Sdrh%destructor term {sqlite3ExprDelete(pParse->db, $$);}
348784efSdrh
7977a17fSdanielk1977expr(A) ::= term(X).             {A = X;}
752e679aSdanielk1977expr(A) ::= LP(B) expr(X) RP(E). {A = X; sqlite3ExprSpan(A,&B,&E); }
17435752Sdrhterm(A) ::= NULL(X).             {A = sqlite3PExpr(pParse, @X, 0, 0, &X);}
17435752Sdrhexpr(A) ::= ID(X).               {A = sqlite3PExpr(pParse, TK_ID, 0, 0, &X);}
17435752Sdrhexpr(A) ::= JOIN_KW(X).          {A = sqlite3PExpr(pParse, TK_ID, 0, 0, &X);}
5ad1a6c8Sdrhexpr(A) ::= nm(X) DOT nm(Y). {
17435752Sdrh  Expr *temp1 = sqlite3PExpr(pParse, TK_ID, 0, 0, &X);
17435752Sdrh  Expr *temp2 = sqlite3PExpr(pParse, TK_ID, 0, 0, &Y);
17435752Sdrh  A = sqlite3PExpr(pParse, TK_DOT, temp1, temp2, 0);
e1b6a5b8Sdrh}
d24cc427Sdrhexpr(A) ::= nm(X) DOT nm(Y) DOT nm(Z). {
17435752Sdrh  Expr *temp1 = sqlite3PExpr(pParse, TK_ID, 0, 0, &X);
17435752Sdrh  Expr *temp2 = sqlite3PExpr(pParse, TK_ID, 0, 0, &Y);
17435752Sdrh  Expr *temp3 = sqlite3PExpr(pParse, TK_ID, 0, 0, &Z);
17435752Sdrh  Expr *temp4 = sqlite3PExpr(pParse, TK_DOT, temp2, temp3, 0);
17435752Sdrh  A = sqlite3PExpr(pParse, TK_DOT, temp1, temp4, 0);
d24cc427Sdrh}
17435752Sdrhterm(A) ::= INTEGER|FLOAT|BLOB(X).  {A = sqlite3PExpr(pParse, @X, 0, 0, &X);}
17435752Sdrhterm(A) ::= STRING(X).       {A = sqlite3PExpr(pParse, @X, 0, 0, &X);}
4e0cff60Sdrhexpr(A) ::= REGISTER(X).     {A = sqlite3RegisterExpr(pParse, &X);}
7c972decSdrhexpr(A) ::= VARIABLE(X).     {
895d7472Sdrh  Token *pToken = &X;
17435752Sdrh  Expr *pExpr = A = sqlite3PExpr(pParse, TK_VARIABLE, 0, 0, pToken);
fa6bc000Sdrh  sqlite3ExprAssignVarNumber(pParse, pExpr);
895d7472Sdrh}
39002505Sdanielk1977expr(A) ::= expr(E) COLLATE ids(C). {
8b4c40d8Sdrh  A = sqlite3ExprSetColl(pParse, E, &C);
8b4c40d8Sdrh}
487e262fSdrh%ifndef SQLITE_OMIT_CAST
487e262fSdrhexpr(A) ::= CAST(X) LP expr(E) AS typetoken(T) RP(Y). {
17435752Sdrh  A = sqlite3PExpr(pParse, TK_CAST, E, 0, &T);
487e262fSdrh  sqlite3ExprSpan(A,&X,&Y);
487e262fSdrh}
154d4b24Sdrh%endif  SQLITE_OMIT_CAST
fd357974Sdrhexpr(A) ::= ID(X) LP distinct(D) exprlist(Y) RP(E). {
c9cf901dSdanielk1977  if( Y && Y->nExpr>SQLITE_MAX_FUNCTION_ARG ){
e5c941b8Sdrh    sqlite3ErrorMsg(pParse, "too many arguments on function %T", &X);
4e05c83bSdrh  }
17435752Sdrh  A = sqlite3ExprFunction(pParse, Y, &X);
4adee20fSdanielk1977  sqlite3ExprSpan(A,&X,&E);
8aa34ae0Sdrh  if( D && A ){
fd357974Sdrh    A->flags |= EP_Distinct;
fd357974Sdrh  }
e1b6a5b8Sdrh}
e1b6a5b8Sdrhexpr(A) ::= ID(X) LP STAR RP(E). {
17435752Sdrh  A = sqlite3ExprFunction(pParse, 0, &X);
4adee20fSdanielk1977  sqlite3ExprSpan(A,&X,&E);
e1b6a5b8Sdrh}
b71090fdSdrhterm(A) ::= CTIME_KW(OP). {
b71090fdSdrh  /* The CURRENT_TIME, CURRENT_DATE, and CURRENT_TIMESTAMP values are
b71090fdSdrh  ** treated as functions that return constants */
17435752Sdrh  A = sqlite3ExprFunction(pParse, 0,&OP);
417ec638Sdrh  if( A ){
417ec638Sdrh    A->op = TK_CONST_FUNC;
417ec638Sdrh    A->span = OP;
417ec638Sdrh  }
b71090fdSdrh}
17435752Sdrhexpr(A) ::= expr(X) AND(OP) expr(Y).       {A = sqlite3PExpr(pParse,@OP,X,Y,0);}
17435752Sdrhexpr(A) ::= expr(X) OR(OP) expr(Y).        {A = sqlite3PExpr(pParse,@OP,X,Y,0);}
17435752Sdrhexpr(A) ::= expr(X) LT|GT|GE|LE(OP) expr(Y).
