WebCore/xml/XPathGrammar.y - WebKit - Git at Google

 /*
  * Copyright 2005 Frerich Raabe <raabe@kde.org>
  * Copyright (C) 2006 Apple Inc. All rights reserved.
  * Copyright (C) 2007 Alexey Proskuryakov <ap@webkit.org>
  *
  * Redistribution and use in source and binary forms, with or without
  * modification, are permitted provided that the following conditions
  * are met:
  *
  * 1. Redistributions of source code must retain the above copyright
  *    notice, this list of conditions and the following disclaimer.
  * 2. Redistributions in binary form must reproduce the above copyright
  *    notice, this list of conditions and the following disclaimer in the
  *    documentation and/or other materials provided with the distribution.
  *
  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
  * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
  * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
  * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
  * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
  * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
  */

 %{

 #include "config.h"

 #if ENABLE(XPATH)

 #include "XPathFunctions.h"
 #include "XPathNSResolver.h"
 #include "XPathParser.h"
 #include "XPathPath.h"
 #include "XPathPredicate.h"
 #include "XPathVariableReference.h"

 #define YYENABLE_NLS 0
 #define YYLTYPE_IS_TRIVIAL 1
 #define YYDEBUG 0
 #define YYMAXDEPTH 10000
 #define YYPARSE_PARAM parserParameter
 #define PARSER static_cast<Parser*>(parserParameter)

 using namespace WebCore;
 using namespace XPath;

 %}

 %pure_parser

 %union
 {
     Step::Axis axis;
     Step::NodeTest* nodeTest;
     NumericOp::Opcode numop;
     EqTestOp::Opcode eqop;
     String* str;
     Expression* expr;
     Vector<Predicate*>* predList;
     Vector<Expression*>* argList;
     Step* step;
     LocationPath* locationPath;
 }

 %{

 int xpathyylex(YYSTYPE* yylval) { return Parser::current()->lex(yylval); }
 void xpathyyerror(const char* str) { }

 %}

 %left <numop> MULOP
 %left <eqop> EQOP RELOP
 %left PLUS MINUS
 %left OR AND
 %token <axis> AXISNAME
 %token <str> NODETYPE PI FUNCTIONNAME LITERAL
 %token <str> VARIABLEREFERENCE NUMBER
 %token DOTDOT SLASHSLASH
 %token <str> NAMETEST
 %token ERROR

 %type <locationPath> LocationPath
 %type <locationPath> AbsoluteLocationPath
 %type <locationPath> RelativeLocationPath
 %type <step> Step
 %type <axis> AxisSpecifier
 %type <step> DescendantOrSelf
 %type <nodeTest> NodeTest
 %type <expr> Predicate
 %type <predList> OptionalPredicateList
 %type <predList> PredicateList
 %type <step> AbbreviatedStep
 %type <expr> Expr
 %type <expr> PrimaryExpr
 %type <expr> FunctionCall
 %type <argList> ArgumentList
 %type <expr> Argument
 %type <expr> UnionExpr
 %type <expr> PathExpr
 %type <expr> FilterExpr
 %type <expr> OrExpr
 %type <expr> AndExpr
 %type <expr> EqualityExpr
 %type <expr> RelationalExpr
 %type <expr> AdditiveExpr
 %type <expr> MultiplicativeExpr
 %type <expr> UnaryExpr

 %%

 Expr:
     OrExpr
     {
         PARSER->m_topExpr = $1;
     }
     ;

 LocationPath:
     RelativeLocationPath
     {
         $$->setAbsolute(false);
     }
     |
     AbsoluteLocationPath
     {
         $$->setAbsolute(true);
     }
     ;

 AbsoluteLocationPath:
     '/'
     {
         $$ = new LocationPath;
         PARSER->registerParseNode($$);
     }
     |
     '/' RelativeLocationPath
     {
         $$ = $2;
     }
     |
     DescendantOrSelf RelativeLocationPath
     {
         $$ = $2;
         $$->insertFirstStep($1);
         PARSER->unregisterParseNode($1);
     }
     ;

