Add an AST node type enum to AST nodes.
When inspecting an AST node in the debugger, it can be difficult to find its concrete type. Add a "node_type" virtual function to all the concrete AST nodes. Use a macro to generate the definition of node_type as well as Accept and the AsXXX type testing/casting functions. Review URL: http://codereview.chromium.org/3431026 git-svn-id: http://v8.googlecode.com/svn/branches/bleeding_edge@5549 ce2b1a6d-e550-0410-aec6-3dcde31c8c00
This commit is contained in:
kmillikin@chromium.org
parent
e0feeec039
commit
d9d49052f9
189
src/ast.h
189
src/ast.h
@ -118,35 +118,38 @@ typedef ZoneList<Handle<String> > ZoneStringList;
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typedef ZoneList<Handle<Object> > ZoneObjectList;
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#define DECLARE_NODE_TYPE(type) \
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virtual void Accept(AstVisitor* v); \
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virtual AstNode::Type node_type() const { return AstNode::k##type; } \
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virtual type* As##type() { return this; }
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class AstNode: public ZoneObject {
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public:
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virtual ~AstNode() { }
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virtual void Accept(AstVisitor* v) = 0;
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#define DECLARE_TYPE_ENUM(type) k##type,
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enum Type {
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AST_NODE_LIST(DECLARE_TYPE_ENUM)
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kInvalid = -1
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};
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#undef DECLARE_TYPE_ENUM
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virtual ~AstNode() { }
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virtual void Accept(AstVisitor* v) = 0;
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virtual Type node_type() const { return kInvalid; }
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// Type testing & conversion functions overridden by concrete subclasses.
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#define DECLARE_NODE_FUNCTIONS(type) \
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virtual type* As##type() { return NULL; }
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AST_NODE_LIST(DECLARE_NODE_FUNCTIONS)
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#undef DECLARE_NODE_FUNCTIONS
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// Type testing & conversion.
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virtual Statement* AsStatement() { return NULL; }
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virtual Block* AsBlock() { return NULL; }
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virtual ExpressionStatement* AsExpressionStatement() { return NULL; }
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virtual EmptyStatement* AsEmptyStatement() { return NULL; }
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virtual Expression* AsExpression() { return NULL; }
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virtual Literal* AsLiteral() { return NULL; }
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virtual Slot* AsSlot() { return NULL; }
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virtual VariableProxy* AsVariableProxy() { return NULL; }
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virtual Property* AsProperty() { return NULL; }
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virtual Call* AsCall() { return NULL; }
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virtual TargetCollector* AsTargetCollector() { return NULL; }
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virtual BreakableStatement* AsBreakableStatement() { return NULL; }
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virtual IterationStatement* AsIterationStatement() { return NULL; }
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virtual ForStatement* AsForStatement() { return NULL; }
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virtual UnaryOperation* AsUnaryOperation() { return NULL; }
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virtual CountOperation* AsCountOperation() { return NULL; }
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virtual BinaryOperation* AsBinaryOperation() { return NULL; }
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virtual Assignment* AsAssignment() { return NULL; }
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virtual FunctionLiteral* AsFunctionLiteral() { return NULL; }
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virtual MaterializedLiteral* AsMaterializedLiteral() { return NULL; }
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virtual ObjectLiteral* AsObjectLiteral() { return NULL; }
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virtual ArrayLiteral* AsArrayLiteral() { return NULL; }
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virtual CompareOperation* AsCompareOperation() { return NULL; }
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};
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@ -155,7 +158,6 @@ class Statement: public AstNode {
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Statement() : statement_pos_(RelocInfo::kNoPosition) {}
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virtual Statement* AsStatement() { return this; }
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virtual ReturnStatement* AsReturnStatement() { return NULL; }
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virtual Assignment* StatementAsSimpleAssignment() { return NULL; }
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virtual CountOperation* StatementAsCountOperation() { return NULL; }
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@ -313,9 +315,7 @@ class Block: public BreakableStatement {
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public:
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inline Block(ZoneStringList* labels, int capacity, bool is_initializer_block);
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virtual void Accept(AstVisitor* v);
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virtual Block* AsBlock() { return this; }
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DECLARE_NODE_TYPE(Block)
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virtual Assignment* StatementAsSimpleAssignment() {
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if (statements_.length() != 1) return NULL;
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@ -349,7 +349,7 @@ class Declaration: public AstNode {
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ASSERT(fun == NULL || mode == Variable::VAR);
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}
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virtual void Accept(AstVisitor* v);
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DECLARE_NODE_TYPE(Declaration)