17435752Sdrh                                           {A = sqlite3PExpr(pParse,@OP,X,Y,0);}
17435752Sdrhexpr(A) ::= expr(X) EQ|NE(OP) expr(Y).     {A = sqlite3PExpr(pParse,@OP,X,Y,0);}
fd405314Sdrhexpr(A) ::= expr(X) BITAND|BITOR|LSHIFT|RSHIFT(OP) expr(Y).
17435752Sdrh                                           {A = sqlite3PExpr(pParse,@OP,X,Y,0);}
17435752Sdrhexpr(A) ::= expr(X) PLUS|MINUS(OP) expr(Y).{A = sqlite3PExpr(pParse,@OP,X,Y,0);}
17435752Sdrhexpr(A) ::= expr(X) STAR|SLASH|REM(OP) expr(Y).
17435752Sdrh                                           {A = sqlite3PExpr(pParse,@OP,X,Y,0);}
17435752Sdrhexpr(A) ::= expr(X) CONCAT(OP) expr(Y).    {A = sqlite3PExpr(pParse,@OP,X,Y,0);}
74ad7fe9Sdrh%type likeop {struct LikeOp}
b52076cdSdrhlikeop(A) ::= LIKE_KW(X).     {A.eOperator = X; A.not = 0;}
b52076cdSdrhlikeop(A) ::= NOT LIKE_KW(X). {A.eOperator = X; A.not = 1;}
03bea70cSdrhlikeop(A) ::= MATCH(X).       {A.eOperator = X; A.not = 0;}
03bea70cSdrhlikeop(A) ::= NOT MATCH(X).   {A.eOperator = X; A.not = 1;}
7c6303c0Sdanielk1977%type escape {Expr*}
633e6d57Sdrh%destructor escape {sqlite3ExprDelete(pParse->db, $$);}
7c6303c0Sdanielk1977escape(X) ::= ESCAPE expr(A). [ESCAPE] {X = A;}
7c6303c0Sdanielk1977escape(X) ::= .               [ESCAPE] {X = 0;}
b71090fdSdrhexpr(A) ::= expr(X) likeop(OP) expr(Y) escape(E).  [LIKE_KW]  {
8aa34ae0Sdrh  ExprList *pList;
17435752Sdrh  pList = sqlite3ExprListAppend(pParse,0, Y, 0);
17435752Sdrh  pList = sqlite3ExprListAppend(pParse,pList, X, 0);
7c6303c0Sdanielk1977  if( E ){
17435752Sdrh    pList = sqlite3ExprListAppend(pParse,pList, E, 0);
7c6303c0Sdanielk1977  }
17435752Sdrh  A = sqlite3ExprFunction(pParse, pList, &OP.eOperator);
17435752Sdrh  if( OP.not ) A = sqlite3PExpr(pParse, TK_NOT, A, 0, 0);
4adee20fSdanielk1977  sqlite3ExprSpan(A, &X->span, &Y->span);
6a03a1c5Sdrh  if( A ) A->flags |= EP_InfixFunc;
0ac65892Sdrh}
7c6303c0Sdanielk1977
fd405314Sdrhexpr(A) ::= expr(X) ISNULL|NOTNULL(E). {
17435752Sdrh  A = sqlite3PExpr(pParse, @E, X, 0, 0);
4adee20fSdanielk1977  sqlite3ExprSpan(A,&X->span,&E);
e1b6a5b8Sdrh}
33048c0bSdrhexpr(A) ::= expr(X) IS NULL(E). {
17435752Sdrh  A = sqlite3PExpr(pParse, TK_ISNULL, X, 0, 0);
4adee20fSdanielk1977  sqlite3ExprSpan(A,&X->span,&E);
33048c0bSdrh}
33048c0bSdrhexpr(A) ::= expr(X) NOT NULL(E). {
17435752Sdrh  A = sqlite3PExpr(pParse, TK_NOTNULL, X, 0, 0);
4adee20fSdanielk1977  sqlite3ExprSpan(A,&X->span,&E);
33048c0bSdrh}
81a20f21Sdrhexpr(A) ::= expr(X) IS NOT NULL(E). {
17435752Sdrh  A = sqlite3PExpr(pParse, TK_NOTNULL, X, 0, 0);
4adee20fSdanielk1977  sqlite3ExprSpan(A,&X->span,&E);
81a20f21Sdrh}
e9cf59e3Sdrhexpr(A) ::= NOT(B) expr(X). {
e9cf59e3Sdrh  A = sqlite3PExpr(pParse, @B, X, 0, 0);
e9cf59e3Sdrh  sqlite3ExprSpan(A,&B,&X->span);
e9cf59e3Sdrh}
e9cf59e3Sdrhexpr(A) ::= BITNOT(B) expr(X). {
17435752Sdrh  A = sqlite3PExpr(pParse, @B, X, 0, 0);