 RelativeLocationPath:
     Step
     {
         $$ = new LocationPath;
         $$->appendStep($1);
         PARSER->unregisterParseNode($1);
         PARSER->registerParseNode($$);
     }
     |
     RelativeLocationPath '/' Step
     {
         $$->appendStep($3);
         PARSER->unregisterParseNode($3);
     }
     |
     RelativeLocationPath DescendantOrSelf Step
     {
         $$->appendStep($2);
         $$->appendStep($3);
         PARSER->unregisterParseNode($2);
         PARSER->unregisterParseNode($3);
     }
     ;

 Step:
     NodeTest OptionalPredicateList
     {
         if ($2) {
             $$ = new Step(Step::ChildAxis, *$1, *$2);
             PARSER->deletePredicateVector($2);
         } else
             $$ = new Step(Step::ChildAxis, *$1);
         PARSER->deleteNodeTest($1);
         PARSER->registerParseNode($$);
     }
     |
     NAMETEST OptionalPredicateList
     {
         String localName;
         String namespaceURI;
         if (!PARSER->expandQName(*$1, localName, namespaceURI)) {
             PARSER->m_gotNamespaceError = true;
             YYABORT;
         }

         if ($2) {
             $$ = new Step(Step::ChildAxis, Step::NodeTest(Step::NodeTest::NameTest, localName, namespaceURI), *$2);
             PARSER->deletePredicateVector($2);
         } else
             $$ = new Step(Step::ChildAxis, Step::NodeTest(Step::NodeTest::NameTest, localName, namespaceURI));
         PARSER->deleteString($1);
         PARSER->registerParseNode($$);
     }
     |
     AxisSpecifier NodeTest OptionalPredicateList
     {
         if ($3) {
             $$ = new Step($1, *$2, *$3);
             PARSER->deletePredicateVector($3);
         } else
             $$ = new Step($1, *$2);
         PARSER->deleteNodeTest($2);
         PARSER->registerParseNode($$);
     }
     |
     AxisSpecifier NAMETEST OptionalPredicateList
     {
         String localName;
         String namespaceURI;
         if (!PARSER->expandQName(*$2, localName, namespaceURI)) {
             PARSER->m_gotNamespaceError = true;
             YYABORT;
         }

         if ($3) {
             $$ = new Step($1, Step::NodeTest(Step::NodeTest::NameTest, localName, namespaceURI), *$3);
             PARSER->deletePredicateVector($3);
         } else
             $$ = new Step($1, Step::NodeTest(Step::NodeTest::NameTest, localName, namespaceURI));
         PARSER->deleteString($2);
         PARSER->registerParseNode($$);
     }
     |
     AbbreviatedStep
     ;

 AxisSpecifier:
     AXISNAME
     |
     '@'
     {
         $$ = Step::AttributeAxis;
     }
     ;

 NodeTest:
     NODETYPE '(' ')'
     {
         if (*$1 == "node")
             $$ = new Step::NodeTest(Step::NodeTest::AnyNodeTest);
         else if (*$1 == "text")
             $$ = new Step::NodeTest(Step::NodeTest::TextNodeTest);
         else if (*$1 == "comment")
             $$ = new Step::NodeTest(Step::NodeTest::CommentNodeTest);

         PARSER->deleteString($1);
         PARSER->registerNodeTest($$);
     }
     |
     PI '(' ')'
     {
         $$ = new Step::NodeTest(Step::NodeTest::ProcessingInstructionNodeTest);
         PARSER->deleteString($1);
         PARSER->registerNodeTest($$);
     }
     |
     PI '(' LITERAL ')'
     {
         $$ = new Step::NodeTest(Step::NodeTest::ProcessingInstructionNodeTest, $3->stripWhiteSpace());
         PARSER->deleteString($1);
         PARSER->deleteString($3);
         PARSER->registerNodeTest($$);
     }
     ;

 OptionalPredicateList:
     /* empty */
     {
         $$ = 0;
     }
     |
     PredicateList
     ;

 PredicateList:
     Predicate
     {
         $$ = new Vector<Predicate*>;
         $$->append(new Predicate($1));
         PARSER->unregisterParseNode($1);
         PARSER->registerPredicateVector($$);
     }
     |
     PredicateList Predicate
     {
         $$->append(new Predicate($2));
         PARSER->unregisterParseNode($2);
     }
     ;

