src/parsing/func-name-inferrer.cc - v8/v8 - Git at Google

 // Copyright 2011 the V8 project authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "src/parsing/func-name-inferrer.h"

 #include "src/ast/ast.h"
 #include "src/ast/ast-value-factory.h"
 #include "src/list-inl.h"

 namespace v8 {
 namespace internal {

 FuncNameInferrer::FuncNameInferrer(AstValueFactory* ast_value_factory,
                                    Zone* zone)
     : ast_value_factory_(ast_value_factory),
       entries_stack_(10, zone),
       names_stack_(5, zone),
       funcs_to_infer_(4, zone),
       zone_(zone) {
 }


 void FuncNameInferrer::PushEnclosingName(const AstRawString* name) {
   // Enclosing name is a name of a constructor function. To check
   // that it is really a constructor, we check that it is not empty
   // and starts with a capital letter.
   if (!name->IsEmpty() && unibrow::Uppercase::Is(name->FirstCharacter())) {
     names_stack_.Add(Name(name, kEnclosingConstructorName), zone());
   }
 }


 void FuncNameInferrer::PushLiteralName(const AstRawString* name) {
   if (IsOpen() && name != ast_value_factory_->prototype_string()) {
     names_stack_.Add(Name(name, kLiteralName), zone());
   }
 }


 void FuncNameInferrer::PushVariableName(const AstRawString* name) {
   if (IsOpen() && name != ast_value_factory_->dot_result_string()) {
     names_stack_.Add(Name(name, kVariableName), zone());
   }
 }

 void FuncNameInferrer::RemoveAsyncKeywordFromEnd() {
   DCHECK(names_stack_.length() > 0);
   DCHECK(names_stack_.last().name->IsOneByteEqualTo("async"));
   names_stack_.RemoveLast();
 }

 const AstString* FuncNameInferrer::MakeNameFromStack() {
   return MakeNameFromStackHelper(0, ast_value_factory_->empty_string());
 }

 const AstString* FuncNameInferrer::MakeNameFromStackHelper(
     int pos, const AstString* prev) {
   if (pos >= names_stack_.length()) return prev;
   if (pos < names_stack_.length() - 1 &&
       names_stack_.at(pos).type == kVariableName &&
       names_stack_.at(pos + 1).type == kVariableName) {
     // Skip consecutive variable declarations.
     return MakeNameFromStackHelper(pos + 1, prev);
   } else {
     if (prev->length() > 0) {
       const AstRawString* name = names_stack_.at(pos).name;
       if (prev->length() + name->length() + 1 > String::kMaxLength) return prev;
       const AstConsString* curr = ast_value_factory_->NewConsString(
           ast_value_factory_->dot_string(), name);
       curr = ast_value_factory_->NewConsString(prev, curr);
       return MakeNameFromStackHelper(pos + 1, curr);
     } else {
       return MakeNameFromStackHelper(pos + 1, names_stack_.at(pos).name);
     }
   }
 }


 void FuncNameInferrer::InferFunctionsNames() {
   const AstString* func_name = MakeNameFromStack();
   for (int i = 0; i < funcs_to_infer_.length(); ++i) {
     funcs_to_infer_[i]->set_raw_inferred_name(func_name);
   }
   funcs_to_infer_.Rewind(0);
 }


 }  // namespace internal
 }  // namespace v8
	// Copyright 2011 the V8 project authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "src/parsing/func-name-inferrer.h"

	#include "src/ast/ast.h"
	#include "src/ast/ast-value-factory.h"
	#include "src/list-inl.h"

	namespace v8 {
	namespace internal {

	FuncNameInferrer::FuncNameInferrer(AstValueFactory* ast_value_factory,
	Zone* zone)
	: ast_value_factory_(ast_value_factory),
	entries_stack_(10, zone),
	names_stack_(5, zone),
	funcs_to_infer_(4, zone),
	zone_(zone) {
	}


	void FuncNameInferrer::PushEnclosingName(const AstRawString* name) {
	// Enclosing name is a name of a constructor function. To check
	// that it is really a constructor, we check that it is not empty
	// and starts with a capital letter.
	if (!name->IsEmpty() && unibrow::Uppercase::Is(name->FirstCharacter())) {
	names_stack_.Add(Name(name, kEnclosingConstructorName), zone());
	}
	}


	void FuncNameInferrer::PushLiteralName(const AstRawString* name) {
	if (IsOpen() && name != ast_value_factory_->prototype_string()) {
	names_stack_.Add(Name(name, kLiteralName), zone());
	}
	}


	void FuncNameInferrer::PushVariableName(const AstRawString* name) {
	if (IsOpen() && name != ast_value_factory_->dot_result_string()) {
	names_stack_.Add(Name(name, kVariableName), zone());
	}
	}

	void FuncNameInferrer::RemoveAsyncKeywordFromEnd() {
	DCHECK(names_stack_.length() > 0);
	DCHECK(names_stack_.last().name->IsOneByteEqualTo("async"));
	names_stack_.RemoveLast();
	}

	const AstString* FuncNameInferrer::MakeNameFromStack() {
	return MakeNameFromStackHelper(0, ast_value_factory_->empty_string());
	}

	const AstString* FuncNameInferrer::MakeNameFromStackHelper(
	int pos, const AstString* prev) {
	if (pos >= names_stack_.length()) return prev;
	if (pos < names_stack_.length() - 1 &&
	names_stack_.at(pos).type == kVariableName &&
	names_stack_.at(pos + 1).type == kVariableName) {
	// Skip consecutive variable declarations.
	return MakeNameFromStackHelper(pos + 1, prev);
	} else {
	if (prev->length() > 0) {
	const AstRawString* name = names_stack_.at(pos).name;
	if (prev->length() + name->length() + 1 > String::kMaxLength) return prev;
	const AstConsString* curr = ast_value_factory_->NewConsString(
	ast_value_factory_->dot_string(), name);
	curr = ast_value_factory_->NewConsString(prev, curr);
	return MakeNameFromStackHelper(pos + 1, curr);
	} else {
	return MakeNameFromStackHelper(pos + 1, names_stack_.at(pos).name);
	}
	}
	}


	void FuncNameInferrer::InferFunctionsNames() {
	const AstString* func_name = MakeNameFromStack();
	for (int i = 0; i < funcs_to_infer_.length(); ++i) {
	funcs_to_infer_[i]->set_raw_inferred_name(func_name);
	}
	funcs_to_infer_.Rewind(0);
	}


	} // namespace internal
	} // namespace v8