sqlite-3.40.0/src/parse.y

348784efSdrh/*
348784efSdrh** Copyright (c) 1999, 2000 D. Richard Hipp
348784efSdrh**
348784efSdrh** This program is free software; you can redistribute it and/or
348784efSdrh** modify it under the terms of the GNU General Public
348784efSdrh** License as published by the Free Software Foundation; either
348784efSdrh** version 2 of the License, or (at your option) any later version.
348784efSdrh**
348784efSdrh** This program is distributed in the hope that it will be useful,
348784efSdrh** but WITHOUT ANY WARRANTY; without even the implied warranty of
348784efSdrh** MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
348784efSdrh** General Public License for more details.
348784efSdrh**
348784efSdrh** You should have received a copy of the GNU General Public
348784efSdrh** License along with this library; if not, write to the
348784efSdrh** Free Software Foundation, Inc., 59 Temple Place - Suite 330,
348784efSdrh** Boston, MA  02111-1307, USA.
348784efSdrh**
348784efSdrh** Author contact information:
348784efSdrh**   [email protected]
348784efSdrh**   http://www.hwaci.com/drh/
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**
*a2e1bb5aSdrh** @(#) $Id: parse.y,v 1.26 2001/01/04 14:20:18 drh Exp $
348784efSdrh*/
348784efSdrh%token_prefix TK_
348784efSdrh%token_type {Token}
348784efSdrh%extra_argument {Parse *pParse}
348784efSdrh%syntax_error {
c837e709Sdrh  sqliteSetString(&pParse->zErrMsg,"syntax error",0);
348784efSdrh  pParse->sErrToken = TOKEN;
348784efSdrh}
348784efSdrh%name sqliteParser
348784efSdrh%include {
348784efSdrh#include "sqliteInt.h"
348784efSdrh#include "parse.h"
348784efSdrh}
348784efSdrh
348784efSdrh
348784efSdrh// Input is zero or more commands.
348784efSdrhinput ::= cmdlist.
348784efSdrh
348784efSdrh// These are extra tokens used by the lexer but never seen by the
348784efSdrh// parser.  We put them in a rule so that the parser generator will
6206d50aSdrh// add them to the parse.h output file.
348784efSdrh//
348784efSdrhinput ::= END_OF_FILE ILLEGAL SPACE UNCLOSED_STRING COMMENT FUNCTION
967e8b73Sdrh          UMINUS COLUMN AGG_FUNCTION.
348784efSdrh
348784efSdrh// A list of commands is zero or more commands
348784efSdrh//
348784efSdrhcmdlist ::= ecmd.
348784efSdrhcmdlist ::= cmdlist SEMI ecmd.
348784efSdrhecmd ::= explain cmd.  {sqliteExec(pParse);}
348784efSdrhecmd ::= cmd.          {sqliteExec(pParse);}
348784efSdrhecmd ::= .
348784efSdrhexplain ::= EXPLAIN.    {pParse->explain = 1;}
348784efSdrh
348784efSdrh// The first form of a command is a CREATE TABLE statement.
348784efSdrh//
348784efSdrhcmd ::= create_table create_table_args.
982cef7eSdrhcreate_table ::= CREATE(X) TABLE id(Y).    {sqliteStartTable(pParse,&X,&Y);}
348784efSdrhcreate_table_args ::= LP columnlist conslist_opt RP(X).
348784efSdrh                                           {sqliteEndTable(pParse,&X);}
348784efSdrhcolumnlist ::= columnlist COMMA column.
348784efSdrhcolumnlist ::= column.
348784efSdrh
348784efSdrh// About the only information used for a column is the name of the
348784efSdrh// column.  The type is always just "text".  But the code will accept
348784efSdrh// an elaborate typename.  Perhaps someday we'll do something with it.
348784efSdrh//
348784efSdrhcolumn ::= columnid type carglist.