 Predicate:
     '[' Expr ']'
     {
         $$ = $2;
     }
     ;

 DescendantOrSelf:
     SLASHSLASH
     {
         $$ = new Step(Step::DescendantOrSelfAxis, Step::NodeTest(Step::NodeTest::AnyNodeTest));
         PARSER->registerParseNode($$);
     }
     ;

 AbbreviatedStep:
     '.'
     {
         $$ = new Step(Step::SelfAxis, Step::NodeTest(Step::NodeTest::AnyNodeTest));
         PARSER->registerParseNode($$);
     }
     |
     DOTDOT
     {
         $$ = new Step(Step::ParentAxis, Step::NodeTest(Step::NodeTest::AnyNodeTest));
         PARSER->registerParseNode($$);
     }
     ;

 PrimaryExpr:
     VARIABLEREFERENCE
     {
         $$ = new VariableReference(*$1);
         PARSER->deleteString($1);
         PARSER->registerParseNode($$);
     }
     |
     '(' Expr ')'
     {
         $$ = $2;
     }
     |
     LITERAL
     {
         $$ = new StringExpression(*$1);
         PARSER->deleteString($1);
         PARSER->registerParseNode($$);
     }
     |
     NUMBER
     {
         $$ = new Number($1->toDouble());
         PARSER->deleteString($1);
         PARSER->registerParseNode($$);
     }
     |
     FunctionCall
     ;

 FunctionCall:
     FUNCTIONNAME '(' ')'
     {
         $$ = createFunction(*$1);
         if (!$$)
             YYABORT;
         PARSER->deleteString($1);
         PARSER->registerParseNode($$);
     }
     |
     FUNCTIONNAME '(' ArgumentList ')'
     {
         $$ = createFunction(*$1, *$3);
         if (!$$)
             YYABORT;
         PARSER->deleteString($1);
         PARSER->deleteExpressionVector($3);
         PARSER->registerParseNode($$);
     }
     ;

 ArgumentList:
     Argument
     {
         $$ = new Vector<Expression*>;
         $$->append($1);
         PARSER->unregisterParseNode($1);
         PARSER->registerExpressionVector($$);
     }
     |
     ArgumentList ',' Argument
     {
         $$->append($3);
         PARSER->unregisterParseNode($3);
     }
     ;

 Argument:
     Expr
     ;

 UnionExpr:
     PathExpr
     |
     UnionExpr '|' PathExpr
     {
         $$ = new Union;
         $$->addSubExpression($1);
         $$->addSubExpression($3);
         PARSER->unregisterParseNode($1);
         PARSER->unregisterParseNode($3);
         PARSER->registerParseNode($$);
     }
     ;

 PathExpr:
     LocationPath
     {
         $$ = $1;
     }
     |
     FilterExpr
     |
     FilterExpr '/' RelativeLocationPath
     {
         $3->setAbsolute(true);
         $$ = new Path(static_cast<Filter*>($1), $3);
         PARSER->unregisterParseNode($1);
         PARSER->unregisterParseNode($3);
         PARSER->registerParseNode($$);
     }
     |
     FilterExpr DescendantOrSelf RelativeLocationPath
     {
         $3->insertFirstStep($2);
         $3->setAbsolute(true);
         $$ = new Path(static_cast<Filter*>($1), $3);
         PARSER->unregisterParseNode($1);
         PARSER->unregisterParseNode($2);
         PARSER->unregisterParseNode($3);
         PARSER->registerParseNode($$);
     }
     ;

 FilterExpr:
     PrimaryExpr
     |
     PrimaryExpr PredicateList
     {
         $$ = new Filter($1, *$2);
         PARSER->unregisterParseNode($1);
         PARSER->deletePredicateVector($2);
         PARSER->registerParseNode($$);
     }
     ;

 OrExpr:
     AndExpr
     |
     OrExpr OR AndExpr
     {
         $$ = new LogicalOp(LogicalOp::OP_Or, $1, $3);
         PARSER->unregisterParseNode($1);
         PARSER->unregisterParseNode($3);
         PARSER->registerParseNode($$);
     }
     ;