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VariableProxy* proxy() const { return proxy_; }
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Variable::Mode mode() const { return mode_; }
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@ -390,13 +390,13 @@ class DoWhileStatement: public IterationStatement {
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public:
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explicit inline DoWhileStatement(ZoneStringList* labels);
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DECLARE_NODE_TYPE(DoWhileStatement)
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void Initialize(Expression* cond, Statement* body) {
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IterationStatement::Initialize(body);
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cond_ = cond;
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}
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virtual void Accept(AstVisitor* v);
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Expression* cond() const { return cond_; }
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// Position where condition expression starts. We need it to make
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@ -414,13 +414,13 @@ class WhileStatement: public IterationStatement {
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public:
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explicit WhileStatement(ZoneStringList* labels);
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DECLARE_NODE_TYPE(WhileStatement)
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void Initialize(Expression* cond, Statement* body) {
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IterationStatement::Initialize(body);
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cond_ = cond;
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}
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virtual void Accept(AstVisitor* v);
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Expression* cond() const { return cond_; }
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bool may_have_function_literal() const {
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return may_have_function_literal_;
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@ -440,7 +440,7 @@ class ForStatement: public IterationStatement {
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public:
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explicit inline ForStatement(ZoneStringList* labels);
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virtual ForStatement* AsForStatement() { return this; }
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DECLARE_NODE_TYPE(ForStatement)
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void Initialize(Statement* init,
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Expression* cond,
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@ -452,8 +452,6 @@ class ForStatement: public IterationStatement {
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next_ = next;
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}
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virtual void Accept(AstVisitor* v);
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Statement* init() const { return init_; }
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void set_init(Statement* stmt) { init_ = stmt; }
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Expression* cond() const { return cond_; }
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@ -486,14 +484,14 @@ class ForInStatement: public IterationStatement {
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public:
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explicit inline ForInStatement(ZoneStringList* labels);
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DECLARE_NODE_TYPE(ForInStatement)
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void Initialize(Expression* each, Expression* enumerable, Statement* body) {
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IterationStatement::Initialize(body);
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each_ = each;
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enumerable_ = enumerable;
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}
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virtual void Accept(AstVisitor* v);
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Expression* each() const { return each_; }
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Expression* enumerable() const { return enumerable_; }
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@ -508,10 +506,7 @@ class ExpressionStatement: public Statement {
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explicit ExpressionStatement(Expression* expression)
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: expression_(expression) { }
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virtual void Accept(AstVisitor* v);
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// Type testing & conversion.
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virtual ExpressionStatement* AsExpressionStatement() { return this; }
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DECLARE_NODE_TYPE(ExpressionStatement)
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virtual Assignment* StatementAsSimpleAssignment();
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virtual CountOperation* StatementAsCountOperation();
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@ -529,7 +524,7 @@ class ContinueStatement: public Statement {
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explicit ContinueStatement(IterationStatement* target)
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: target_(target) { }
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virtual void Accept(AstVisitor* v);
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DECLARE_NODE_TYPE(ContinueStatement)
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IterationStatement* target() const { return target_; }
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@ -543,7 +538,7 @@ class BreakStatement: public Statement {
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explicit BreakStatement(BreakableStatement* target)
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: target_(target) { }
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virtual void Accept(AstVisitor* v);
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DECLARE_NODE_TYPE(BreakStatement)
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BreakableStatement* target() const { return target_; }
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@ -557,10 +552,7 @@ class ReturnStatement: public Statement {
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explicit ReturnStatement(Expression* expression)
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: expression_(expression) { }
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virtual void Accept(AstVisitor* v);
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// Type testing & conversion.