982cef7eSdrhcolumnid ::= id(X).                {sqliteAddColumn(pParse,&X);}
982cef7eSdrh%type id {Token}
982cef7eSdrhid(A) ::= ID(X).     {A = X;}
982cef7eSdrhid(A) ::= STRING(X). {A = X;}
348784efSdrhtype ::= typename.
348784efSdrhtype ::= typename LP signed RP.
348784efSdrhtype ::= typename LP signed COMMA signed RP.
4cfa7934Sdrhtypename ::= id.
4cfa7934Sdrhtypename ::= typename id.
348784efSdrhsigned ::= INTEGER.
348784efSdrhsigned ::= PLUS INTEGER.
348784efSdrhsigned ::= MINUS INTEGER.
348784efSdrhcarglist ::= carglist carg.
348784efSdrhcarglist ::= .
4cfa7934Sdrhcarg ::= CONSTRAINT id ccons.
348784efSdrhcarg ::= ccons.
7020f651Sdrhcarg ::= DEFAULT STRING(X).          {sqliteAddDefaultValue(pParse,&X,0);}
7020f651Sdrhcarg ::= DEFAULT ID(X).              {sqliteAddDefaultValue(pParse,&X,0);}
7020f651Sdrhcarg ::= DEFAULT INTEGER(X).         {sqliteAddDefaultValue(pParse,&X,0);}
7020f651Sdrhcarg ::= DEFAULT PLUS INTEGER(X).    {sqliteAddDefaultValue(pParse,&X,0);}
7020f651Sdrhcarg ::= DEFAULT MINUS INTEGER(X).   {sqliteAddDefaultValue(pParse,&X,1);}
7020f651Sdrhcarg ::= DEFAULT FLOAT(X).           {sqliteAddDefaultValue(pParse,&X,0);}
7020f651Sdrhcarg ::= DEFAULT PLUS FLOAT(X).      {sqliteAddDefaultValue(pParse,&X,0);}
7020f651Sdrhcarg ::= DEFAULT MINUS FLOAT(X).     {sqliteAddDefaultValue(pParse,&X,1);}
7020f651Sdrhcarg ::= DEFAULT NULL.
348784efSdrh
348784efSdrh// In addition to the type name, we also care about the primary key.
348784efSdrh//
348784efSdrhccons ::= NOT NULL.
6206d50aSdrhccons ::= PRIMARY KEY sortorder.     {sqliteCreateIndex(pParse,0,0,0,0,0);}
348784efSdrhccons ::= UNIQUE.
4794b980Sdrhccons ::= CHECK LP expr RP.
348784efSdrh
348784efSdrh// For the time being, the only constraint we care about is the primary
348784efSdrh// key.
348784efSdrh//
348784efSdrhconslist_opt ::= .
348784efSdrhconslist_opt ::= COMMA conslist.
348784efSdrhconslist ::= conslist COMMA tcons.
*a2e1bb5aSdrhconslist ::= conslist tcons.
348784efSdrhconslist ::= tcons.
*a2e1bb5aSdrhtcons ::= CONSTRAINT id.
*a2e1bb5aSdrhtcons ::= PRIMARY KEY LP idxlist(X) RP. {sqliteCreateIndex(pParse,0,0,X,0,0);}
*a2e1bb5aSdrhtcons ::= UNIQUE LP idlist RP.
*a2e1bb5aSdrhtcons ::= CHECK expr.
982cef7eSdrhidlist ::= idlist COMMA id.
982cef7eSdrhidlist ::= id.
348784efSdrh
348784efSdrh// The next command format is dropping tables.