 AndExpr:
     EqualityExpr
     |
     AndExpr AND EqualityExpr
     {
         $$ = new LogicalOp(LogicalOp::OP_And, $1, $3);
         PARSER->unregisterParseNode($1);
         PARSER->unregisterParseNode($3);
         PARSER->registerParseNode($$);
     }
     ;

 EqualityExpr:
     RelationalExpr
     |
     EqualityExpr EQOP RelationalExpr
     {
         $$ = new EqTestOp($2, $1, $3);
         PARSER->unregisterParseNode($1);
         PARSER->unregisterParseNode($3);
         PARSER->registerParseNode($$);
     }
     ;

 RelationalExpr:
     AdditiveExpr
     |
     RelationalExpr RELOP AdditiveExpr
     {
         $$ = new EqTestOp($2, $1, $3);
         PARSER->unregisterParseNode($1);
         PARSER->unregisterParseNode($3);
         PARSER->registerParseNode($$);
     }
     ;

 AdditiveExpr:
     MultiplicativeExpr
     |
     AdditiveExpr PLUS MultiplicativeExpr
     {
         $$ = new NumericOp(NumericOp::OP_Add, $1, $3);
         PARSER->unregisterParseNode($1);
         PARSER->unregisterParseNode($3);
         PARSER->registerParseNode($$);
     }
     |
     AdditiveExpr MINUS MultiplicativeExpr
     {
         $$ = new NumericOp(NumericOp::OP_Sub, $1, $3);
         PARSER->unregisterParseNode($1);
         PARSER->unregisterParseNode($3);
         PARSER->registerParseNode($$);
     }
     ;

 MultiplicativeExpr:
     UnaryExpr
     |
     MultiplicativeExpr MULOP UnaryExpr
     {
         $$ = new NumericOp($2, $1, $3);
         PARSER->unregisterParseNode($1);
         PARSER->unregisterParseNode($3);
         PARSER->registerParseNode($$);
     }
     ;

 UnaryExpr:
     UnionExpr
     |
     MINUS UnaryExpr
     {
         $$ = new Negative;
         $$->addSubExpression($2);
         PARSER->unregisterParseNode($2);
         PARSER->registerParseNode($$);
     }
     ;

 %%

 #endif
	/*
	* Copyright 2005 Frerich Raabe <raabe@kde.org>
	* Copyright (C) 2006 Apple Inc. All rights reserved.
	* Copyright (C) 2007 Alexey Proskuryakov <ap@webkit.org>
	*
	* Redistribution and use in source and binary forms, with or without
	* modification, are permitted provided that the following conditions
	* are met:
	*
	* 1. Redistributions of source code must retain the above copyright
	* notice, this list of conditions and the following disclaimer.
	* 2. Redistributions in binary form must reproduce the above copyright
	* notice, this list of conditions and the following disclaimer in the
	* documentation and/or other materials provided with the distribution.
	*
	* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
	* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
	* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
	* IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
	* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
	* NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
	* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
	* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
	* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
	* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
	*/

	%{

	#include "config.h"

	#if ENABLE(XPATH)

	#include "XPathFunctions.h"
	#include "XPathNSResolver.h"
	#include "XPathParser.h"
	#include "XPathPath.h"
	#include "XPathPredicate.h"
	#include "XPathVariableReference.h"

	#define YYENABLE_NLS 0
	#define YYLTYPE_IS_TRIVIAL 1
	#define YYDEBUG 0
	#define YYMAXDEPTH 10000
	#define YYPARSE_PARAM parserParameter
	#define PARSER static_cast<Parser*>(parserParameter)

	using namespace WebCore;
	using namespace XPath;

	%}

	%pure_parser

	%union
	{
	Step::Axis axis;
	Step::NodeTest* nodeTest;
	NumericOp::Opcode numop;
	EqTestOp::Opcode eqop;
	String* str;
	Expression* expr;
	Vector<Predicate> predList;
	Vector<Expression> argList;
	Step* step;
	LocationPath* locationPath;
	}

	%{

	int xpathyylex(YYSTYPE* yylval) { return Parser::current()->lex(yylval); }
	void xpathyyerror(const char* str) { }