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virtual ReturnStatement* AsReturnStatement() { return this; }
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DECLARE_NODE_TYPE(ReturnStatement)
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Expression* expression() { return expression_; }
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@ -574,7 +566,7 @@ class WithEnterStatement: public Statement {
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explicit WithEnterStatement(Expression* expression, bool is_catch_block)
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: expression_(expression), is_catch_block_(is_catch_block) { }
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virtual void Accept(AstVisitor* v);
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DECLARE_NODE_TYPE(WithEnterStatement)
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Expression* expression() const { return expression_; }
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@ -590,7 +582,7 @@ class WithExitStatement: public Statement {
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public:
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WithExitStatement() { }
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virtual void Accept(AstVisitor* v);
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DECLARE_NODE_TYPE(WithExitStatement)
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};
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@ -617,13 +609,13 @@ class SwitchStatement: public BreakableStatement {
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public:
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explicit inline SwitchStatement(ZoneStringList* labels);
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DECLARE_NODE_TYPE(SwitchStatement)
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void Initialize(Expression* tag, ZoneList<CaseClause*>* cases) {
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tag_ = tag;
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cases_ = cases;
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}
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virtual void Accept(AstVisitor* v);
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Expression* tag() const { return tag_; }
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ZoneList<CaseClause*>* cases() const { return cases_; }
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@ -647,7 +639,7 @@ class IfStatement: public Statement {
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then_statement_(then_statement),
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else_statement_(else_statement) { }
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virtual void Accept(AstVisitor* v);
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DECLARE_NODE_TYPE(IfStatement)
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bool HasThenStatement() const { return !then_statement()->IsEmpty(); }
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bool HasElseStatement() const { return !else_statement()->IsEmpty(); }
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@ -717,7 +709,7 @@ class TryCatchStatement: public TryStatement {
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catch_block_(catch_block) {
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}
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virtual void Accept(AstVisitor* v);
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DECLARE_NODE_TYPE(TryCatchStatement)
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VariableProxy* catch_var() const { return catch_var_; }
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Block* catch_block() const { return catch_block_; }
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@ -734,7 +726,7 @@ class TryFinallyStatement: public TryStatement {
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: TryStatement(try_block),
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finally_block_(finally_block) { }
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virtual void Accept(AstVisitor* v);
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DECLARE_NODE_TYPE(TryFinallyStatement)
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Block* finally_block() const { return finally_block_; }
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@ -745,18 +737,13 @@ class TryFinallyStatement: public TryStatement {
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class DebuggerStatement: public Statement {
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public:
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virtual void Accept(AstVisitor* v);
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DECLARE_NODE_TYPE(DebuggerStatement)
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};
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class EmptyStatement: public Statement {
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public:
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EmptyStatement() {}
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virtual void Accept(AstVisitor* v);
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// Type testing & conversion.
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virtual EmptyStatement* AsEmptyStatement() { return this; }
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DECLARE_NODE_TYPE(EmptyStatement)
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};
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@ -764,13 +751,11 @@ class Literal: public Expression {
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public:
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explicit Literal(Handle<Object> handle) : handle_(handle) { }
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virtual void Accept(AstVisitor* v);
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DECLARE_NODE_TYPE(Literal)
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virtual bool IsTrivial() { return true; }
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virtual bool IsSmiLiteral() { return handle_->IsSmi(); }
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// Type testing & conversion.
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virtual Literal* AsLiteral() { return this; }
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// Check if this literal is identical to the other literal.
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bool IsIdenticalTo(const Literal* other) const {
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return handle_.is_identical_to(other->handle_);
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@ -864,8 +849,7 @@ class ObjectLiteral: public MaterializedLiteral {
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properties_(properties),
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fast_elements_(fast_elements) {}
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virtual ObjectLiteral* AsObjectLiteral() { return this; }
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virtual void Accept(AstVisitor* v);
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DECLARE_NODE_TYPE(ObjectLiteral)
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Handle<FixedArray> constant_properties() const {
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return constant_properties_;
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@ -891,7 +875,7 @@ class RegExpLiteral: public MaterializedLiteral {
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pattern_(pattern),
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flags_(flags) {}
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virtual void Accept(AstVisitor* v);
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DECLARE_NODE_TYPE(RegExpLiteral)
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Handle<String> pattern() const { return pattern_; }