348784efSdrh//
982cef7eSdrhcmd ::= DROP TABLE id(X).          {sqliteDropTable(pParse,&X);}
348784efSdrh
348784efSdrh// The select statement
348784efSdrh//
9bb61fe7Sdrhcmd ::= select(X).  {
fef5208cSdrh  sqliteSelect(pParse, X, SRT_Callback, 0);
9bb61fe7Sdrh  sqliteSelectDelete(X);
9bb61fe7Sdrh}
efb7251dSdrh
9bb61fe7Sdrh%type select {Select*}
9bb61fe7Sdrh%destructor select {sqliteSelectDelete($$);}
82c3d636Sdrh%type oneselect {Select*}
82c3d636Sdrh%destructor oneselect {sqliteSelectDelete($$);}
9bb61fe7Sdrh
82c3d636Sdrhselect(A) ::= oneselect(X).                      {A = X;}
82c3d636Sdrhselect(A) ::= select(X) joinop(Y) oneselect(Z).  {
82c3d636Sdrh    Z->op = Y;
82c3d636Sdrh    Z->pPrior = X;
82c3d636Sdrh    A = Z;
82c3d636Sdrh}
82c3d636Sdrh%type joinop {int}
82c3d636Sdrhjoinop(A) ::= UNION.      {A = TK_UNION;}
82c3d636Sdrhjoinop(A) ::= UNION ALL.  {A = TK_ALL;}
82c3d636Sdrhjoinop(A) ::= INTERSECT.  {A = TK_INTERSECT;}
82c3d636Sdrhjoinop(A) ::= EXCEPT.     {A = TK_EXCEPT;}
82c3d636Sdrhoneselect(A) ::= SELECT distinct(D) selcollist(W) from(X) where_opt(Y)
2282792aSdrh                 groupby_opt(P) having_opt(Q) orderby_opt(Z). {
2282792aSdrh  A = sqliteSelectNew(W,X,Y,P,Q,Z,D);
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
9bb61fe7Sdrh// values of the SELECT statement.  In the case of "SELECT * FROM ..."
9bb61fe7Sdrh// the selcollist value is NULL.
9bb61fe7Sdrh//
348784efSdrh%type selcollist {ExprList*}
348784efSdrh%destructor selcollist {sqliteExprListDelete($$);}
348784efSdrh%type sclp {ExprList*}
348784efSdrh%destructor sclp {sqliteExprListDelete($$);}
348784efSdrhsclp(A) ::= selcollist(X) COMMA.             {A = X;}
348784efSdrhsclp(A) ::= .                                {A = 0;}
9bb61fe7Sdrhselcollist(A) ::= STAR.                      {A = 0;}
348784efSdrhselcollist(A) ::= sclp(P) expr(X).           {A = sqliteExprListAppend(P,X,0);}
4cfa7934Sdrhselcollist(A) ::= sclp(P) expr(X) as id(Y).  {A = sqliteExprListAppend(P,X,&Y);}
9bb61fe7Sdrhas ::= .
9bb61fe7Sdrhas ::= AS.
9bb61fe7Sdrh
348784efSdrh
348784efSdrh%type seltablist {IdList*}
348784efSdrh%destructor seltablist {sqliteIdListDelete($$);}
348784efSdrh%type stl_prefix {IdList*}
348784efSdrh%destructor stl_prefix {sqliteIdListDelete($$);}
348784efSdrh%type from {IdList*}
348784efSdrh%destructor from {sqliteIdListDelete($$);}
348784efSdrh
348784efSdrhfrom(A) ::= FROM seltablist(X).               {A = X;}
348784efSdrhstl_prefix(A) ::= seltablist(X) COMMA.        {A = X;}
348784efSdrhstl_prefix(A) ::= .                           {A = 0;}
982cef7eSdrhseltablist(A) ::= stl_prefix(X) id(Y).        {A = sqliteIdListAppend(X,&Y);}
6206d50aSdrhseltablist(A) ::= stl_prefix(X) id(Y) as id(Z).