4adee20fSdanielk1977  sqlite3ExprSpan(A,&B,&X->span);
81a20f21Sdrh}
e1b6a5b8Sdrhexpr(A) ::= MINUS(B) expr(X). [UMINUS] {
17435752Sdrh  A = sqlite3PExpr(pParse, TK_UMINUS, X, 0, 0);
4adee20fSdanielk1977  sqlite3ExprSpan(A,&B,&X->span);
e1b6a5b8Sdrh}
4b59ab5eSdrhexpr(A) ::= PLUS(B) expr(X). [UPLUS] {
17435752Sdrh  A = sqlite3PExpr(pParse, TK_UPLUS, X, 0, 0);
4adee20fSdanielk1977  sqlite3ExprSpan(A,&B,&X->span);
e1b6a5b8Sdrh}
2e3a1f16Sdrh%type between_op {int}
2e3a1f16Sdrhbetween_op(A) ::= BETWEEN.     {A = 0;}
2e3a1f16Sdrhbetween_op(A) ::= NOT BETWEEN. {A = 1;}
2e3a1f16Sdrhexpr(A) ::= expr(W) between_op(N) expr(X) AND expr(Y). [BETWEEN] {
17435752Sdrh  ExprList *pList = sqlite3ExprListAppend(pParse,0, X, 0);
17435752Sdrh  pList = sqlite3ExprListAppend(pParse,pList, Y, 0);
17435752Sdrh  A = sqlite3PExpr(pParse, TK_BETWEEN, W, 0, 0);
53f733c7Sdrh  if( A ){
53f733c7Sdrh    A->pList = pList;
53f733c7Sdrh  }else{
633e6d57Sdrh    sqlite3ExprListDelete(pParse->db, pList);
53f733c7Sdrh  }
17435752Sdrh  if( N ) A = sqlite3PExpr(pParse, TK_NOT, A, 0, 0);
4adee20fSdanielk1977  sqlite3ExprSpan(A,&W->span,&Y->span);
fef5208cSdrh}
3e8c37e7Sdanielk1977%ifndef SQLITE_OMIT_SUBQUERY
2e3a1f16Sdrh  %type in_op {int}
2e3a1f16Sdrh  in_op(A) ::= IN.      {A = 0;}
2e3a1f16Sdrh  in_op(A) ::= NOT IN.  {A = 1;}
2e3a1f16Sdrh  expr(A) ::= expr(X) in_op(N) LP exprlist(Y) RP(E). [IN] {
17435752Sdrh    A = sqlite3PExpr(pParse, TK_IN, X, 0, 0);
d5d56523Sdanielk1977    if( A ){
d5d56523Sdanielk1977      A->pList = Y;
4b5255acSdanielk1977      sqlite3ExprSetHeight(pParse, A);
d5d56523Sdanielk1977    }else{
633e6d57Sdrh      sqlite3ExprListDelete(pParse->db, Y);
d5d56523Sdanielk1977    }
17435752Sdrh    if( N ) A = sqlite3PExpr(pParse, TK_NOT, A, 0, 0);
4adee20fSdanielk1977    sqlite3ExprSpan(A,&X->span,&E);
fef5208cSdrh  }
51522cd3Sdrh  expr(A) ::= LP(B) select(X) RP(E). {
17435752Sdrh    A = sqlite3PExpr(pParse, TK_SELECT, 0, 0, 0);
53f733c7Sdrh    if( A ){
53f733c7Sdrh      A->pSelect = X;
4b5255acSdanielk1977      sqlite3ExprSetHeight(pParse, A);
53f733c7Sdrh    }else{
633e6d57Sdrh      sqlite3SelectDelete(pParse->db, X);
53f733c7Sdrh    }
51522cd3Sdrh    sqlite3ExprSpan(A,&B,&E);
51522cd3Sdrh  }
2e3a1f16Sdrh  expr(A) ::= expr(X) in_op(N) LP select(Y) RP(E).  [IN] {
17435752Sdrh    A = sqlite3PExpr(pParse, TK_IN, X, 0, 0);
53f733c7Sdrh    if( A ){
53f733c7Sdrh      A->pSelect = Y;
4b5255acSdanielk1977      sqlite3ExprSetHeight(pParse, A);
53f733c7Sdrh    }else{
633e6d57Sdrh      sqlite3SelectDelete(pParse->db, Y);
53f733c7Sdrh    }
17435752Sdrh    if( N ) A = sqlite3PExpr(pParse, TK_NOT, A, 0, 0);
4adee20fSdanielk1977    sqlite3ExprSpan(A,&X->span,&E);
fef5208cSdrh  }
74ad7fe9Sdrh  expr(A) ::= expr(X) in_op(N) nm(Y) dbnm(Z). [IN] {
17435752Sdrh    SrcList *pSrc = sqlite3SrcListAppend(pParse->db, 0,&Y,&Z);
17435752Sdrh    A = sqlite3PExpr(pParse, TK_IN, X, 0, 0);
