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1 // Copyright 2012 the V8 project authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
4 
5 #ifndef V8_PARSING_PREPARSER_H
6 #define V8_PARSING_PREPARSER_H
7 
8 #include "src/ast/scopes.h"
9 #include "src/bailout-reason.h"
10 #include "src/hashmap.h"
11 #include "src/messages.h"
12 #include "src/parsing/expression-classifier.h"
13 #include "src/parsing/func-name-inferrer.h"
14 #include "src/parsing/parser-base.h"
15 #include "src/parsing/scanner.h"
16 #include "src/parsing/token.h"
17 
18 namespace v8 {
19 namespace internal {
20 
21 
22 class PreParserIdentifier {
23  public:
PreParserIdentifier()24   PreParserIdentifier() : type_(kUnknownIdentifier) {}
Default()25   static PreParserIdentifier Default() {
26     return PreParserIdentifier(kUnknownIdentifier);
27   }
Eval()28   static PreParserIdentifier Eval() {
29     return PreParserIdentifier(kEvalIdentifier);
30   }
Arguments()31   static PreParserIdentifier Arguments() {
32     return PreParserIdentifier(kArgumentsIdentifier);
33   }
Undefined()34   static PreParserIdentifier Undefined() {
35     return PreParserIdentifier(kUndefinedIdentifier);
36   }
FutureReserved()37   static PreParserIdentifier FutureReserved() {
38     return PreParserIdentifier(kFutureReservedIdentifier);
39   }
FutureStrictReserved()40   static PreParserIdentifier FutureStrictReserved() {
41     return PreParserIdentifier(kFutureStrictReservedIdentifier);
42   }
Let()43   static PreParserIdentifier Let() {
44     return PreParserIdentifier(kLetIdentifier);
45   }
Static()46   static PreParserIdentifier Static() {
47     return PreParserIdentifier(kStaticIdentifier);
48   }
Yield()49   static PreParserIdentifier Yield() {
50     return PreParserIdentifier(kYieldIdentifier);
51   }
Prototype()52   static PreParserIdentifier Prototype() {
53     return PreParserIdentifier(kPrototypeIdentifier);
54   }
Constructor()55   static PreParserIdentifier Constructor() {
56     return PreParserIdentifier(kConstructorIdentifier);
57   }
IsEval()58   bool IsEval() const { return type_ == kEvalIdentifier; }
IsArguments()59   bool IsArguments() const { return type_ == kArgumentsIdentifier; }
IsEvalOrArguments()60   bool IsEvalOrArguments() const { return IsEval() || IsArguments(); }
IsUndefined()61   bool IsUndefined() const { return type_ == kUndefinedIdentifier; }
IsLet()62   bool IsLet() const { return type_ == kLetIdentifier; }
IsStatic()63   bool IsStatic() const { return type_ == kStaticIdentifier; }
IsYield()64   bool IsYield() const { return type_ == kYieldIdentifier; }
IsPrototype()65   bool IsPrototype() const { return type_ == kPrototypeIdentifier; }
IsConstructor()66   bool IsConstructor() const { return type_ == kConstructorIdentifier; }
IsFutureReserved()67   bool IsFutureReserved() const { return type_ == kFutureReservedIdentifier; }
IsFutureStrictReserved()68   bool IsFutureStrictReserved() const {
69     return type_ == kFutureStrictReservedIdentifier ||
70            type_ == kLetIdentifier || type_ == kStaticIdentifier ||
71            type_ == kYieldIdentifier;
72   }
73 
74   // Allow identifier->name()[->length()] to work. The preparser
75   // does not need the actual positions/lengths of the identifiers.
76   const PreParserIdentifier* operator->() const { return this; }
raw_name()77   const PreParserIdentifier raw_name() const { return *this; }
78 
position()79   int position() const { return 0; }
length()80   int length() const { return 0; }
81 
82  private:
83   enum Type {
84     kUnknownIdentifier,
85     kFutureReservedIdentifier,
86     kFutureStrictReservedIdentifier,
87     kLetIdentifier,
88     kStaticIdentifier,
89     kYieldIdentifier,
90     kEvalIdentifier,
91     kArgumentsIdentifier,
92     kUndefinedIdentifier,
93     kPrototypeIdentifier,
94     kConstructorIdentifier
95   };
96 
PreParserIdentifier(Type type)97   explicit PreParserIdentifier(Type type) : type_(type) {}
98   Type type_;
99 
100   friend class PreParserExpression;
101 };
102 
103 
104 class PreParserExpression {
105  public:
Default()106   static PreParserExpression Default() {
107     return PreParserExpression(TypeField::encode(kExpression));
108   }
109 
Spread(PreParserExpression expression)110   static PreParserExpression Spread(PreParserExpression expression) {
111     return PreParserExpression(TypeField::encode(kSpreadExpression));
112   }
113 
FromIdentifier(PreParserIdentifier id)114   static PreParserExpression FromIdentifier(PreParserIdentifier id) {
115     return PreParserExpression(TypeField::encode(kIdentifierExpression) |
116                                IdentifierTypeField::encode(id.type_));
117   }
118 
BinaryOperation(PreParserExpression left,Token::Value op,PreParserExpression right)119   static PreParserExpression BinaryOperation(PreParserExpression left,
120                                              Token::Value op,
121                                              PreParserExpression right) {
122     return PreParserExpression(TypeField::encode(kBinaryOperationExpression));
123   }
124 
Assignment()125   static PreParserExpression Assignment() {
126     return PreParserExpression(TypeField::encode(kExpression) |
127                                ExpressionTypeField::encode(kAssignment));
128   }
129 
ObjectLiteral()130   static PreParserExpression ObjectLiteral() {
131     return PreParserExpression(TypeField::encode(kObjectLiteralExpression));
132   }
133 
ArrayLiteral()134   static PreParserExpression ArrayLiteral() {
135     return PreParserExpression(TypeField::encode(kArrayLiteralExpression));
136   }
137 
StringLiteral()138   static PreParserExpression StringLiteral() {
139     return PreParserExpression(TypeField::encode(kStringLiteralExpression));
140   }
141 
UseStrictStringLiteral()142   static PreParserExpression UseStrictStringLiteral() {
143     return PreParserExpression(TypeField::encode(kStringLiteralExpression) |
144                                IsUseStrictField::encode(true));
145   }
146 
UseStrongStringLiteral()147   static PreParserExpression UseStrongStringLiteral() {
148     return PreParserExpression(TypeField::encode(kStringLiteralExpression) |
149                                IsUseStrongField::encode(true));
150   }
151 
This()152   static PreParserExpression This() {
153     return PreParserExpression(TypeField::encode(kExpression) |
154                                ExpressionTypeField::encode(kThisExpression));
155   }
156 
ThisProperty()157   static PreParserExpression ThisProperty() {
158     return PreParserExpression(
159         TypeField::encode(kExpression) |
160         ExpressionTypeField::encode(kThisPropertyExpression));
161   }
162 
Property()163   static PreParserExpression Property() {