348784efSdrh   {A = sqliteIdListAppend(X,&Y);
348784efSdrh    sqliteIdListAddAlias(A,&Z);}
348784efSdrh
348784efSdrh%type orderby_opt {ExprList*}
348784efSdrh%destructor orderby_opt {sqliteExprListDelete($$);}
348784efSdrh%type sortlist {ExprList*}
348784efSdrh%destructor sortlist {sqliteExprListDelete($$);}
348784efSdrh%type sortitem {Expr*}
348784efSdrh%destructor sortitem {sqliteExprDelete($$);}
348784efSdrh
348784efSdrhorderby_opt(A) ::= .                          {A = 0;}
348784efSdrhorderby_opt(A) ::= ORDER BY sortlist(X).      {A = X;}
9bb61fe7Sdrhsortlist(A) ::= sortlist(X) COMMA sortitem(Y) sortorder(Z). {
348784efSdrh  A = sqliteExprListAppend(X,Y,0);
d8bc7086Sdrh  A->a[A->nExpr-1].sortOrder = Z;   /* 0 for ascending order, 1 for decending */
348784efSdrh}
9bb61fe7Sdrhsortlist(A) ::= sortitem(Y) sortorder(Z). {
348784efSdrh  A = sqliteExprListAppend(0,Y,0);
d8bc7086Sdrh  A->a[0].sortOrder = Z;
348784efSdrh}
da9d6c45Sdrhsortitem(A) ::= expr(X).   {A = X;}
348784efSdrh
348784efSdrh%type sortorder {int}
348784efSdrh
348784efSdrhsortorder(A) ::= ASC.      {A = 0;}
348784efSdrhsortorder(A) ::= DESC.     {A = 1;}
348784efSdrhsortorder(A) ::= .         {A = 0;}
348784efSdrh
2282792aSdrh%type groupby_opt {ExprList*}
2282792aSdrh%destructor groupby_opt {sqliteExprListDelete($$);}
2282792aSdrhgroupby_opt(A) ::= .                      {A = 0;}
2282792aSdrhgroupby_opt(A) ::= GROUP BY exprlist(X).  {A = X;}
2282792aSdrh
2282792aSdrh%type having_opt {Expr*}
2282792aSdrh%destructor having_opt {sqliteExprDelete($$);}
2282792aSdrhhaving_opt(A) ::= .                {A = 0;}
2282792aSdrhhaving_opt(A) ::= HAVING expr(X).  {A = X;}
2282792aSdrh
82c3d636Sdrh
4cfa7934Sdrhcmd ::= DELETE FROM id(X) where_opt(Y).
348784efSdrh    {sqliteDeleteFrom(pParse, &X, Y);}
348784efSdrh
348784efSdrh%type where_opt {Expr*}
348784efSdrh%destructor where_opt {sqliteExprDelete($$);}
348784efSdrh
348784efSdrhwhere_opt(A) ::= .                    {A = 0;}
348784efSdrhwhere_opt(A) ::= WHERE expr(X).       {A = X;}
348784efSdrh
348784efSdrh%type setlist {ExprList*}
348784efSdrh%destructor setlist {sqliteExprListDelete($$);}
348784efSdrh
4cfa7934Sdrhcmd ::= UPDATE id(X) SET setlist(Y) where_opt(Z).
348784efSdrh    {sqliteUpdate(pParse,&X,Y,Z);}
348784efSdrh
ed380d8cSdrhsetlist(A) ::= setlist(Z) COMMA id(X) EQ expr(Y).
348784efSdrh    {A = sqliteExprListAppend(Z,Y,&X);}
4cfa7934Sdrhsetlist(A) ::= id(X) EQ expr(Y).   {A = sqliteExprListAppend(0,Y,&X);}
348784efSdrh
967e8b73Sdrhcmd ::= INSERT INTO id(X) inscollist_opt(F) VALUES LP itemlist(Y) RP.
5974a30fSdrh               {sqliteInsert(pParse, &X, Y, 0, F);}
967e8b73Sdrhcmd ::= INSERT INTO id(X) inscollist_opt(F) select(S).