53f733c7Sdrh    if( A ){
1e536953Sdanielk1977      A->pSelect = sqlite3SelectNew(pParse, 0,pSrc,0,0,0,0,0,0,0);
4b5255acSdanielk1977      sqlite3ExprSetHeight(pParse, A);
53f733c7Sdrh    }else{
633e6d57Sdrh      sqlite3SrcListDelete(pParse->db, pSrc);
53f733c7Sdrh    }
17435752Sdrh    if( N ) A = sqlite3PExpr(pParse, TK_NOT, A, 0, 0);
74ad7fe9Sdrh    sqlite3ExprSpan(A,&X->span,Z.z?&Z:&Y);
23b2db23Sdrh  }
51522cd3Sdrh  expr(A) ::= EXISTS(B) LP select(Y) RP(E). {
17435752Sdrh    Expr *p = A = sqlite3PExpr(pParse, TK_EXISTS, 0, 0, 0);
51522cd3Sdrh    if( p ){
51522cd3Sdrh      p->pSelect = Y;
51522cd3Sdrh      sqlite3ExprSpan(p,&B,&E);
4b5255acSdanielk1977      sqlite3ExprSetHeight(pParse, A);
53f733c7Sdrh    }else{
633e6d57Sdrh      sqlite3SelectDelete(pParse->db, Y);
51522cd3Sdrh    }
51522cd3Sdrh  }
154d4b24Sdrh%endif SQLITE_OMIT_SUBQUERY
fef5208cSdrh
17a7f8ddSdrh/* CASE expressions */
17a7f8ddSdrhexpr(A) ::= CASE(C) case_operand(X) case_exprlist(Y) case_else(Z) END(E). {
17435752Sdrh  A = sqlite3PExpr(pParse, TK_CASE, X, Z, 0);
53f733c7Sdrh  if( A ){
53f733c7Sdrh    A->pList = Y;
4b5255acSdanielk1977    sqlite3ExprSetHeight(pParse, A);
53f733c7Sdrh  }else{
633e6d57Sdrh    sqlite3ExprListDelete(pParse->db, Y);
53f733c7Sdrh  }
4adee20fSdanielk1977  sqlite3ExprSpan(A, &C, &E);
17a7f8ddSdrh}
17a7f8ddSdrh%type case_exprlist {ExprList*}
633e6d57Sdrh%destructor case_exprlist {sqlite3ExprListDelete(pParse->db, $$);}
17a7f8ddSdrhcase_exprlist(A) ::= case_exprlist(X) WHEN expr(Y) THEN expr(Z). {
17435752Sdrh  A = sqlite3ExprListAppend(pParse,X, Y, 0);
17435752Sdrh  A = sqlite3ExprListAppend(pParse,A, Z, 0);
17a7f8ddSdrh}
17a7f8ddSdrhcase_exprlist(A) ::= WHEN expr(Y) THEN expr(Z). {
17435752Sdrh  A = sqlite3ExprListAppend(pParse,0, Y, 0);
17435752Sdrh  A = sqlite3ExprListAppend(pParse,A, Z, 0);
17a7f8ddSdrh}
17a7f8ddSdrh%type case_else {Expr*}
633e6d57Sdrh%destructor case_else {sqlite3ExprDelete(pParse->db, $$);}
17a7f8ddSdrhcase_else(A) ::=  ELSE expr(X).         {A = X;}
17a7f8ddSdrhcase_else(A) ::=  .                     {A = 0;}
17a7f8ddSdrh%type case_operand {Expr*}
633e6d57Sdrh%destructor case_operand {sqlite3ExprDelete(pParse->db, $$);}
17a7f8ddSdrhcase_operand(A) ::= expr(X).            {A = X;}
17a7f8ddSdrhcase_operand(A) ::= .                   {A = 0;}
348784efSdrh
348784efSdrh%type exprlist {ExprList*}
633e6d57Sdrh%destructor exprlist {sqlite3ExprListDelete(pParse->db, $$);}
9245c243Sdrh%type nexprlist {ExprList*}
633e6d57Sdrh%destructor nexprlist {sqlite3ExprListDelete(pParse->db, $$);}
348784efSdrh
9245c243Sdrhexprlist(A) ::= nexprlist(X).                {A = X;}
9245c243Sdrhexprlist(A) ::= .                            {A = 0;}
17435752Sdrhnexprlist(A) ::= nexprlist(X) COMMA expr(Y).
17435752Sdrh    {A = sqlite3ExprListAppend(pParse,X,Y,0);}
17435752Sdrhnexprlist(A) ::= expr(Y).