	%}

	%left <numop> MULOP
	%left <eqop> EQOP RELOP
	%left PLUS MINUS
	%left OR AND
	%token <axis> AXISNAME
	%token <str> NODETYPE PI FUNCTIONNAME LITERAL
	%token <str> VARIABLEREFERENCE NUMBER
	%token DOTDOT SLASHSLASH
	%token <str> NAMETEST
	%token ERROR

	%type <locationPath> LocationPath
	%type <locationPath> AbsoluteLocationPath
	%type <locationPath> RelativeLocationPath
	%type <step> Step
	%type <axis> AxisSpecifier
	%type <step> DescendantOrSelf
	%type <nodeTest> NodeTest
	%type <expr> Predicate
	%type <predList> OptionalPredicateList
	%type <predList> PredicateList
	%type <step> AbbreviatedStep
	%type <expr> Expr
	%type <expr> PrimaryExpr
	%type <expr> FunctionCall
	%type <argList> ArgumentList
	%type <expr> Argument
	%type <expr> UnionExpr
	%type <expr> PathExpr
	%type <expr> FilterExpr
	%type <expr> OrExpr
	%type <expr> AndExpr
	%type <expr> EqualityExpr
	%type <expr> RelationalExpr
	%type <expr> AdditiveExpr
	%type <expr> MultiplicativeExpr
	%type <expr> UnaryExpr

	%%

	Expr:
	OrExpr
	{
	PARSER->m_topExpr = $1;
	}
	;

	LocationPath:
	RelativeLocationPath
	{
	$$->setAbsolute(false);
	}
	\|
	AbsoluteLocationPath
	{
	$$->setAbsolute(true);
	}
	;

	AbsoluteLocationPath:
	'/'
	{
	$$ = new LocationPath;
	PARSER->registerParseNode($$);
	}
	\|
	'/' RelativeLocationPath
	{
	$$ = $2;
	}
	\|
	DescendantOrSelf RelativeLocationPath
	{
	$$ = $2;
	$$->insertFirstStep($1);
	PARSER->unregisterParseNode($1);
	}
	;

	RelativeLocationPath:
	Step
	{
	$$ = new LocationPath;
	$$->appendStep($1);
	PARSER->unregisterParseNode($1);
	PARSER->registerParseNode($$);
	}
	\|
	RelativeLocationPath '/' Step
	{
	$$->appendStep($3);
	PARSER->unregisterParseNode($3);
	}
	\|
	RelativeLocationPath DescendantOrSelf Step
	{
	$$->appendStep($2);
	$$->appendStep($3);
	PARSER->unregisterParseNode($2);
	PARSER->unregisterParseNode($3);
	}
	;

	Step:
	NodeTest OptionalPredicateList
	{
	if ($2) {
	$$ = new Step(Step::ChildAxis, $1, $2);
	PARSER->deletePredicateVector($2);
	} else
	$$ = new Step(Step::ChildAxis, *$1);
	PARSER->deleteNodeTest($1);
	PARSER->registerParseNode($$);
	}
	\|
	NAMETEST OptionalPredicateList
	{
	String localName;
	String namespaceURI;
	if (!PARSER->expandQName(*$1, localName, namespaceURI)) {
	PARSER->m_gotNamespaceError = true;
	YYABORT;
	}

	if ($2) {
	$$ = new Step(Step::ChildAxis, Step::NodeTest(Step::NodeTest::NameTest, localName, namespaceURI), *$2);
	PARSER->deletePredicateVector($2);
	} else
	$$ = new Step(Step::ChildAxis, Step::NodeTest(Step::NodeTest::NameTest, localName, namespaceURI));
	PARSER->deleteString($1);
	PARSER->registerParseNode($$);
	}
	\|
	AxisSpecifier NodeTest OptionalPredicateList
	{
	if ($3) {
	$$ = new Step($1, $2, $3);
	PARSER->deletePredicateVector($3);
	} else
	$$ = new Step($1, *$2);
	PARSER->deleteNodeTest($2);
	PARSER->registerParseNode($$);
	}
	\|
	AxisSpecifier NAMETEST OptionalPredicateList
	{
	String localName;
	String namespaceURI;
	if (!PARSER->expandQName(*$2, localName, namespaceURI)) {
	PARSER->m_gotNamespaceError = true;
	YYABORT;
	}

	if ($3) {
	$$ = new Step($1, Step::NodeTest(Step::NodeTest::NameTest, localName, namespaceURI), *$3);
	PARSER->deletePredicateVector($3);
	} else
	$$ = new Step($1, Step::NodeTest(Step::NodeTest::NameTest, localName, namespaceURI));
	PARSER->deleteString($2);
	PARSER->registerParseNode($$);
	}
	\|
	AbbreviatedStep
	;