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Handle<String> flags() const { return flags_; }
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@ -914,8 +898,7 @@ class ArrayLiteral: public MaterializedLiteral {
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constant_elements_(constant_elements),
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values_(values) {}
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virtual void Accept(AstVisitor* v);
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virtual ArrayLiteral* AsArrayLiteral() { return this; }
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DECLARE_NODE_TYPE(ArrayLiteral)
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Handle<FixedArray> constant_elements() const { return constant_elements_; }
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ZoneList<Expression*>* values() const { return values_; }
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@ -935,7 +918,7 @@ class CatchExtensionObject: public Expression {
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: key_(key), value_(value) {
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}
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virtual void Accept(AstVisitor* v);
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DECLARE_NODE_TYPE(CatchExtensionObject)
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Literal* key() const { return key_; }
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VariableProxy* value() const { return value_; }
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@ -950,17 +933,13 @@ class VariableProxy: public Expression {
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public:
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explicit VariableProxy(Variable* var);
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virtual void Accept(AstVisitor* v);
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DECLARE_NODE_TYPE(VariableProxy)
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// Type testing & conversion
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virtual Property* AsProperty() {
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return var_ == NULL ? NULL : var_->AsProperty();
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}
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virtual VariableProxy* AsVariableProxy() {
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return this;
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}
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Variable* AsVariable() {
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if (this == NULL || var_ == NULL) return NULL;
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Expression* rewrite = var_->rewrite();
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@ -1055,10 +1034,7 @@ class Slot: public Expression {
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ASSERT(var != NULL);
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}
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virtual void Accept(AstVisitor* v);
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// Type testing & conversion
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virtual Slot* AsSlot() { return this; }
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DECLARE_NODE_TYPE(Slot)
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bool IsStackAllocated() { return type_ == PARAMETER || type_ == LOCAL; }
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@ -1085,10 +1061,7 @@ class Property: public Expression {
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Property(Expression* obj, Expression* key, int pos, Type type = NORMAL)
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: obj_(obj), key_(key), pos_(pos), type_(type) { }
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virtual void Accept(AstVisitor* v);
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// Type testing & conversion
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virtual Property* AsProperty() { return this; }
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DECLARE_NODE_TYPE(Property)
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virtual bool IsValidLeftHandSide() { return true; }
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@ -1117,10 +1090,7 @@ class Call: public Expression {
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Call(Expression* expression, ZoneList<Expression*>* arguments, int pos)
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: expression_(expression), arguments_(arguments), pos_(pos) { }
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virtual void Accept(AstVisitor* v);
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// Type testing and conversion.
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virtual Call* AsCall() { return this; }
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DECLARE_NODE_TYPE(Call)
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Expression* expression() const { return expression_; }
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ZoneList<Expression*>* arguments() const { return arguments_; }
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@ -1142,7 +1112,7 @@ class CallNew: public Expression {
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CallNew(Expression* expression, ZoneList<Expression*>* arguments, int pos)
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: expression_(expression), arguments_(arguments), pos_(pos) { }
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virtual void Accept(AstVisitor* v);
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DECLARE_NODE_TYPE(CallNew)
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Expression* expression() const { return expression_; }
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ZoneList<Expression*>* arguments() const { return arguments_; }
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@ -1166,7 +1136,7 @@ class CallRuntime: public Expression {
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ZoneList<Expression*>* arguments)
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: name_(name), function_(function), arguments_(arguments) { }
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virtual void Accept(AstVisitor* v);
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DECLARE_NODE_TYPE(CallRuntime)
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Handle<String> name() const { return name_; }
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Runtime::Function* function() const { return function_; }
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@ -1187,11 +1157,9 @@ class UnaryOperation: public Expression {
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ASSERT(Token::IsUnaryOp(op));
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}
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virtual void Accept(AstVisitor* v);
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virtual bool ResultOverwriteAllowed();
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DECLARE_NODE_TYPE(UnaryOperation)
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// Type testing & conversion
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virtual UnaryOperation* AsUnaryOperation() { return this; }
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virtual bool ResultOverwriteAllowed();
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Token::Value op() const { return op_; }
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Expression* expression() const { return expression_; }
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@ -1215,11 +1183,9 @@ class BinaryOperation: public Expression {
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// Create the binary operation corresponding to a compound assignment.