17435752Sdrh    {A = sqlite3ExprListAppend(pParse,0,Y,0);}
9245c243Sdrh
cce7d176Sdrh
382c0247Sdrh///////////////////////////// The CREATE INDEX command ///////////////////////
382c0247Sdrh//
4d91a701Sdrhcmd ::= CREATE(S) uniqueflag(U) INDEX ifnotexists(NE) nm(X) dbnm(D)
77e96d14Sdrh        ON nm(Y) LP idxlist(Z) RP(E). {
17435752Sdrh  sqlite3CreateIndex(pParse, &X, &D,
17435752Sdrh                     sqlite3SrcListAppend(pParse->db,0,&Y,0), Z, U,
4d91a701Sdrh                      &S, &E, SQLITE_SO_ASC, NE);
9cfcf5d4Sdrh}
717e6402Sdrh
717e6402Sdrh%type uniqueflag {int}
9cfcf5d4Sdrhuniqueflag(A) ::= UNIQUE.  {A = OE_Abort;}
9cfcf5d4Sdrhuniqueflag(A) ::= .        {A = OE_None;}
348784efSdrh
0202b29eSdanielk1977%type idxlist {ExprList*}
633e6d57Sdrh%destructor idxlist {sqlite3ExprListDelete(pParse->db, $$);}
0202b29eSdanielk1977%type idxlist_opt {ExprList*}
633e6d57Sdrh%destructor idxlist_opt {sqlite3ExprListDelete(pParse->db, $$);}
348784efSdrh
c2eef3b3Sdrhidxlist_opt(A) ::= .                         {A = 0;}
c2eef3b3Sdrhidxlist_opt(A) ::= LP idxlist(X) RP.         {A = X;}
200a81dcSdrhidxlist(A) ::= idxlist(X) COMMA nm(Y) collate(C) sortorder(Z).  {
0202b29eSdanielk1977  Expr *p = 0;
0202b29eSdanielk1977  if( C.n>0 ){
17435752Sdrh    p = sqlite3PExpr(pParse, TK_COLUMN, 0, 0, 0);
39002505Sdanielk1977    sqlite3ExprSetColl(pParse, p, &C);
0202b29eSdanielk1977  }
17435752Sdrh  A = sqlite3ExprListAppend(pParse,X, p, &Y);
b1a6c3c1Sdrh  sqlite3ExprListCheckLength(pParse, A, "index");
fdd6e85aSdrh  if( A ) A->a[A->nExpr-1].sortOrder = Z;
0202b29eSdanielk1977}
200a81dcSdrhidxlist(A) ::= nm(Y) collate(C) sortorder(Z). {
0202b29eSdanielk1977  Expr *p = 0;
0202b29eSdanielk1977  if( C.n>0 ){
17435752Sdrh    p = sqlite3PExpr(pParse, TK_COLUMN, 0, 0, 0);
39002505Sdanielk1977    sqlite3ExprSetColl(pParse, p, &C);
0202b29eSdanielk1977  }
17435752Sdrh  A = sqlite3ExprListAppend(pParse,0, p, &Y);
b1a6c3c1Sdrh  sqlite3ExprListCheckLength(pParse, A, "index");
fdd6e85aSdrh  if( A ) A->a[A->nExpr-1].sortOrder = Z;
0202b29eSdanielk1977}
0202b29eSdanielk1977
a34001c9Sdrh%type collate {Token}
a34001c9Sdrhcollate(C) ::= .                {C.z = 0; C.n = 0;}
39002505Sdanielk1977collate(C) ::= COLLATE ids(X).   {C = X;}
a34001c9Sdrh
348784efSdrh
8aff1015Sdrh///////////////////////////// The DROP INDEX command /////////////////////////
382c0247Sdrh//
4d91a701Sdrhcmd ::= DROP INDEX ifexists(E) fullname(X).   {sqlite3DropIndex(pParse, X, E);}
982cef7eSdrh
382c0247Sdrh///////////////////////////// The VACUUM command /////////////////////////////
382c0247Sdrh//
154d4b24Sdrh%ifndef SQLITE_OMIT_VACUUM
fdbcdee5Sdrh%ifndef SQLITE_OMIT_ATTACH
74161705Sdrhcmd ::= VACUUM.                {sqlite3Vacuum(pParse);}
74161705Sdrhcmd ::= VACUUM nm.             {sqlite3Vacuum(pParse);}
fdbcdee5Sdrh%endif  SQLITE_OMIT_ATTACH
154d4b24Sdrh%endif  SQLITE_OMIT_VACUUM
f57b14a6Sdrh
382c0247Sdrh///////////////////////////// The PRAGMA command /////////////////////////////
382c0247Sdrh//
04e86f4dSshane%ifndef SQLITE_OMIT_PARSER
13d7042aSdrh%ifndef SQLITE_OMIT_PRAGMA
a3eb4b44Sdrhcmd ::= PRAGMA nm(X) dbnm(Z) EQ nmnum(Y).   {sqlite3Pragma(pParse,&X,&Z,&Y,0);}
91cf71b0Sdanielk1977cmd ::= PRAGMA nm(X) dbnm(Z) EQ ON(Y).      {sqlite3Pragma(pParse,&X,&Z,&Y,0);}
fdc40e91Sdrhcmd ::= PRAGMA nm(X) dbnm(Z) EQ DELETE(Y).  {sqlite3Pragma(pParse,&X,&Z,&Y,0);}
91cf71b0Sdanielk1977cmd ::= PRAGMA nm(X) dbnm(Z) EQ minus_num(Y). {
91cf71b0Sdanielk1977  sqlite3Pragma(pParse,&X,&Z,&Y,1);
91cf71b0Sdanielk1977}
a3eb4b44Sdrhcmd ::= PRAGMA nm(X) dbnm(Z) LP nmnum(Y) RP. {sqlite3Pragma(pParse,&X,&Z,&Y,0);}
91cf71b0Sdanielk1977cmd ::= PRAGMA nm(X) dbnm(Z).             {sqlite3Pragma(pParse,&X,&Z,0,0);}
a3eb4b44Sdrhnmnum(A) ::= plus_num(X).             {A = X;}
a3eb4b44Sdrhnmnum(A) ::= nm(X).                   {A = X;}
154d4b24Sdrh%endif SQLITE_OMIT_PRAGMA
04e86f4dSshane%endif SQLITE_OMIT_PARSER
f57b14a6Sdrhplus_num(A) ::= plus_opt number(X).   {A = X;}
f57b14a6Sdrhminus_num(A) ::= MINUS number(X).     {A = X;}
fd405314Sdrhnumber(A) ::= INTEGER|FLOAT(X).       {A = X;}
f57b14a6Sdrhplus_opt ::= PLUS.