5974a30fSdrh               {sqliteInsert(pParse, &X, 0, S, F);}
348784efSdrh
348784efSdrh
348784efSdrh%type itemlist {ExprList*}
348784efSdrh%destructor itemlist {sqliteExprListDelete($$);}
348784efSdrh%type item {Expr*}
348784efSdrh%destructor item {sqliteExprDelete($$);}
348784efSdrh
348784efSdrhitemlist(A) ::= itemlist(X) COMMA item(Y).  {A = sqliteExprListAppend(X,Y,0);}
348784efSdrhitemlist(A) ::= item(X).     {A = sqliteExprListAppend(0,X,0);}
348784efSdrhitem(A) ::= INTEGER(X).      {A = sqliteExpr(TK_INTEGER, 0, 0, &X);}
7020f651Sdrhitem(A) ::= PLUS INTEGER(X). {A = sqliteExpr(TK_INTEGER, 0, 0, &X);}
7020f651Sdrhitem(A) ::= MINUS INTEGER(X). {
6e142f54Sdrh  A = sqliteExpr(TK_UMINUS, 0, 0, 0);
6e142f54Sdrh  A->pLeft = sqliteExpr(TK_INTEGER, 0, 0, &X);
7020f651Sdrh}
348784efSdrhitem(A) ::= FLOAT(X).        {A = sqliteExpr(TK_FLOAT, 0, 0, &X);}
7020f651Sdrhitem(A) ::= PLUS FLOAT(X).   {A = sqliteExpr(TK_FLOAT, 0, 0, &X);}
7020f651Sdrhitem(A) ::= MINUS FLOAT(X).  {
6e142f54Sdrh  A = sqliteExpr(TK_UMINUS, 0, 0, 0);
6e142f54Sdrh  A->pLeft = sqliteExpr(TK_FLOAT, 0, 0, &X);
7020f651Sdrh}
348784efSdrhitem(A) ::= STRING(X).       {A = sqliteExpr(TK_STRING, 0, 0, &X);}
8be51133Sdrhitem(A) ::= NULL.            {A = sqliteExpr(TK_NULL, 0, 0, 0);}
348784efSdrh
967e8b73Sdrh%type inscollist_opt {IdList*}
967e8b73Sdrh%destructor inscollist_opt {sqliteIdListDelete($$);}
967e8b73Sdrh%type inscollist {IdList*}
967e8b73Sdrh%destructor inscollist {sqliteIdListDelete($$);}
348784efSdrh
967e8b73Sdrhinscollist_opt(A) ::= .                      {A = 0;}
967e8b73Sdrhinscollist_opt(A) ::= LP inscollist(X) RP.   {A = X;}
967e8b73Sdrhinscollist(A) ::= inscollist(X) COMMA id(Y). {A = sqliteIdListAppend(X,&Y);}
967e8b73Sdrhinscollist(A) ::= id(Y).                     {A = sqliteIdListAppend(0,&Y);}
348784efSdrh
348784efSdrh%left OR.
348784efSdrh%left AND.
8be51133Sdrh%right NOT.
fef5208cSdrh%left EQ NE ISNULL NOTNULL IS LIKE GLOB BETWEEN IN.
348784efSdrh%left GT GE LT LE.
348784efSdrh%left PLUS MINUS.
31884b0bSdrh%left STAR SLASH.
0040077dSdrh%left CONCAT.
8be51133Sdrh%right UMINUS.