164     return PreParserExpression(
165         TypeField::encode(kExpression) |
166         ExpressionTypeField::encode(kPropertyExpression));
167   }
168 
Call()169   static PreParserExpression Call() {
170     return PreParserExpression(TypeField::encode(kExpression) |
171                                ExpressionTypeField::encode(kCallExpression));
172   }
173 
SuperCallReference()174   static PreParserExpression SuperCallReference() {
175     return PreParserExpression(
176         TypeField::encode(kExpression) |
177         ExpressionTypeField::encode(kSuperCallReference));
178   }
179 
NoTemplateTag()180   static PreParserExpression NoTemplateTag() {
181     return PreParserExpression(
182         TypeField::encode(kExpression) |
183         ExpressionTypeField::encode(kNoTemplateTagExpression));
184   }
185 
IsIdentifier()186   bool IsIdentifier() const {
187     return TypeField::decode(code_) == kIdentifierExpression;
188   }
189 
AsIdentifier()190   PreParserIdentifier AsIdentifier() const {
191     DCHECK(IsIdentifier());
192     return PreParserIdentifier(IdentifierTypeField::decode(code_));
193   }
194 
IsAssignment()195   bool IsAssignment() const {
196     return TypeField::decode(code_) == kExpression &&
197            ExpressionTypeField::decode(code_) == kAssignment;
198   }
199 
IsObjectLiteral()200   bool IsObjectLiteral() const {
201     return TypeField::decode(code_) == kObjectLiteralExpression;
202   }
203 
IsArrayLiteral()204   bool IsArrayLiteral() const {
205     return TypeField::decode(code_) == kArrayLiteralExpression;
206   }
207 
IsStringLiteral()208   bool IsStringLiteral() const {
209     return TypeField::decode(code_) == kStringLiteralExpression;
210   }
211 
IsUseStrictLiteral()212   bool IsUseStrictLiteral() const {
213     return TypeField::decode(code_) == kStringLiteralExpression &&
214            IsUseStrictField::decode(code_);
215   }
216 
IsUseStrongLiteral()217   bool IsUseStrongLiteral() const {
218     return TypeField::decode(code_) == kStringLiteralExpression &&
219            IsUseStrongField::decode(code_);
220   }
221 
IsThis()222   bool IsThis() const {
223     return TypeField::decode(code_) == kExpression &&
224            ExpressionTypeField::decode(code_) == kThisExpression;
225   }
226 
IsThisProperty()227   bool IsThisProperty() const {
228     return TypeField::decode(code_) == kExpression &&
229            ExpressionTypeField::decode(code_) == kThisPropertyExpression;
230   }
231 
IsProperty()232   bool IsProperty() const {
233     return TypeField::decode(code_) == kExpression &&
234            (ExpressionTypeField::decode(code_) == kPropertyExpression ||
235             ExpressionTypeField::decode(code_) == kThisPropertyExpression);
236   }
237 
IsCall()238   bool IsCall() const {
239     return TypeField::decode(code_) == kExpression &&
240            ExpressionTypeField::decode(code_) == kCallExpression;
241   }
242 
IsSuperCallReference()243   bool IsSuperCallReference() const {
244     return TypeField::decode(code_) == kExpression &&
245            ExpressionTypeField::decode(code_) == kSuperCallReference;
246   }
247 
IsValidReferenceExpression()248   bool IsValidReferenceExpression() const {
249     return IsIdentifier() || IsProperty();
250   }
251 
252   // At the moment PreParser doesn't track these expression types.
IsFunctionLiteral()253   bool IsFunctionLiteral() const { return false; }
IsCallNew()254   bool IsCallNew() const { return false; }
255 
IsNoTemplateTag()256   bool IsNoTemplateTag() const {
257     return TypeField::decode(code_) == kExpression &&
258            ExpressionTypeField::decode(code_) == kNoTemplateTagExpression;
259   }
260 
IsSpreadExpression()261   bool IsSpreadExpression() const {
262     return TypeField::decode(code_) == kSpreadExpression;
263   }
264 
AsFunctionLiteral()265   PreParserExpression AsFunctionLiteral() { return *this; }
266 
IsBinaryOperation()267   bool IsBinaryOperation() const {
268     return TypeField::decode(code_) == kBinaryOperationExpression;
269   }
270 
271   // Dummy implementation for making expression->somefunc() work in both Parser
272   // and PreParser.
273   PreParserExpression* operator->() { return this; }
274 
275   // More dummy implementations of things PreParser doesn't need to track:
set_index(int index)276   void set_index(int index) {}  // For YieldExpressions
set_should_eager_compile()277   void set_should_eager_compile() {}
278 
position()279   int position() const { return RelocInfo::kNoPosition; }
set_function_token_position(int position)280   void set_function_token_position(int position) {}
281 
282   // Parenthesized expressions in the form `( Expression )`.
set_is_parenthesized()283   void set_is_parenthesized() {
284     code_ = ParenthesizedField::update(code_, true);
285   }
is_parenthesized()286   bool is_parenthesized() const { return ParenthesizedField::decode(code_); }
287 
288  private:
289   enum Type {
290     kExpression,
291     kIdentifierExpression,
292     kStringLiteralExpression,
293     kBinaryOperationExpression,
294     kSpreadExpression,
295     kObjectLiteralExpression,
296     kArrayLiteralExpression
297   };
298 
299   enum ExpressionType {
300     kThisExpression,
301     kThisPropertyExpression,
302     kPropertyExpression,
303     kCallExpression,
304     kSuperCallReference,
305     kNoTemplateTagExpression,
306     kAssignment
307   };
308 
PreParserExpression(uint32_t expression_code)309   explicit PreParserExpression(uint32_t expression_code)
310       : code_(expression_code) {}
311 
312   // The first three bits are for the Type.
313   typedef BitField<Type, 0, 3> TypeField;
314 
315   // The high order bit applies only to nodes which would inherit from the
316   // Expression ASTNode --- This is by necessity, due to the fact that
317   // Expression nodes may be represented as multiple Types, not exclusively
318   // through kExpression.
319   // TODO(caitp, adamk): clean up PreParserExpression bitfields.
320   typedef BitField<bool, 31, 1> ParenthesizedField;
321 
322   // The rest of the bits are interpreted depending on the value
323   // of the Type field, so they can share the storage.
324   typedef BitField<ExpressionType, TypeField::kNext, 3> ExpressionTypeField;
325   typedef BitField<bool, TypeField::kNext, 1> IsUseStrictField;
326   typedef BitField<bool, IsUseStrictField::kNext, 1> IsUseStrongField;
327   typedef BitField<PreParserIdentifier::Type, TypeField::kNext, 10>
328       IdentifierTypeField;
329   typedef BitField<bool, TypeField::kNext, 1> HasCoverInitializedNameField;
330 
331   uint32_t code_;
332 };
333 
334 
335 // The pre-parser doesn't need to build lists of expressions, identifiers, or
336 // the like.