f57b14a6Sdrhplus_opt ::= .
c3f9bad2Sdanielk1977
c3f9bad2Sdanielk1977//////////////////////////// The CREATE TRIGGER command /////////////////////
f0f258b1Sdrh
b7f9164eSdrh%ifndef SQLITE_OMIT_TRIGGER
b7f9164eSdrh
3df6b257Sdanielk1977cmd ::= CREATE trigger_decl(A) BEGIN trigger_cmd_list(S) END(Z). {
4b59ab5eSdrh  Token all;
4b59ab5eSdrh  all.z = A.z;
4b59ab5eSdrh  all.n = (Z.z - A.z) + Z.n;
4adee20fSdanielk1977  sqlite3FinishTrigger(pParse, S, &all);
f0f258b1Sdrh}
f0f258b1Sdrh
fdd48a76Sdrhtrigger_decl(A) ::= temp(T) TRIGGER ifnotexists(NOERR) nm(B) dbnm(Z)
fdd48a76Sdrh                    trigger_time(C) trigger_event(D)
60218d2aSdrh                    ON fullname(E) foreach_clause when_clause(G). {
60218d2aSdrh  sqlite3BeginTrigger(pParse, &B, &Z, C, D.a, D.b, E, G, T, NOERR);
3df6b257Sdanielk1977  A = (Z.n==0?B:Z);
c3f9bad2Sdanielk1977}
c3f9bad2Sdanielk1977
c3f9bad2Sdanielk1977%type trigger_time {int}
c3f9bad2Sdanielk1977trigger_time(A) ::= BEFORE.      { A = TK_BEFORE; }
c3f9bad2Sdanielk1977trigger_time(A) ::= AFTER.       { A = TK_AFTER;  }
c3f9bad2Sdanielk1977trigger_time(A) ::= INSTEAD OF.  { A = TK_INSTEAD;}
c3f9bad2Sdanielk1977trigger_time(A) ::= .            { A = TK_BEFORE; }
c3f9bad2Sdanielk1977
ad3cab52Sdrh%type trigger_event {struct TrigEvent}
633e6d57Sdrh%destructor trigger_event {sqlite3IdListDelete(pParse->db, $$.b);}
fd405314Sdrhtrigger_event(A) ::= DELETE|INSERT(OP).       {A.a = @OP; A.b = 0;}
74ad7fe9Sdrhtrigger_event(A) ::= UPDATE(OP).              {A.a = @OP; A.b = 0;}
c3f9bad2Sdanielk1977trigger_event(A) ::= UPDATE OF inscollist(X). {A.a = TK_UPDATE; A.b = X;}
c3f9bad2Sdanielk1977
60218d2aSdrhforeach_clause ::= .
60218d2aSdrhforeach_clause ::= FOR EACH ROW.