348784efSdrh
348784efSdrh%type expr {Expr*}
348784efSdrh%destructor expr {sqliteExprDelete($$);}
348784efSdrh
e1b6a5b8Sdrhexpr(A) ::= LP(B) expr(X) RP(E). {A = X; sqliteExprSpan(A,&B,&E);}
348784efSdrhexpr(A) ::= ID(X).               {A = sqliteExpr(TK_ID, 0, 0, &X);}
e1b6a5b8Sdrhexpr(A) ::= NULL(X).             {A = sqliteExpr(TK_NULL, 0, 0, &X);}
e1b6a5b8Sdrhexpr(A) ::= id(X) DOT id(Y). {
e1b6a5b8Sdrh  Expr *temp1 = sqliteExpr(TK_ID, 0, 0, &X);
348784efSdrh  Expr *temp2 = sqliteExpr(TK_ID, 0, 0, &Y);
e1b6a5b8Sdrh  A = sqliteExpr(TK_DOT, temp1, temp2, 0);
e1b6a5b8Sdrh}
348784efSdrhexpr(A) ::= INTEGER(X).      {A = sqliteExpr(TK_INTEGER, 0, 0, &X);}
348784efSdrhexpr(A) ::= FLOAT(X).        {A = sqliteExpr(TK_FLOAT, 0, 0, &X);}
348784efSdrhexpr(A) ::= STRING(X).       {A = sqliteExpr(TK_STRING, 0, 0, &X);}
e1b6a5b8Sdrhexpr(A) ::= ID(X) LP exprlist(Y) RP(E). {
e1b6a5b8Sdrh  A = sqliteExprFunction(Y, &X);
e1b6a5b8Sdrh  sqliteExprSpan(A,&X,&E);
e1b6a5b8Sdrh}
e1b6a5b8Sdrhexpr(A) ::= ID(X) LP STAR RP(E). {
e1b6a5b8Sdrh  A = sqliteExprFunction(0, &X);
e1b6a5b8Sdrh  sqliteExprSpan(A,&X,&E);
e1b6a5b8Sdrh}
348784efSdrhexpr(A) ::= expr(X) AND expr(Y).   {A = sqliteExpr(TK_AND, X, Y, 0);}
348784efSdrhexpr(A) ::= expr(X) OR expr(Y).    {A = sqliteExpr(TK_OR, X, Y, 0);}
348784efSdrhexpr(A) ::= expr(X) LT expr(Y).    {A = sqliteExpr(TK_LT, X, Y, 0);}
348784efSdrhexpr(A) ::= expr(X) GT expr(Y).    {A = sqliteExpr(TK_GT, X, Y, 0);}
348784efSdrhexpr(A) ::= expr(X) LE expr(Y).    {A = sqliteExpr(TK_LE, X, Y, 0);}
348784efSdrhexpr(A) ::= expr(X) GE expr(Y).    {A = sqliteExpr(TK_GE, X, Y, 0);}
348784efSdrhexpr(A) ::= expr(X) NE expr(Y).    {A = sqliteExpr(TK_NE, X, Y, 0);}
348784efSdrhexpr(A) ::= expr(X) EQ expr(Y).    {A = sqliteExpr(TK_EQ, X, Y, 0);}
dce2cbe6Sdrhexpr(A) ::= expr(X) LIKE expr(Y).  {A = sqliteExpr(TK_LIKE, X, Y, 0);}
4794b980Sdrhexpr(A) ::= expr(X) NOT LIKE expr(Y).  {
4794b980Sdrh  A = sqliteExpr(TK_LIKE, X, Y, 0);
4794b980Sdrh  A = sqliteExpr(TK_NOT, A, 0, 0);
e1b6a5b8Sdrh  sqliteExprSpan(A,&X->span,&Y->span);
4794b980Sdrh}
dce2cbe6Sdrhexpr(A) ::= expr(X) GLOB expr(Y).  {A = sqliteExpr(TK_GLOB,X,Y,0);}
4794b980Sdrhexpr(A) ::= expr(X) NOT GLOB expr(Y).  {
4794b980Sdrh  A = sqliteExpr(TK_GLOB, X, Y, 0);
4794b980Sdrh  A = sqliteExpr(TK_NOT, A, 0, 0);
e1b6a5b8Sdrh  sqliteExprSpan(A,&X->span,&Y->span);