337 template <typename T>
338 class PreParserList {
339  public:
340   // These functions make list->Add(some_expression) work (and do nothing).
PreParserList()341   PreParserList() : length_(0) {}
342   PreParserList* operator->() { return this; }
Add(T,void *)343   void Add(T, void*) { ++length_; }
length()344   int length() const { return length_; }
345  private:
346   int length_;
347 };
348 
349 
350 typedef PreParserList<PreParserExpression> PreParserExpressionList;
351 
352 
353 class PreParserStatement {
354  public:
Default()355   static PreParserStatement Default() {
356     return PreParserStatement(kUnknownStatement);
357   }
358 
Jump()359   static PreParserStatement Jump() {
360     return PreParserStatement(kJumpStatement);
361   }
362 
FunctionDeclaration()363   static PreParserStatement FunctionDeclaration() {
364     return PreParserStatement(kFunctionDeclaration);
365   }
366 
367   // Creates expression statement from expression.
368   // Preserves being an unparenthesized string literal, possibly
369   // "use strict".
ExpressionStatement(PreParserExpression expression)370   static PreParserStatement ExpressionStatement(
371       PreParserExpression expression) {
372     if (expression.IsUseStrictLiteral()) {
373       return PreParserStatement(kUseStrictExpressionStatement);
374     }
375     if (expression.IsUseStrongLiteral()) {
376       return PreParserStatement(kUseStrongExpressionStatement);
377     }
378     if (expression.IsStringLiteral()) {
379       return PreParserStatement(kStringLiteralExpressionStatement);
380     }
381     return Default();
382   }
383 
IsStringLiteral()384   bool IsStringLiteral() {
385     return code_ == kStringLiteralExpressionStatement;
386   }
387 
IsUseStrictLiteral()388   bool IsUseStrictLiteral() {
389     return code_ == kUseStrictExpressionStatement;
390   }
391 
IsUseStrongLiteral()392   bool IsUseStrongLiteral() { return code_ == kUseStrongExpressionStatement; }
393 
IsFunctionDeclaration()394   bool IsFunctionDeclaration() {
395     return code_ == kFunctionDeclaration;
396   }
397 
IsJumpStatement()398   bool IsJumpStatement() {
399     return code_ == kJumpStatement;
400   }
401 
402  private:
403   enum Type {
404     kUnknownStatement,
405     kJumpStatement,
406     kStringLiteralExpressionStatement,
407     kUseStrictExpressionStatement,
408     kUseStrongExpressionStatement,
409     kFunctionDeclaration
410   };
411 
PreParserStatement(Type code)412   explicit PreParserStatement(Type code) : code_(code) {}
413   Type code_;
414 };
415 
416 
417 typedef PreParserList<PreParserStatement> PreParserStatementList;
418 
419 
420 class PreParserFactory {
421  public:
PreParserFactory(void * unused_value_factory)422   explicit PreParserFactory(void* unused_value_factory) {}
NewStringLiteral(PreParserIdentifier identifier,int pos)423   PreParserExpression NewStringLiteral(PreParserIdentifier identifier,
424                                        int pos) {
425     return PreParserExpression::Default();
426   }
NewNumberLiteral(double number,int pos)427   PreParserExpression NewNumberLiteral(double number,
428                                        int pos) {
429     return PreParserExpression::Default();
430   }
NewRegExpLiteral(PreParserIdentifier js_pattern,int js_flags,int literal_index,bool is_strong,int pos)431   PreParserExpression NewRegExpLiteral(PreParserIdentifier js_pattern,
432                                        int js_flags, int literal_index,
433                                        bool is_strong, int pos) {
434     return PreParserExpression::Default();
435   }
NewArrayLiteral(PreParserExpressionList values,int literal_index,bool is_strong,int pos)436   PreParserExpression NewArrayLiteral(PreParserExpressionList values,
437                                       int literal_index,
438                                       bool is_strong,
439                                       int pos) {
440     return PreParserExpression::ArrayLiteral();
441   }
NewArrayLiteral(PreParserExpressionList values,int first_spread_index,int literal_index,bool is_strong,int pos)442   PreParserExpression NewArrayLiteral(PreParserExpressionList values,
443                                       int first_spread_index, int literal_index,
444                                       bool is_strong, int pos) {
445     return PreParserExpression::ArrayLiteral();
446   }
NewObjectLiteralProperty(PreParserExpression key,PreParserExpression value,ObjectLiteralProperty::Kind kind,bool is_static,bool is_computed_name)447   PreParserExpression NewObjectLiteralProperty(PreParserExpression key,
448                                                PreParserExpression value,
449                                                ObjectLiteralProperty::Kind kind,
450                                                bool is_static,
451                                                bool is_computed_name) {
452     return PreParserExpression::Default();
453   }
NewObjectLiteralProperty(PreParserExpression key,PreParserExpression value,bool is_static,bool is_computed_name)454   PreParserExpression NewObjectLiteralProperty(PreParserExpression key,
455                                                PreParserExpression value,
456                                                bool is_static,
457                                                bool is_computed_name) {
458     return PreParserExpression::Default();
459   }
NewObjectLiteral(PreParserExpressionList properties,int literal_index,int boilerplate_properties,bool has_function,bool is_strong,int pos)460   PreParserExpression NewObjectLiteral(PreParserExpressionList properties,
461                                        int literal_index,
462                                        int boilerplate_properties,
463                                        bool has_function,
464                                        bool is_strong,
465                                        int pos) {
466     return PreParserExpression::ObjectLiteral();
467   }
NewVariableProxy(void * variable)468   PreParserExpression NewVariableProxy(void* variable) {
469     return PreParserExpression::Default();
470   }
NewProperty(PreParserExpression obj,PreParserExpression key,int pos)471   PreParserExpression NewProperty(PreParserExpression obj,
472                                   PreParserExpression key,
473                                   int pos) {
474     if (obj.IsThis()) {
475       return PreParserExpression::ThisProperty();
476     }
477     return PreParserExpression::Property();
478   }
NewUnaryOperation(Token::Value op,PreParserExpression expression,int pos)479   PreParserExpression NewUnaryOperation(Token::Value op,
480                                         PreParserExpression expression,
481                                         int pos) {
482     return PreParserExpression::Default();
483   }
NewBinaryOperation(Token::Value op,PreParserExpression left,PreParserExpression right,int pos)484   PreParserExpression NewBinaryOperation(Token::Value op,
485                                          PreParserExpression left,
486                                          PreParserExpression right, int pos) {
487     return PreParserExpression::BinaryOperation(left, op, right);
488   }
NewCompareOperation(Token::Value op,PreParserExpression left,PreParserExpression right,int pos)489   PreParserExpression NewCompareOperation(Token::Value op,
490                                           PreParserExpression left,
491                                           PreParserExpression right, int pos) {