c3f9bad2Sdanielk1977
c3f9bad2Sdanielk1977%type when_clause {Expr*}
633e6d57Sdrh%destructor when_clause {sqlite3ExprDelete(pParse->db, $$);}
c3f9bad2Sdanielk1977when_clause(A) ::= .             { A = 0; }
c3f9bad2Sdanielk1977when_clause(A) ::= WHEN expr(X). { A = X; }
c3f9bad2Sdanielk1977
c3f9bad2Sdanielk1977%type trigger_cmd_list {TriggerStep*}
633e6d57Sdrh%destructor trigger_cmd_list {sqlite3DeleteTriggerStep(pParse->db, $$);}
187e4c6aSdrhtrigger_cmd_list(A) ::= trigger_cmd_list(Y) trigger_cmd(X) SEMI. {
81238966Sdrh/*
187e4c6aSdrh  if( Y ){
187e4c6aSdrh    Y->pLast->pNext = X;
187e4c6aSdrh  }else{
187e4c6aSdrh    Y = X;
187e4c6aSdrh  }
81238966Sdrh*/
81238966Sdrh  assert( Y!=0 );
81238966Sdrh  Y->pLast->pNext = X;
187e4c6aSdrh  Y->pLast = X;
187e4c6aSdrh  A = Y;
a69d9168Sdrh}
81238966Sdrhtrigger_cmd_list(A) ::= trigger_cmd(X) SEMI. {
81238966Sdrh  /* if( X ) */
81238966Sdrh  assert( X!=0 );
81238966Sdrh  X->pLast = X;
81238966Sdrh  A = X;
81238966Sdrh}
c3f9bad2Sdanielk1977
c3f9bad2Sdanielk1977%type trigger_cmd {TriggerStep*}
633e6d57Sdrh%destructor trigger_cmd {sqlite3DeleteTriggerStep(pParse->db, $$);}
c3f9bad2Sdanielk1977// UPDATE
5ad1a6c8Sdrhtrigger_cmd(A) ::= UPDATE orconf(R) nm(X) SET setlist(Y) where_opt(Z).
17435752Sdrh               { A = sqlite3TriggerUpdateStep(pParse->db, &X, Y, Z, R); }
c3f9bad2Sdanielk1977
c3f9bad2Sdanielk1977// INSERT
3054efeeSdrhtrigger_cmd(A) ::= insert_cmd(R) INTO nm(X) inscollist_opt(F)
c3f9bad2Sdanielk1977                   VALUES LP itemlist(Y) RP.
17435752Sdrh               {A = sqlite3TriggerInsertStep(pParse->db, &X, F, Y, 0, R);}
c3f9bad2Sdanielk1977
3054efeeSdrhtrigger_cmd(A) ::= insert_cmd(R) INTO nm(X) inscollist_opt(F) select(S).
17435752Sdrh               {A = sqlite3TriggerInsertStep(pParse->db, &X, F, 0, S, R);}
c3f9bad2Sdanielk1977
c3f9bad2Sdanielk1977// DELETE
5ad1a6c8Sdrhtrigger_cmd(A) ::= DELETE FROM nm(X) where_opt(Y).
17435752Sdrh               {A = sqlite3TriggerDeleteStep(pParse->db, &X, Y);}
c3f9bad2Sdanielk1977
c3f9bad2Sdanielk1977// SELECT
17435752Sdrhtrigger_cmd(A) ::= select(X).  {A = sqlite3TriggerSelectStep(pParse->db, X); }
c3f9bad2Sdanielk1977
6f34903eSdanielk1977// The special RAISE expression that may occur in trigger programs
4b59ab5eSdrhexpr(A) ::= RAISE(X) LP IGNORE RP(Y).  {
17435752Sdrh  A = sqlite3PExpr(pParse, TK_RAISE, 0, 0, 0);
8aa34ae0Sdrh  if( A ){
4b59ab5eSdrh    A->iColumn = OE_Ignore;
4adee20fSdanielk1977    sqlite3ExprSpan(A, &X, &Y);
4b59ab5eSdrh  }
8aa34ae0Sdrh}
74ad7fe9Sdrhexpr(A) ::= RAISE(X) LP raisetype(T) COMMA nm(Z) RP(Y).  {
17435752Sdrh  A = sqlite3PExpr(pParse, TK_RAISE, 0, 0, &Z);
8aa34ae0Sdrh  if( A ) {
74ad7fe9Sdrh    A->iColumn = T;
4adee20fSdanielk1977    sqlite3ExprSpan(A, &X, &Y);
4b59ab5eSdrh  }
8aa34ae0Sdrh}
154d4b24Sdrh%endif  !SQLITE_OMIT_TRIGGER
b7f9164eSdrh
74ad7fe9Sdrh%type raisetype {int}
74ad7fe9Sdrhraisetype(A) ::= ROLLBACK.  {A = OE_Rollback;}
74ad7fe9Sdrhraisetype(A) ::= ABORT.     {A = OE_Abort;}
74ad7fe9Sdrhraisetype(A) ::= FAIL.      {A = OE_Fail;}
74ad7fe9Sdrh
6f34903eSdanielk1977
c3f9bad2Sdanielk1977////////////////////////  DROP TRIGGER statement //////////////////////////////
b7f9164eSdrh%ifndef SQLITE_OMIT_TRIGGER
fdd48a76Sdrhcmd ::= DROP TRIGGER ifexists(NOERR) fullname(X). {
fdd48a76Sdrh  sqlite3DropTrigger(pParse,X,NOERR);
c3f9bad2Sdanielk1977}
154d4b24Sdrh%endif  !SQLITE_OMIT_TRIGGER
113088ecSdrh
113088ecSdrh//////////////////////// ATTACH DATABASE file AS name /////////////////////////
fdbcdee5Sdrh%ifndef SQLITE_OMIT_ATTACH
f744bb56Sdanielk1977cmd ::= ATTACH database_kw_opt expr(F) AS expr(D) key_opt(K). {
f744bb56Sdanielk1977  sqlite3Attach(pParse, F, D, K);
1c2d8414Sdrh}
fdbcdee5Sdrhcmd ::= DETACH database_kw_opt expr(D). {
fdbcdee5Sdrh  sqlite3Detach(pParse, D);
fdbcdee5Sdrh}
fdbcdee5Sdrh
f744bb56Sdanielk1977%type key_opt {Expr*}
633e6d57Sdrh%destructor key_opt {sqlite3ExprDelete(pParse->db, $$);}
f744bb56Sdanielk1977key_opt(A) ::= .                     { A = 0; }
f744bb56Sdanielk1977key_opt(A) ::= KEY expr(X).          { A = X; }
113088ecSdrh
113088ecSdrhdatabase_kw_opt ::= DATABASE.