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explicit BinaryOperation(Assignment* assignment);
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virtual void Accept(AstVisitor* v);
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virtual bool ResultOverwriteAllowed();
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DECLARE_NODE_TYPE(BinaryOperation)
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// Type testing & conversion
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virtual BinaryOperation* AsBinaryOperation() { return this; }
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virtual bool ResultOverwriteAllowed();
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Token::Value op() const { return op_; }
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Expression* left() const { return left_; }
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@ -1241,12 +1207,12 @@ class IncrementOperation: public Expression {
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ASSERT(Token::IsCountOp(op));
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}
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DECLARE_NODE_TYPE(IncrementOperation)
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Token::Value op() const { return op_; }
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bool is_increment() { return op_ == Token::INC; }
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Expression* expression() const { return expression_; }
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virtual void Accept(AstVisitor* v);
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private:
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Token::Value op_;
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Expression* expression_;
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@ -1259,9 +1225,7 @@ class CountOperation: public Expression {
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CountOperation(bool is_prefix, IncrementOperation* increment, int pos)
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: is_prefix_(is_prefix), increment_(increment), pos_(pos) { }
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virtual void Accept(AstVisitor* v);
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virtual CountOperation* AsCountOperation() { return this; }
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DECLARE_NODE_TYPE(CountOperation)
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bool is_prefix() const { return is_prefix_; }
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bool is_postfix() const { return !is_prefix_; }
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@ -1294,16 +1258,13 @@ class CompareOperation: public Expression {
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ASSERT(Token::IsCompareOp(op));
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}
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virtual void Accept(AstVisitor* v);
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DECLARE_NODE_TYPE(CompareOperation)
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Token::Value op() const { return op_; }
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Expression* left() const { return left_; }
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Expression* right() const { return right_; }
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int position() const { return pos_; }
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// Type testing & conversion
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virtual CompareOperation* AsCompareOperation() { return this; }
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private:
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Token::Value op_;
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Expression* left_;
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@ -1317,7 +1278,7 @@ class CompareToNull: public Expression {
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CompareToNull(bool is_strict, Expression* expression)
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: is_strict_(is_strict), expression_(expression) { }
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virtual void Accept(AstVisitor* v);
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DECLARE_NODE_TYPE(CompareToNull)
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bool is_strict() const { return is_strict_; }
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Token::Value op() const { return is_strict_ ? Token::EQ_STRICT : Token::EQ; }
|
||||
@ -1342,7 +1303,7 @@ class Conditional: public Expression {
|
||||
then_expression_position_(then_expression_position),
|
||||
else_expression_position_(else_expression_position) { }
|
||||
|
||||
virtual void Accept(AstVisitor* v);
|
||||
DECLARE_NODE_TYPE(Conditional)
|
||||
|
||||
Expression* condition() const { return condition_; }
|
||||
Expression* then_expression() const { return then_expression_; }
|
||||
@ -1368,8 +1329,7 @@ class Assignment: public Expression {
|
||||
ASSERT(Token::IsAssignmentOp(op));
|
||||
}
|
||||
|
||||
virtual void Accept(AstVisitor* v);
|
||||
virtual Assignment* AsAssignment() { return this; }
|
||||
DECLARE_NODE_TYPE(Assignment)
|
||||
|
||||
Assignment* AsSimpleAssignment() { return !is_compound() ? this : NULL; }
|
||||
|
||||
@ -1406,7 +1366,7 @@ class Throw: public Expression {
|
||||
Throw(Expression* exception, int pos)
|
||||
: exception_(exception), pos_(pos) {}
|
||||
|
||||
virtual void Accept(AstVisitor* v);
|
||||
DECLARE_NODE_TYPE(Throw)
|
||||
|
||||
Expression* exception() const { return exception_; }
|
||||
int position() const { return pos_; }
|
||||
@ -1452,10 +1412,7 @@ class FunctionLiteral: public Expression {
|
||||
#endif
|
||||
}
|
||||
|
||||
virtual void Accept(AstVisitor* v);
|
||||
|
||||
// Type testing & conversion
|
||||
virtual FunctionLiteral* AsFunctionLiteral() { return this; }
|
||||
DECLARE_NODE_TYPE(FunctionLiteral)
|
||||
|
||||
Handle<String> name() const { return name_; }
|
||||
Scope* scope() const { return scope_; }
|
||||
@ -1522,12 +1479,12 @@ class SharedFunctionInfoLiteral: public Expression {
|
||||
Handle<SharedFunctionInfo> shared_function_info)
|
||||
: shared_function_info_(shared_function_info) { }
|
||||
|
||||
DECLARE_NODE_TYPE(SharedFunctionInfoLiteral)
|
||||
|
||||
Handle<SharedFunctionInfo> shared_function_info() const {
|
||||
return shared_function_info_;
|
||||
}
|
||||
|
||||
virtual void Accept(AstVisitor* v);
|
||||
|
||||
private:
|
||||
Handle<SharedFunctionInfo> shared_function_info_;
|
||||
};
|
||||
@ -1535,7 +1492,7 @@ class SharedFunctionInfoLiteral: public Expression {
|
||||
|
||||
class ThisFunction: public Expression {
|
||||
public:
|
||||
virtual void Accept(AstVisitor* v);
|
||||
DECLARE_NODE_TYPE(ThisFunction)
|
||||
};
|
||||
|
||||
|
||||
|
||||
Loading…
Reference in New Issue
Block a user