492     return PreParserExpression::Default();
493   }
NewRewritableAssignmentExpression(PreParserExpression expression)494   PreParserExpression NewRewritableAssignmentExpression(
495       PreParserExpression expression) {
496     return expression;
497   }
NewAssignment(Token::Value op,PreParserExpression left,PreParserExpression right,int pos)498   PreParserExpression NewAssignment(Token::Value op,
499                                     PreParserExpression left,
500                                     PreParserExpression right,
501                                     int pos) {
502     return PreParserExpression::Assignment();
503   }
NewYield(PreParserExpression generator_object,PreParserExpression expression,Yield::Kind yield_kind,int pos)504   PreParserExpression NewYield(PreParserExpression generator_object,
505                                PreParserExpression expression,
506                                Yield::Kind yield_kind,
507                                int pos) {
508     return PreParserExpression::Default();
509   }
NewConditional(PreParserExpression condition,PreParserExpression then_expression,PreParserExpression else_expression,int pos)510   PreParserExpression NewConditional(PreParserExpression condition,
511                                      PreParserExpression then_expression,
512                                      PreParserExpression else_expression,
513                                      int pos) {
514     return PreParserExpression::Default();
515   }
NewCountOperation(Token::Value op,bool is_prefix,PreParserExpression expression,int pos)516   PreParserExpression NewCountOperation(Token::Value op,
517                                         bool is_prefix,
518                                         PreParserExpression expression,
519                                         int pos) {
520     return PreParserExpression::Default();
521   }
NewCall(PreParserExpression expression,PreParserExpressionList arguments,int pos)522   PreParserExpression NewCall(PreParserExpression expression,
523                               PreParserExpressionList arguments,
524                               int pos) {
525     return PreParserExpression::Call();
526   }
NewCallNew(PreParserExpression expression,PreParserExpressionList arguments,int pos)527   PreParserExpression NewCallNew(PreParserExpression expression,
528                                  PreParserExpressionList arguments,
529                                  int pos) {
530     return PreParserExpression::Default();
531   }
NewCallRuntime(const AstRawString * name,const Runtime::Function * function,PreParserExpressionList arguments,int pos)532   PreParserExpression NewCallRuntime(const AstRawString* name,
533                                      const Runtime::Function* function,
534                                      PreParserExpressionList arguments,
535                                      int pos) {
536     return PreParserExpression::Default();
537   }
NewReturnStatement(PreParserExpression expression,int pos)538   PreParserStatement NewReturnStatement(PreParserExpression expression,
539                                         int pos) {
540     return PreParserStatement::Default();
541   }
NewFunctionLiteral(PreParserIdentifier name,Scope * scope,PreParserStatementList body,int materialized_literal_count,int expected_property_count,int parameter_count,FunctionLiteral::ParameterFlag has_duplicate_parameters,FunctionLiteral::FunctionType function_type,FunctionLiteral::EagerCompileHint eager_compile_hint,FunctionKind kind,int position)542   PreParserExpression NewFunctionLiteral(
543       PreParserIdentifier name, Scope* scope, PreParserStatementList body,
544       int materialized_literal_count, int expected_property_count,
545       int parameter_count,
546       FunctionLiteral::ParameterFlag has_duplicate_parameters,
547       FunctionLiteral::FunctionType function_type,
548       FunctionLiteral::EagerCompileHint eager_compile_hint, FunctionKind kind,
549       int position) {
550     return PreParserExpression::Default();
551   }
552 
NewSpread(PreParserExpression expression,int pos)553   PreParserExpression NewSpread(PreParserExpression expression, int pos) {
554     return PreParserExpression::Spread(expression);
555   }
556 
NewEmptyParentheses(int pos)557   PreParserExpression NewEmptyParentheses(int pos) {
558     return PreParserExpression::Default();
559   }
560 
561   // Return the object itself as AstVisitor and implement the needed
562   // dummy method right in this class.
visitor()563   PreParserFactory* visitor() { return this; }
ast_properties()564   int* ast_properties() {
565     static int dummy = 42;
566     return &dummy;
567   }
568 };
569 
570 
571 struct PreParserFormalParameters : FormalParametersBase {
PreParserFormalParametersPreParserFormalParameters572   explicit PreParserFormalParameters(Scope* scope)
573       : FormalParametersBase(scope) {}
574   int arity = 0;
575 
ArityPreParserFormalParameters576   int Arity() const { return arity; }
atPreParserFormalParameters577   PreParserIdentifier at(int i) { return PreParserIdentifier(); }  // Dummy
578 };
579 
580 
581 class PreParser;
582 
583 class PreParserTraits {
584  public:
585   struct Type {
586     // TODO(marja): To be removed. The Traits object should contain all the data
587     // it needs.
588     typedef PreParser* Parser;
589 
590     // PreParser doesn't need to store generator variables.
591     typedef void GeneratorVariable;
592 
593     typedef int AstProperties;
594 
595     // Return types for traversing functions.
596     typedef PreParserIdentifier Identifier;
597     typedef PreParserExpression Expression;
598     typedef PreParserExpression YieldExpression;
599     typedef PreParserExpression FunctionLiteral;
600     typedef PreParserExpression ClassLiteral;
601     typedef PreParserExpression ObjectLiteralProperty;
602     typedef PreParserExpression Literal;
603     typedef PreParserExpressionList ExpressionList;
604     typedef PreParserExpressionList PropertyList;
605     typedef PreParserIdentifier FormalParameter;
606     typedef PreParserFormalParameters FormalParameters;
607     typedef PreParserStatementList StatementList;
608 
609     // For constructing objects returned by the traversing functions.
610     typedef PreParserFactory Factory;
611   };
612 
PreParserTraits(PreParser * pre_parser)613   explicit PreParserTraits(PreParser* pre_parser) : pre_parser_(pre_parser) {}
614 
615   // Helper functions for recursive descent.
IsEval(PreParserIdentifier identifier)616   static bool IsEval(PreParserIdentifier identifier) {
617     return identifier.IsEval();
618   }
619 
IsArguments(PreParserIdentifier identifier)620   static bool IsArguments(PreParserIdentifier identifier) {
621     return identifier.IsArguments();
622   }
623 
IsEvalOrArguments(PreParserIdentifier identifier)624   static bool IsEvalOrArguments(PreParserIdentifier identifier) {
625     return identifier.IsEvalOrArguments();
626   }
627 
IsUndefined(PreParserIdentifier identifier)628   static bool IsUndefined(PreParserIdentifier identifier) {
629     return identifier.IsUndefined();
630   }
631 
IsPrototype(PreParserIdentifier identifier)632   static bool IsPrototype(PreParserIdentifier identifier) {
633     return identifier.IsPrototype();
634   }
635 
IsConstructor(PreParserIdentifier identifier)636   static bool IsConstructor(PreParserIdentifier identifier) {
637     return identifier.IsConstructor();
638   }
639 
640   // Returns true if the expression is of type "this.foo".