113088ecSdrhdatabase_kw_opt ::= .
fdbcdee5Sdrh%endif SQLITE_OMIT_ATTACH
4343fea2Sdrh
4343fea2Sdrh////////////////////////// REINDEX collation //////////////////////////////////
4343fea2Sdrh%ifndef SQLITE_OMIT_REINDEX
4343fea2Sdrhcmd ::= REINDEX.                {sqlite3Reindex(pParse, 0, 0);}
4343fea2Sdrhcmd ::= REINDEX nm(X) dbnm(Y).  {sqlite3Reindex(pParse, &X, &Y);}
154d4b24Sdrh%endif  SQLITE_OMIT_REINDEX
9fd2a9a0Sdanielk1977
9f18e8a0Sdrh/////////////////////////////////// ANALYZE ///////////////////////////////////
9f18e8a0Sdrh%ifndef SQLITE_OMIT_ANALYZE
9f18e8a0Sdrhcmd ::= ANALYZE.                {sqlite3Analyze(pParse, 0, 0);}
9f18e8a0Sdrhcmd ::= ANALYZE nm(X) dbnm(Y).  {sqlite3Analyze(pParse, &X, &Y);}
9f18e8a0Sdrh%endif
9f18e8a0Sdrh
9fd2a9a0Sdanielk1977//////////////////////// ALTER TABLE table ... ////////////////////////////////
9fd2a9a0Sdanielk1977%ifndef SQLITE_OMIT_ALTERTABLE
9fd2a9a0Sdanielk1977cmd ::= ALTER TABLE fullname(X) RENAME TO nm(Z). {
9fd2a9a0Sdanielk1977  sqlite3AlterRenameTable(pParse,X,&Z);
9fd2a9a0Sdanielk1977}
19a8e7e8Sdanielk1977cmd ::= ALTER TABLE add_column_fullname ADD kwcolumn_opt column(Y). {
19a8e7e8Sdanielk1977  sqlite3AlterFinishAddColumn(pParse, &Y);
19a8e7e8Sdanielk1977}
19a8e7e8Sdanielk1977add_column_fullname ::= fullname(X). {
19a8e7e8Sdanielk1977  sqlite3AlterBeginAddColumn(pParse, X);
19a8e7e8Sdanielk1977}
19a8e7e8Sdanielk1977kwcolumn_opt ::= .
19a8e7e8Sdanielk1977kwcolumn_opt ::= COLUMNKW.
154d4b24Sdrh%endif  SQLITE_OMIT_ALTERTABLE
e09daa90Sdrh
e09daa90Sdrh//////////////////////// CREATE VIRTUAL TABLE ... /////////////////////////////
e09daa90Sdrh%ifndef SQLITE_OMIT_VIRTUALTABLE
b9bb7c18Sdrhcmd ::= create_vtab.                       {sqlite3VtabFinishParse(pParse,0);}
b9bb7c18Sdrhcmd ::= create_vtab LP vtabarglist RP(X).  {sqlite3VtabFinishParse(pParse,&X);}
b9bb7c18Sdrhcreate_vtab ::= CREATE VIRTUAL TABLE nm(X) dbnm(Y) USING nm(Z). {
b9bb7c18Sdrh    sqlite3VtabBeginParse(pParse, &X, &Y, &Z);
b9bb7c18Sdrh}
e09daa90Sdrhvtabarglist ::= vtabarg.
e09daa90Sdrhvtabarglist ::= vtabarglist COMMA vtabarg.
b9bb7c18Sdrhvtabarg ::= .                       {sqlite3VtabArgInit(pParse);}
b9bb7c18Sdrhvtabarg ::= vtabarg vtabargtoken.
b9bb7c18Sdrhvtabargtoken ::= ANY(X).            {sqlite3VtabArgExtend(pParse,&X);}
b9bb7c18Sdrhvtabargtoken ::= lp anylist RP(X).  {sqlite3VtabArgExtend(pParse,&X);}
b9bb7c18Sdrhlp ::= LP(X).                       {sqlite3VtabArgExtend(pParse,&X);}
b9bb7c18Sdrhanylist ::= .
b9bb7c18Sdrhanylist ::= anylist ANY(X).         {sqlite3VtabArgExtend(pParse,&X);}
154d4b24Sdrh%endif  SQLITE_OMIT_VIRTUALTABLE