4794b980Sdrh}
348784efSdrhexpr(A) ::= expr(X) PLUS expr(Y).  {A = sqliteExpr(TK_PLUS, X, Y, 0);}
348784efSdrhexpr(A) ::= expr(X) MINUS expr(Y). {A = sqliteExpr(TK_MINUS, X, Y, 0);}
348784efSdrhexpr(A) ::= expr(X) STAR expr(Y).  {A = sqliteExpr(TK_STAR, X, Y, 0);}
348784efSdrhexpr(A) ::= expr(X) SLASH expr(Y). {A = sqliteExpr(TK_SLASH, X, Y, 0);}
0040077dSdrhexpr(A) ::= expr(X) CONCAT expr(Y). {A = sqliteExpr(TK_CONCAT, X, Y, 0);}
e1b6a5b8Sdrhexpr(A) ::= expr(X) ISNULL(E). {
e1b6a5b8Sdrh  A = sqliteExpr(TK_ISNULL, X, 0, 0);
e1b6a5b8Sdrh  sqliteExprSpan(A,&X->span,&E);
e1b6a5b8Sdrh}
e1b6a5b8Sdrhexpr(A) ::= expr(X) NOTNULL(E). {
e1b6a5b8Sdrh  A = sqliteExpr(TK_NOTNULL, X, 0, 0);
e1b6a5b8Sdrh  sqliteExprSpan(A,&X->span,&E);
e1b6a5b8Sdrh}
e1b6a5b8Sdrhexpr(A) ::= NOT(B) expr(X). {
e1b6a5b8Sdrh  A = sqliteExpr(TK_NOT, X, 0, 0);
e1b6a5b8Sdrh  sqliteExprSpan(A,&B,&X->span);
e1b6a5b8Sdrh}
e1b6a5b8Sdrhexpr(A) ::= MINUS(B) expr(X). [UMINUS] {
e1b6a5b8Sdrh  A = sqliteExpr(TK_UMINUS, X, 0, 0);
e1b6a5b8Sdrh  sqliteExprSpan(A,&B,&X->span);
e1b6a5b8Sdrh}
e1b6a5b8Sdrhexpr(A) ::= PLUS(B) expr(X). [UMINUS] {
e1b6a5b8Sdrh  A = X;
e1b6a5b8Sdrh  sqliteExprSpan(A,&B,&X->span);
e1b6a5b8Sdrh}
e1b6a5b8Sdrhexpr(A) ::= LP(B) select(X) RP(E). {
19a775c2Sdrh  A = sqliteExpr(TK_SELECT, 0, 0, 0);
19a775c2Sdrh  A->pSelect = X;
e1b6a5b8Sdrh  sqliteExprSpan(A,&B,&E);
19a775c2Sdrh}
fef5208cSdrhexpr(A) ::= expr(W) BETWEEN expr(X) AND expr(Y). {
fef5208cSdrh  ExprList *pList = sqliteExprListAppend(0, X, 0);
fef5208cSdrh  pList = sqliteExprListAppend(pList, Y, 0);
fef5208cSdrh  A = sqliteExpr(TK_BETWEEN, W, 0, 0);
fef5208cSdrh  A->pList = pList;
e1b6a5b8Sdrh  sqliteExprSpan(A,&W->span,&Y->span);
fef5208cSdrh}
4794b980Sdrhexpr(A) ::= expr(W) NOT BETWEEN expr(X) AND expr(Y). {
4794b980Sdrh  ExprList *pList = sqliteExprListAppend(0, X, 0);
4794b980Sdrh  pList = sqliteExprListAppend(pList, Y, 0);
4794b980Sdrh  A = sqliteExpr(TK_BETWEEN, W, 0, 0);
4794b980Sdrh  A->pList = pList;
4794b980Sdrh  A = sqliteExpr(TK_NOT, A, 0, 0);
e1b6a5b8Sdrh  sqliteExprSpan(A,&W->span,&Y->span);
4794b980Sdrh}
e1b6a5b8Sdrhexpr(A) ::= expr(X) IN LP exprlist(Y) RP(E).  {
fef5208cSdrh  A = sqliteExpr(TK_IN, X, 0, 0);
fef5208cSdrh  A->pList = Y;
e1b6a5b8Sdrh  sqliteExprSpan(A,&X->span,&E);
fef5208cSdrh}