IsThisProperty(PreParserExpression expression)641   static bool IsThisProperty(PreParserExpression expression) {
642     return expression.IsThisProperty();
643   }
644 
IsIdentifier(PreParserExpression expression)645   static bool IsIdentifier(PreParserExpression expression) {
646     return expression.IsIdentifier();
647   }
648 
AsIdentifier(PreParserExpression expression)649   static PreParserIdentifier AsIdentifier(PreParserExpression expression) {
650     return expression.AsIdentifier();
651   }
652 
IsFutureStrictReserved(PreParserIdentifier identifier)653   static bool IsFutureStrictReserved(PreParserIdentifier identifier) {
654     return identifier.IsFutureStrictReserved();
655   }
656 
IsBoilerplateProperty(PreParserExpression property)657   static bool IsBoilerplateProperty(PreParserExpression property) {
658     // PreParser doesn't count boilerplate properties.
659     return false;
660   }
661 
IsArrayIndex(PreParserIdentifier string,uint32_t * index)662   static bool IsArrayIndex(PreParserIdentifier string, uint32_t* index) {
663     return false;
664   }
665 
GetPropertyValue(PreParserExpression property)666   static PreParserExpression GetPropertyValue(PreParserExpression property) {
667     return PreParserExpression::Default();
668   }
669 
670   // Functions for encapsulating the differences between parsing and preparsing;
671   // operations interleaved with the recursive descent.
PushLiteralName(FuncNameInferrer * fni,PreParserIdentifier id)672   static void PushLiteralName(FuncNameInferrer* fni, PreParserIdentifier id) {
673     // PreParser should not use FuncNameInferrer.
674     UNREACHABLE();
675   }
676 
PushPropertyName(FuncNameInferrer * fni,PreParserExpression expression)677   static void PushPropertyName(FuncNameInferrer* fni,
678                                PreParserExpression expression) {
679     // PreParser should not use FuncNameInferrer.
680     UNREACHABLE();
681   }
682 
InferFunctionName(FuncNameInferrer * fni,PreParserExpression expression)683   static void InferFunctionName(FuncNameInferrer* fni,
684                                 PreParserExpression expression) {
685     // PreParser should not use FuncNameInferrer.
686     UNREACHABLE();
687   }
688 
CheckFunctionLiteralInsideTopLevelObjectLiteral(Scope * scope,PreParserExpression property,bool * has_function)689   static void CheckFunctionLiteralInsideTopLevelObjectLiteral(
690       Scope* scope, PreParserExpression property, bool* has_function) {}
691 
CheckAssigningFunctionLiteralToProperty(PreParserExpression left,PreParserExpression right)692   static void CheckAssigningFunctionLiteralToProperty(
693       PreParserExpression left, PreParserExpression right) {}
694 
MarkExpressionAsAssigned(PreParserExpression expression)695   static PreParserExpression MarkExpressionAsAssigned(
696       PreParserExpression expression) {
697     // TODO(marja): To be able to produce the same errors, the preparser needs
698     // to start tracking which expressions are variables and which are assigned.
699     return expression;
700   }
701 
ShortcutNumericLiteralBinaryExpression(PreParserExpression * x,PreParserExpression y,Token::Value op,int pos,PreParserFactory * factory)702   bool ShortcutNumericLiteralBinaryExpression(PreParserExpression* x,
703                                               PreParserExpression y,
704                                               Token::Value op,
705                                               int pos,
706                                               PreParserFactory* factory) {
707     return false;
708   }
709 
BuildUnaryExpression(PreParserExpression expression,Token::Value op,int pos,PreParserFactory * factory)710   PreParserExpression BuildUnaryExpression(PreParserExpression expression,
711                                            Token::Value op, int pos,
712                                            PreParserFactory* factory) {
713     return PreParserExpression::Default();
714   }
715 
NewThrowReferenceError(MessageTemplate::Template message,int pos)716   PreParserExpression NewThrowReferenceError(MessageTemplate::Template message,
717                                              int pos) {
718     return PreParserExpression::Default();
719   }
NewThrowSyntaxError(MessageTemplate::Template message,Handle<Object> arg,int pos)720   PreParserExpression NewThrowSyntaxError(MessageTemplate::Template message,
721                                           Handle<Object> arg, int pos) {
722     return PreParserExpression::Default();
723   }
NewThrowTypeError(MessageTemplate::Template message,Handle<Object> arg,int pos)724   PreParserExpression NewThrowTypeError(MessageTemplate::Template message,
725                                         Handle<Object> arg, int pos) {
726     return PreParserExpression::Default();
727   }
728 
729   // Reporting errors.
730   void ReportMessageAt(Scanner::Location location,
731                        MessageTemplate::Template message,
732                        const char* arg = NULL,
733                        ParseErrorType error_type = kSyntaxError);
734   void ReportMessageAt(int start_pos, int end_pos,
735                        MessageTemplate::Template message,
736                        const char* arg = NULL,
737                        ParseErrorType error_type = kSyntaxError);
738 
739   // "null" return type creators.
EmptyIdentifier()740   static PreParserIdentifier EmptyIdentifier() {
741     return PreParserIdentifier::Default();
742   }
EmptyIdentifierString()743   static PreParserIdentifier EmptyIdentifierString() {
744     return PreParserIdentifier::Default();
745   }
EmptyExpression()746   static PreParserExpression EmptyExpression() {
747     return PreParserExpression::Default();
748   }
EmptyLiteral()749   static PreParserExpression EmptyLiteral() {
750     return PreParserExpression::Default();
751   }
EmptyObjectLiteralProperty()752   static PreParserExpression EmptyObjectLiteralProperty() {
753     return PreParserExpression::Default();
754   }
EmptyFunctionLiteral()755   static PreParserExpression EmptyFunctionLiteral() {
756     return PreParserExpression::Default();
757   }
NullExpressionList()758   static PreParserExpressionList NullExpressionList() {
759     return PreParserExpressionList();
760   }
761 
762   // Odd-ball literal creators.
GetLiteralTheHole(int position,PreParserFactory * factory)763   static PreParserExpression GetLiteralTheHole(int position,
764                                                PreParserFactory* factory) {
765     return PreParserExpression::Default();
766   }
767 
768   // Producing data during the recursive descent.