	AxisSpecifier:
	AXISNAME
	\|
	'@'
	{
	$$ = Step::AttributeAxis;
	}
	;

	NodeTest:
	NODETYPE '(' ')'
	{
	if (*$1 == "node")
	$$ = new Step::NodeTest(Step::NodeTest::AnyNodeTest);
	else if (*$1 == "text")
	$$ = new Step::NodeTest(Step::NodeTest::TextNodeTest);
	else if (*$1 == "comment")
	$$ = new Step::NodeTest(Step::NodeTest::CommentNodeTest);

	PARSER->deleteString($1);
	PARSER->registerNodeTest($$);
	}
	\|
	PI '(' ')'
	{
	$$ = new Step::NodeTest(Step::NodeTest::ProcessingInstructionNodeTest);
	PARSER->deleteString($1);
	PARSER->registerNodeTest($$);
	}
	\|
	PI '(' LITERAL ')'
	{
	$$ = new Step::NodeTest(Step::NodeTest::ProcessingInstructionNodeTest, $3->stripWhiteSpace());
	PARSER->deleteString($1);
	PARSER->deleteString($3);
	PARSER->registerNodeTest($$);
	}
	;

	OptionalPredicateList:
	/* empty */
	{
	$$ = 0;
	}
	\|
	PredicateList
	;

	PredicateList:
	Predicate
	{
	$$ = new Vector<Predicate*>;
	$$->append(new Predicate($1));
	PARSER->unregisterParseNode($1);
	PARSER->registerPredicateVector($$);
	}
	\|
	PredicateList Predicate
	{
	$$->append(new Predicate($2));
	PARSER->unregisterParseNode($2);
	}
	;

	Predicate:
	'[' Expr ']'
	{
	$$ = $2;
	}
	;

	DescendantOrSelf:
	SLASHSLASH
	{
	$$ = new Step(Step::DescendantOrSelfAxis, Step::NodeTest(Step::NodeTest::AnyNodeTest));
	PARSER->registerParseNode($$);
	}
	;

	AbbreviatedStep:
	'.'
	{
	$$ = new Step(Step::SelfAxis, Step::NodeTest(Step::NodeTest::AnyNodeTest));
	PARSER->registerParseNode($$);
	}
	\|
	DOTDOT
	{
	$$ = new Step(Step::ParentAxis, Step::NodeTest(Step::NodeTest::AnyNodeTest));
	PARSER->registerParseNode($$);
	}
	;

	PrimaryExpr:
	VARIABLEREFERENCE
	{
	$$ = new VariableReference(*$1);
	PARSER->deleteString($1);
	PARSER->registerParseNode($$);
	}
	\|
	'(' Expr ')'
	{
	$$ = $2;
	}
	\|
	LITERAL
	{
	$$ = new StringExpression(*$1);
	PARSER->deleteString($1);
	PARSER->registerParseNode($$);
	}
	\|
	NUMBER
	{
	$$ = new Number($1->toDouble());
	PARSER->deleteString($1);
	PARSER->registerParseNode($$);
	}
	\|
	FunctionCall
	;

	FunctionCall:
	FUNCTIONNAME '(' ')'
	{
	$$ = createFunction(*$1);
	if (!$$)
	YYABORT;
	PARSER->deleteString($1);
	PARSER->registerParseNode($$);
	}
	\|
	FUNCTIONNAME '(' ArgumentList ')'
	{
	$$ = createFunction($1, $3);
	if (!$$)
	YYABORT;
	PARSER->deleteString($1);
	PARSER->deleteExpressionVector($3);
	PARSER->registerParseNode($$);
	}
	;

	ArgumentList:
	Argument
	{
	$$ = new Vector<Expression*>;
	$$->append($1);
	PARSER->unregisterParseNode($1);
	PARSER->registerExpressionVector($$);
	}
	\|
	ArgumentList ',' Argument
	{
	$$->append($3);
	PARSER->unregisterParseNode($3);
	}
	;