e1b6a5b8Sdrhexpr(A) ::= expr(X) IN LP select(Y) RP(E).  {
fef5208cSdrh  A = sqliteExpr(TK_IN, X, 0, 0);
fef5208cSdrh  A->pSelect = Y;
e1b6a5b8Sdrh  sqliteExprSpan(A,&X->span,&E);
fef5208cSdrh}
e1b6a5b8Sdrhexpr(A) ::= expr(X) NOT IN LP exprlist(Y) RP(E).  {
4794b980Sdrh  A = sqliteExpr(TK_IN, X, 0, 0);
4794b980Sdrh  A->pList = Y;
4794b980Sdrh  A = sqliteExpr(TK_NOT, A, 0, 0);
e1b6a5b8Sdrh  sqliteExprSpan(A,&X->span,&E);
4794b980Sdrh}
e1b6a5b8Sdrhexpr(A) ::= expr(X) NOT IN LP select(Y) RP(E).  {
4794b980Sdrh  A = sqliteExpr(TK_IN, X, 0, 0);
4794b980Sdrh  A->pSelect = Y;
4794b980Sdrh  A = sqliteExpr(TK_NOT, A, 0, 0);
e1b6a5b8Sdrh  sqliteExprSpan(A,&X->span,&E);
4794b980Sdrh}
fef5208cSdrh
fef5208cSdrh
348784efSdrh
348784efSdrh%type exprlist {ExprList*}
348784efSdrh%destructor exprlist {sqliteExprListDelete($$);}
348784efSdrh%type expritem {Expr*}
348784efSdrh%destructor expritem {sqliteExprDelete($$);}
348784efSdrh
348784efSdrhexprlist(A) ::= exprlist(X) COMMA expritem(Y).
348784efSdrh   {A = sqliteExprListAppend(X,Y,0);}
348784efSdrhexprlist(A) ::= expritem(X).            {A = sqliteExprListAppend(0,X,0);}
348784efSdrhexpritem(A) ::= expr(X).                {A = X;}
348784efSdrhexpritem(A) ::= .                       {A = 0;}
cce7d176Sdrh
348784efSdrh
4cfa7934Sdrhcmd ::= CREATE(S) uniqueflag INDEX id(X) ON id(Y) LP idxlist(Z) RP(E).
348784efSdrh    {sqliteCreateIndex(pParse, &X, &Y, Z, &S, &E);}
348784efSdrhuniqueflag ::= UNIQUE.
348784efSdrhuniqueflag ::= .
348784efSdrh
348784efSdrh%type idxlist {IdList*}
348784efSdrh%destructor idxlist {sqliteIdListDelete($$);}
348784efSdrh%type idxitem {Token}
348784efSdrh
348784efSdrhidxlist(A) ::= idxlist(X) COMMA idxitem(Y).
348784efSdrh     {A = sqliteIdListAppend(X,&Y);}
348784efSdrhidxlist(A) ::= idxitem(Y).
348784efSdrh     {A = sqliteIdListAppend(0,&Y);}
4cfa7934Sdrhidxitem(A) ::= id(X).           {A = X;}
348784efSdrh
982cef7eSdrhcmd ::= DROP INDEX id(X).       {sqliteDropIndex(pParse, &X);}
982cef7eSdrh
982cef7eSdrhcmd ::= COPY id(X) FROM id(Y) USING DELIMITERS STRING(Z).
982cef7eSdrh    {sqliteCopy(pParse,&X,&Y,&Z);}
982cef7eSdrhcmd ::= COPY id(X) FROM id(Y).
982cef7eSdrh    {sqliteCopy(pParse,&X,&Y,0);}
dce2cbe6Sdrh
dce2cbe6Sdrhcmd ::= VACUUM.                {sqliteVacuum(pParse,0);}
dce2cbe6Sdrhcmd ::= VACUUM id(X).          {sqliteVacuum(pParse,&X);}