769   PreParserIdentifier GetSymbol(Scanner* scanner);
770   PreParserIdentifier GetNumberAsSymbol(Scanner* scanner);
771 
GetNextSymbol(Scanner * scanner)772   static PreParserIdentifier GetNextSymbol(Scanner* scanner) {
773     return PreParserIdentifier::Default();
774   }
775 
ThisExpression(Scope * scope,PreParserFactory * factory,int pos)776   static PreParserExpression ThisExpression(Scope* scope,
777                                             PreParserFactory* factory,
778                                             int pos) {
779     return PreParserExpression::This();
780   }
781 
SuperPropertyReference(Scope * scope,PreParserFactory * factory,int pos)782   static PreParserExpression SuperPropertyReference(Scope* scope,
783                                                     PreParserFactory* factory,
784                                                     int pos) {
785     return PreParserExpression::Default();
786   }
787 
SuperCallReference(Scope * scope,PreParserFactory * factory,int pos)788   static PreParserExpression SuperCallReference(Scope* scope,
789                                                 PreParserFactory* factory,
790                                                 int pos) {
791     return PreParserExpression::SuperCallReference();
792   }
793 
NewTargetExpression(Scope * scope,PreParserFactory * factory,int pos)794   static PreParserExpression NewTargetExpression(Scope* scope,
795                                                  PreParserFactory* factory,
796                                                  int pos) {
797     return PreParserExpression::Default();
798   }
799 
DefaultConstructor(bool call_super,Scope * scope,int pos,int end_pos)800   static PreParserExpression DefaultConstructor(bool call_super, Scope* scope,
801                                                 int pos, int end_pos) {
802     return PreParserExpression::Default();
803   }
804 
ExpressionFromLiteral(Token::Value token,int pos,Scanner * scanner,PreParserFactory * factory)805   static PreParserExpression ExpressionFromLiteral(
806       Token::Value token, int pos, Scanner* scanner,
807       PreParserFactory* factory) {
808     return PreParserExpression::Default();
809   }
810 
ExpressionFromIdentifier(PreParserIdentifier name,int start_position,int end_position,Scope * scope,PreParserFactory * factory)811   static PreParserExpression ExpressionFromIdentifier(
812       PreParserIdentifier name, int start_position, int end_position,
813       Scope* scope, PreParserFactory* factory) {
814     return PreParserExpression::FromIdentifier(name);
815   }
816 
817   PreParserExpression ExpressionFromString(int pos,
818                                            Scanner* scanner,
819                                            PreParserFactory* factory = NULL);
820 
GetIterator(PreParserExpression iterable,PreParserFactory * factory,int pos)821   PreParserExpression GetIterator(PreParserExpression iterable,
822                                   PreParserFactory* factory, int pos) {
823     return PreParserExpression::Default();
824   }
825 
NewExpressionList(int size,Zone * zone)826   static PreParserExpressionList NewExpressionList(int size, Zone* zone) {
827     return PreParserExpressionList();
828   }
829 
NewStatementList(int size,Zone * zone)830   static PreParserStatementList NewStatementList(int size, Zone* zone) {
831     return PreParserStatementList();
832   }
833 
NewPropertyList(int size,Zone * zone)834   static PreParserExpressionList NewPropertyList(int size, Zone* zone) {
835     return PreParserExpressionList();
836   }
837 
AddParameterInitializationBlock(const PreParserFormalParameters & parameters,PreParserStatementList list,bool * ok)838   static void AddParameterInitializationBlock(
839       const PreParserFormalParameters& parameters,
840       PreParserStatementList list, bool* ok) {}
841 
SkipLazyFunctionBody(int * materialized_literal_count,int * expected_property_count,bool * ok)842   V8_INLINE void SkipLazyFunctionBody(int* materialized_literal_count,
843                                       int* expected_property_count, bool* ok) {
844     UNREACHABLE();
845   }
846 
847   V8_INLINE PreParserStatementList ParseEagerFunctionBody(
848       PreParserIdentifier function_name, int pos,
849       const PreParserFormalParameters& parameters, FunctionKind kind,
850       FunctionLiteral::FunctionType function_type, bool* ok);
851 
852   V8_INLINE void ParseArrowFunctionFormalParameterList(
853       PreParserFormalParameters* parameters,
854       PreParserExpression expression, const Scanner::Location& params_loc,
855       Scanner::Location* duplicate_loc, bool* ok);
856 
ReindexLiterals(const PreParserFormalParameters & paramaters)857   void ReindexLiterals(const PreParserFormalParameters& paramaters) {}
858 
859   struct TemplateLiteralState {};
860 
OpenTemplateLiteral(int pos)861   TemplateLiteralState OpenTemplateLiteral(int pos) {
862     return TemplateLiteralState();
863   }
AddTemplateSpan(TemplateLiteralState *,bool)864   void AddTemplateSpan(TemplateLiteralState*, bool) {}
AddTemplateExpression(TemplateLiteralState *,PreParserExpression)865   void AddTemplateExpression(TemplateLiteralState*, PreParserExpression) {}
CloseTemplateLiteral(TemplateLiteralState *,int,PreParserExpression tag)866   PreParserExpression CloseTemplateLiteral(TemplateLiteralState*, int,
867                                            PreParserExpression tag) {
868     if (IsTaggedTemplate(tag)) {
869       // Emulate generation of array literals for tag callsite
870       // 1st is array of cooked strings, second is array of raw strings
871       MaterializeTemplateCallsiteLiterals();
872     }
873     return EmptyExpression();
874   }
875   inline void MaterializeTemplateCallsiteLiterals();
NoTemplateTag()876   PreParserExpression NoTemplateTag() {
877     return PreParserExpression::NoTemplateTag();
878   }
IsTaggedTemplate(const PreParserExpression tag)879   static bool IsTaggedTemplate(const PreParserExpression tag) {
880     return !tag.IsNoTemplateTag();
881   }
882 
AddFormalParameter(PreParserFormalParameters * parameters,PreParserExpression pattern,PreParserExpression initializer,int initializer_end_position,bool is_rest)883   void AddFormalParameter(PreParserFormalParameters* parameters,
884                           PreParserExpression pattern,
885                           PreParserExpression initializer,
886                           int initializer_end_position, bool is_rest) {
887     ++parameters->arity;
888   }
DeclareFormalParameter(Scope * scope,PreParserIdentifier parameter,ExpressionClassifier * classifier)889   void DeclareFormalParameter(Scope* scope, PreParserIdentifier parameter,
890                               ExpressionClassifier* classifier) {
891     if (!classifier->is_simple_parameter_list()) {
892       scope->SetHasNonSimpleParameters();
893     }
894   }
895 
CheckConflictingVarDeclarations(Scope * scope,bool * ok)896   void CheckConflictingVarDeclarations(Scope* scope, bool* ok) {}
897 
898   // Temporary glue; these functions will move to ParserBase.