	Argument:
	Expr
	;

	UnionExpr:
	PathExpr
	\|
	UnionExpr '\|' PathExpr
	{
	$$ = new Union;
	$$->addSubExpression($1);
	$$->addSubExpression($3);
	PARSER->unregisterParseNode($1);
	PARSER->unregisterParseNode($3);
	PARSER->registerParseNode($$);
	}
	;

	PathExpr:
	LocationPath
	{
	$$ = $1;
	}
	\|
	FilterExpr
	\|
	FilterExpr '/' RelativeLocationPath
	{
	$3->setAbsolute(true);
	$$ = new Path(static_cast<Filter*>($1), $3);
	PARSER->unregisterParseNode($1);
	PARSER->unregisterParseNode($3);
	PARSER->registerParseNode($$);
	}
	\|
	FilterExpr DescendantOrSelf RelativeLocationPath
	{
	$3->insertFirstStep($2);
	$3->setAbsolute(true);
	$$ = new Path(static_cast<Filter*>($1), $3);
	PARSER->unregisterParseNode($1);
	PARSER->unregisterParseNode($2);
	PARSER->unregisterParseNode($3);
	PARSER->registerParseNode($$);
	}
	;

	FilterExpr:
	PrimaryExpr
	\|
	PrimaryExpr PredicateList
	{
	$$ = new Filter($1, *$2);
	PARSER->unregisterParseNode($1);
	PARSER->deletePredicateVector($2);
	PARSER->registerParseNode($$);
	}
	;

	OrExpr:
	AndExpr
	\|
	OrExpr OR AndExpr
	{
	$$ = new LogicalOp(LogicalOp::OP_Or, $1, $3);
	PARSER->unregisterParseNode($1);
	PARSER->unregisterParseNode($3);
	PARSER->registerParseNode($$);
	}
	;

	AndExpr:
	EqualityExpr
	\|
	AndExpr AND EqualityExpr
	{
	$$ = new LogicalOp(LogicalOp::OP_And, $1, $3);
	PARSER->unregisterParseNode($1);
	PARSER->unregisterParseNode($3);
	PARSER->registerParseNode($$);
	}
	;

	EqualityExpr:
	RelationalExpr
	\|
	EqualityExpr EQOP RelationalExpr
	{
	$$ = new EqTestOp($2, $1, $3);
	PARSER->unregisterParseNode($1);
	PARSER->unregisterParseNode($3);
	PARSER->registerParseNode($$);
	}
	;

	RelationalExpr:
	AdditiveExpr
	\|
	RelationalExpr RELOP AdditiveExpr
	{
	$$ = new EqTestOp($2, $1, $3);
	PARSER->unregisterParseNode($1);
	PARSER->unregisterParseNode($3);
	PARSER->registerParseNode($$);
	}
	;

	AdditiveExpr:
	MultiplicativeExpr
	\|
	AdditiveExpr PLUS MultiplicativeExpr
	{
	$$ = new NumericOp(NumericOp::OP_Add, $1, $3);
	PARSER->unregisterParseNode($1);
	PARSER->unregisterParseNode($3);
	PARSER->registerParseNode($$);
	}
	\|
	AdditiveExpr MINUS MultiplicativeExpr
	{
	$$ = new NumericOp(NumericOp::OP_Sub, $1, $3);
	PARSER->unregisterParseNode($1);
	PARSER->unregisterParseNode($3);
	PARSER->registerParseNode($$);
	}
	;

	MultiplicativeExpr:
	UnaryExpr
	\|
	MultiplicativeExpr MULOP UnaryExpr
	{
	$$ = new NumericOp($2, $1, $3);
	PARSER->unregisterParseNode($1);
	PARSER->unregisterParseNode($3);
	PARSER->registerParseNode($$);
	}
	;

	UnaryExpr:
	UnionExpr
	\|
	MINUS UnaryExpr
	{
	$$ = new Negative;
	$$->addSubExpression($2);
	PARSER->unregisterParseNode($2);
	PARSER->registerParseNode($$);
	}
	;

	%%

	#endif