899   PreParserExpression ParseV8Intrinsic(bool* ok);
900   V8_INLINE PreParserExpression ParseDoExpression(bool* ok);
901   PreParserExpression ParseFunctionLiteral(
902       PreParserIdentifier name, Scanner::Location function_name_location,
903       FunctionNameValidity function_name_validity, FunctionKind kind,
904       int function_token_position, FunctionLiteral::FunctionType type,
905       FunctionLiteral::ArityRestriction arity_restriction,
906       LanguageMode language_mode, bool* ok);
907 
908   PreParserExpression ParseClassLiteral(PreParserIdentifier name,
909                                         Scanner::Location class_name_location,
910                                         bool name_is_strict_reserved, int pos,
911                                         bool* ok);
912 
PrepareSpreadArguments(PreParserExpressionList list)913   PreParserExpressionList PrepareSpreadArguments(PreParserExpressionList list) {
914     return list;
915   }
916 
917   inline void MaterializeUnspreadArgumentsLiterals(int count);
918 
919   inline PreParserExpression SpreadCall(PreParserExpression function,
920                                         PreParserExpressionList args, int pos);
921 
922   inline PreParserExpression SpreadCallNew(PreParserExpression function,
923                                            PreParserExpressionList args,
924                                            int pos);
925 
RewriteDestructuringAssignments()926   inline void RewriteDestructuringAssignments() {}
927 
QueueDestructuringAssignmentForRewriting(PreParserExpression)928   inline void QueueDestructuringAssignmentForRewriting(PreParserExpression) {}
929 
SetFunctionNameFromPropertyName(PreParserExpression,PreParserIdentifier)930   void SetFunctionNameFromPropertyName(PreParserExpression,
931                                        PreParserIdentifier) {}
SetFunctionNameFromIdentifierRef(PreParserExpression,PreParserExpression)932   void SetFunctionNameFromIdentifierRef(PreParserExpression,
933                                         PreParserExpression) {}
934 
935   inline PreParserExpression RewriteNonPattern(
936       PreParserExpression expr, const ExpressionClassifier* classifier,
937       bool* ok);
938   inline PreParserExpression RewriteNonPatternArguments(
939       PreParserExpression args, const ExpressionClassifier* classifier,
940       bool* ok);
941   inline PreParserExpression RewriteNonPatternObjectLiteralProperty(
942       PreParserExpression property, const ExpressionClassifier* classifier,
943       bool* ok);
944 
945  private:
946   PreParser* pre_parser_;
947 };
948 
949 
950 // Preparsing checks a JavaScript program and emits preparse-data that helps
951 // a later parsing to be faster.
952 // See preparse-data-format.h for the data format.
953 
954 // The PreParser checks that the syntax follows the grammar for JavaScript,
955 // and collects some information about the program along the way.
956 // The grammar check is only performed in order to understand the program
957 // sufficiently to deduce some information about it, that can be used
958 // to speed up later parsing. Finding errors is not the goal of pre-parsing,
959 // rather it is to speed up properly written and correct programs.
960 // That means that contextual checks (like a label being declared where
961 // it is used) are generally omitted.
962 class PreParser : public ParserBase<PreParserTraits> {
963  public:
964   typedef PreParserIdentifier Identifier;
965   typedef PreParserExpression Expression;
966   typedef PreParserStatement Statement;
967 
968   enum PreParseResult {
969     kPreParseStackOverflow,
970     kPreParseSuccess
971   };
972 
PreParser(Zone * zone,Scanner * scanner,AstValueFactory * ast_value_factory,ParserRecorder * log,uintptr_t stack_limit)973   PreParser(Zone* zone, Scanner* scanner, AstValueFactory* ast_value_factory,
974             ParserRecorder* log, uintptr_t stack_limit)
975       : ParserBase<PreParserTraits>(zone, scanner, stack_limit, NULL,
976                                     ast_value_factory, log, this) {}
977 
978   // Pre-parse the program from the character stream; returns true on
979   // success (even if parsing failed, the pre-parse data successfully
980   // captured the syntax error), and false if a stack-overflow happened
981   // during parsing.
982   PreParseResult PreParseProgram(int* materialized_literals = 0) {
983     Scope* scope = NewScope(scope_, SCRIPT_SCOPE);
984     PreParserFactory factory(NULL);
985     FunctionState top_scope(&function_state_, &scope_, scope, kNormalFunction,
986                             &factory);
987     bool ok = true;
988     int start_position = scanner()->peek_location().beg_pos;
989     ParseStatementList(Token::EOS, &ok);
990     if (stack_overflow()) return kPreParseStackOverflow;
991     if (!ok) {
992       ReportUnexpectedToken(scanner()->current_token());
993     } else if (is_strict(scope_->language_mode())) {
994       CheckStrictOctalLiteral(start_position, scanner()->location().end_pos,
995                               &ok);
996     }
997     if (materialized_literals) {
998       *materialized_literals = function_state_->materialized_literal_count();
999     }
1000     return kPreParseSuccess;
1001   }
1002 
1003   // Parses a single function literal, from the opening parentheses before
1004   // parameters to the closing brace after the body.
1005   // Returns a FunctionEntry describing the body of the function in enough
1006   // detail that it can be lazily compiled.
1007   // The scanner is expected to have matched the "function" or "function*"
1008   // keyword and parameters, and have consumed the initial '{'.
1009   // At return, unless an error occurred, the scanner is positioned before the
1010   // the final '}'.
1011   PreParseResult PreParseLazyFunction(
1012       LanguageMode language_mode, FunctionKind kind, bool has_simple_parameters,
1013       ParserRecorder* log, Scanner::BookmarkScope* bookmark = nullptr);
1014 
1015  private:
1016   friend class PreParserTraits;
1017 
1018   static const int kLazyParseTrialLimit = 200;
1019 
1020   // These types form an algebra over syntactic categories that is just
1021   // rich enough to let us recognize and propagate the constructs that
1022   // are either being counted in the preparser data, or is important
1023   // to throw the correct syntax error exceptions.
1024 
1025   // All ParseXXX functions take as the last argument an *ok parameter
1026   // which is set to false if parsing failed; it is unchanged otherwise.
1027   // By making the 'exception handling' explicit, we are forced to check
1028   // for failure at the call sites.
1029   Statement ParseStatementListItem(bool* ok);
1030   void ParseStatementList(int end_token, bool* ok,
1031                           Scanner::BookmarkScope* bookmark = nullptr);
1032   Statement ParseStatement(bool* ok);
1033   Statement ParseSubStatement(bool* ok);
1034   Statement ParseFunctionDeclaration(bool* ok);
1035   Statement ParseClassDeclaration(bool* ok);
1036   Statement ParseBlock(bool* ok);
1037   Statement ParseVariableStatement(VariableDeclarationContext var_context,
1038                                    bool* ok);
1039   Statement ParseVariableDeclarations(VariableDeclarationContext var_context,
1040                                       int* num_decl, bool* is_lexical,
1041                                       bool* is_binding_pattern,
1042                                       Scanner::Location* first_initializer_loc,
1043                                       Scanner::Location* bindings_loc,
1044                                       bool* ok);
1045   Statement ParseExpressionOrLabelledStatement(bool* ok);
1046   Statement ParseIfStatement(bool* ok);
1047   Statement ParseContinueStatement(bool* ok);
1048   Statement ParseBreakStatement(bool* ok);
1049   Statement ParseReturnStatement(bool* ok);
1050   Statement ParseWithStatement(bool* ok);
1051   Statement ParseSwitchStatement(bool* ok);
1052   Statement ParseDoWhileStatement(bool* ok);
1053   Statement ParseWhileStatement(bool* ok);
1054   Statement ParseForStatement(bool* ok);
1055   Statement ParseThrowStatement(bool* ok);
1056   Statement ParseTryStatement(bool* ok);
1057   Statement ParseDebuggerStatement(bool* ok);
1058   Expression ParseConditionalExpression(bool accept_IN, bool* ok);
1059   Expression ParseObjectLiteral(bool* ok);
1060   Expression ParseV8Intrinsic(bool* ok);
1061   Expression ParseDoExpression(bool* ok);
1062 
1063   V8_INLINE void SkipLazyFunctionBody(int* materialized_literal_count,
1064                                       int* expected_property_count, bool* ok);
1065   V8_INLINE PreParserStatementList ParseEagerFunctionBody(
1066       PreParserIdentifier function_name, int pos,
1067       const PreParserFormalParameters& parameters, FunctionKind kind,
1068       FunctionLiteral::FunctionType function_type, bool* ok);
1069 
1070   Expression ParseFunctionLiteral(
1071       Identifier name, Scanner::Location function_name_location,
1072       FunctionNameValidity function_name_validity, FunctionKind kind,
1073       int function_token_pos, FunctionLiteral::FunctionType function_type,
1074       FunctionLiteral::ArityRestriction arity_restriction,
1075       LanguageMode language_mode, bool* ok);
1076   void ParseLazyFunctionLiteralBody(bool* ok,
1077                                     Scanner::BookmarkScope* bookmark = nullptr);
1078 
1079   PreParserExpression ParseClassLiteral(PreParserIdentifier name,
1080                                         Scanner::Location class_name_location,
1081                                         bool name_is_strict_reserved, int pos,
1082                                         bool* ok);
1083 };
1084 
1085 
MaterializeTemplateCallsiteLiterals()1086 void PreParserTraits::MaterializeTemplateCallsiteLiterals() {
1087   pre_parser_->function_state_->NextMaterializedLiteralIndex();
1088   pre_parser_->function_state_->NextMaterializedLiteralIndex();
1089 }
1090 
1091 
MaterializeUnspreadArgumentsLiterals(int count)1092 void PreParserTraits::MaterializeUnspreadArgumentsLiterals(int count) {
1093   for (int i = 0; i < count; ++i) {
1094     pre_parser_->function_state_->NextMaterializedLiteralIndex();
1095   }
1096 }
1097 
1098 
SpreadCall(PreParserExpression function,PreParserExpressionList args,int pos)1099 PreParserExpression PreParserTraits::SpreadCall(PreParserExpression function,
1100                                                 PreParserExpressionList args,
1101                                                 int pos) {
1102   return pre_parser_->factory()->NewCall(function, args, pos);
1103 }
1104 
SpreadCallNew(PreParserExpression function,PreParserExpressionList args,int pos)1105 PreParserExpression PreParserTraits::SpreadCallNew(PreParserExpression function,
1106                                                    PreParserExpressionList args,
1107                                                    int pos) {
1108   return pre_parser_->factory()->NewCallNew(function, args, pos);
1109 }
1110 
1111 
ParseArrowFunctionFormalParameterList(PreParserFormalParameters * parameters,PreParserExpression params,const Scanner::Location & params_loc,Scanner::Location * duplicate_loc,bool * ok)1112 void PreParserTraits::ParseArrowFunctionFormalParameterList(
1113     PreParserFormalParameters* parameters,
1114     PreParserExpression params, const Scanner::Location& params_loc,
1115     Scanner::Location* duplicate_loc, bool* ok) {
1116   // TODO(wingo): Detect duplicated identifiers in paramlists.  Detect parameter
1117   // lists that are too long.
1118 }
1119 
1120 
ParseDoExpression(bool * ok)1121 PreParserExpression PreParserTraits::ParseDoExpression(bool* ok) {
1122   return pre_parser_->ParseDoExpression(ok);
1123 }
1124 
1125 
RewriteNonPattern(PreParserExpression expr,const ExpressionClassifier * classifier,bool * ok)1126 PreParserExpression PreParserTraits::RewriteNonPattern(
1127     PreParserExpression expr, const ExpressionClassifier* classifier,
1128     bool* ok) {
1129   pre_parser_->ValidateExpression(classifier, ok);
1130   return expr;
1131 }
1132 
1133 
RewriteNonPatternArguments(PreParserExpression args,const ExpressionClassifier * classifier,bool * ok)1134 PreParserExpression PreParserTraits::RewriteNonPatternArguments(
1135     PreParserExpression args, const ExpressionClassifier* classifier,
1136     bool* ok) {
1137   pre_parser_->ValidateExpression(classifier, ok);
1138   return args;
1139 }
1140 
1141 
RewriteNonPatternObjectLiteralProperty(PreParserExpression property,const ExpressionClassifier * classifier,bool * ok)1142 PreParserExpression PreParserTraits::RewriteNonPatternObjectLiteralProperty(
1143     PreParserExpression property, const ExpressionClassifier* classifier,
1144     bool* ok) {
1145   pre_parser_->ValidateExpression(classifier, ok);
1146   return property;
1147 }
1148 
1149 
ParseEagerFunctionBody(PreParserIdentifier function_name,int pos,const PreParserFormalParameters & parameters,FunctionKind kind,FunctionLiteral::FunctionType function_type,bool * ok)1150 PreParserStatementList PreParser::ParseEagerFunctionBody(
1151     PreParserIdentifier function_name, int pos,
1152     const PreParserFormalParameters& parameters, FunctionKind kind,
1153     FunctionLiteral::FunctionType function_type, bool* ok) {
1154   ParsingModeScope parsing_mode(this, PARSE_EAGERLY);
1155 
1156   ParseStatementList(Token::RBRACE, ok);
1157   if (!*ok) return PreParserStatementList();
1158 
1159   Expect(Token::RBRACE, ok);
1160   return PreParserStatementList();
1161 }
1162 
1163 
ParseEagerFunctionBody(PreParserIdentifier function_name,int pos,const PreParserFormalParameters & parameters,FunctionKind kind,FunctionLiteral::FunctionType function_type,bool * ok)1164 PreParserStatementList PreParserTraits::ParseEagerFunctionBody(
1165     PreParserIdentifier function_name, int pos,
1166     const PreParserFormalParameters& parameters, FunctionKind kind,
1167     FunctionLiteral::FunctionType function_type, bool* ok) {
1168   return pre_parser_->ParseEagerFunctionBody(function_name, pos, parameters,
1169                                              kind, function_type, ok);
1170 }
1171 
1172 }  // namespace internal
1173 }  // namespace v8
1174 
1175 #endif  // V8_PARSING_PREPARSER_H
1176