src/v8/src/parsing/parse-info.cc - cobalt - Git at Google

 // Copyright 2016 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/parse-info.h"

 #include "src/api.h"
 #include "src/ast/ast-source-ranges.h"
 #include "src/ast/ast-value-factory.h"
 #include "src/ast/ast.h"
 #include "src/heap/heap-inl.h"
 #include "src/objects-inl.h"
 #include "src/objects/scope-info.h"
 #include "src/zone/zone.h"

 namespace v8 {
 namespace internal {

 ParseInfo::ParseInfo(AccountingAllocator* zone_allocator)
     : zone_(std::make_shared<Zone>(zone_allocator, ZONE_NAME)),
       flags_(0),
       extension_(nullptr),
       compile_options_(ScriptCompiler::kNoCompileOptions),
       script_scope_(nullptr),
       unicode_cache_(nullptr),
       stack_limit_(0),
       hash_seed_(0),
       compiler_hints_(0),
       start_position_(0),
       end_position_(0),
       parameters_end_pos_(kNoSourcePosition),
       function_literal_id_(FunctionLiteral::kIdTypeInvalid),
       max_function_literal_id_(FunctionLiteral::kIdTypeInvalid),
       character_stream_(nullptr),
       cached_data_(nullptr),
       ast_value_factory_(nullptr),
       ast_string_constants_(nullptr),
       function_name_(nullptr),
       runtime_call_stats_(nullptr),
       source_range_map_(nullptr),
       literal_(nullptr) {}

 ParseInfo::ParseInfo(Handle<SharedFunctionInfo> shared)
     : ParseInfo(shared->GetIsolate()->allocator()) {
   Isolate* isolate = shared->GetIsolate();
   InitFromIsolate(isolate);

   set_toplevel(shared->is_toplevel());
   set_allow_lazy_parsing(FLAG_lazy_inner_functions);
   set_is_named_expression(shared->is_named_expression());
   set_compiler_hints(shared->compiler_hints());
   set_start_position(shared->start_position());
   set_end_position(shared->end_position());
   function_literal_id_ = shared->function_literal_id();
   set_language_mode(shared->language_mode());
   set_module(shared->kind() == FunctionKind::kModule);
   set_asm_wasm_broken(shared->is_asm_wasm_broken());

   Handle<Script> script(Script::cast(shared->script()));
   set_script(script);
   set_native(script->type() == Script::TYPE_NATIVE);
   set_eval(script->compilation_type() == Script::COMPILATION_TYPE_EVAL);

   Handle<HeapObject> scope_info(shared->outer_scope_info());
   if (!scope_info->IsTheHole(isolate) &&
       Handle<ScopeInfo>::cast(scope_info)->length() > 0) {
     set_outer_scope_info(Handle<ScopeInfo>::cast(scope_info));
   }

   // CollectTypeProfile uses its own feedback slots. If we have existing
   // FeedbackMetadata, we can only collect type profile if the feedback vector
   // has the appropriate slots.
   set_collect_type_profile(
       isolate->is_collecting_type_profile() &&
       (shared->feedback_metadata()->length() == 0
            ? script->IsUserJavaScript()
            : shared->feedback_metadata()->HasTypeProfileSlot()));
   if (block_coverage_enabled() && script->IsUserJavaScript()) {
     AllocateSourceRangeMap();
   }
 }

 ParseInfo::ParseInfo(Handle<Script> script)
     : ParseInfo(script->GetIsolate()->allocator()) {
   InitFromIsolate(script->GetIsolate());

   set_allow_lazy_parsing();
   set_toplevel();
   set_script(script);

   set_native(script->type() == Script::TYPE_NATIVE);
   set_eval(script->compilation_type() == Script::COMPILATION_TYPE_EVAL);

   set_collect_type_profile(script->GetIsolate()->is_collecting_type_profile() &&
                            script->IsUserJavaScript());
   if (block_coverage_enabled() && script->IsUserJavaScript()) {
     AllocateSourceRangeMap();
   }
 }

 ParseInfo::~ParseInfo() {}

 // static
 ParseInfo* ParseInfo::AllocateWithoutScript(Handle<SharedFunctionInfo> shared) {
   Isolate* isolate = shared->GetIsolate();
   ParseInfo* p = new ParseInfo(isolate->allocator());

   p->InitFromIsolate(isolate);
   p->set_toplevel(shared->is_toplevel());
   p->set_allow_lazy_parsing(FLAG_lazy_inner_functions);
   p->set_is_named_expression(shared->is_named_expression());
   p->set_compiler_hints(shared->compiler_hints());
   p->set_start_position(shared->start_position());
   p->set_end_position(shared->end_position());
   p->function_literal_id_ = shared->function_literal_id();
   p->set_language_mode(shared->language_mode());
   p->set_module(shared->kind() == FunctionKind::kModule);

   // BUG(5946): This function exists as a workaround until we can
   // get rid of %SetCode in our native functions. The ParseInfo
   // is explicitly set up for the case that:
   // a) you have a native built-in,
   // b) it's being run for the 2nd-Nth time in an isolate,
   // c) we've already compiled bytecode and therefore don't need
   //    to parse.
   // We tolerate a ParseInfo without a Script in this case.
   p->set_native(true);
   p->set_eval(false);

   Handle<HeapObject> scope_info(shared->outer_scope_info());
   if (!scope_info->IsTheHole(isolate) &&
       Handle<ScopeInfo>::cast(scope_info)->length() > 0) {
     p->set_outer_scope_info(Handle<ScopeInfo>::cast(scope_info));
   }
   return p;
 }

 DeclarationScope* ParseInfo::scope() const { return literal()->scope(); }

 bool ParseInfo::is_declaration() const {
   return SharedFunctionInfo::IsDeclarationBit::decode(compiler_hints_);
 }

 FunctionKind ParseInfo::function_kind() const {
   return SharedFunctionInfo::FunctionKindBits::decode(compiler_hints_);
 }

 void ParseInfo::InitFromIsolate(Isolate* isolate) {
   DCHECK_NOT_NULL(isolate);
   set_hash_seed(isolate->heap()->HashSeed());
   set_stack_limit(isolate->stack_guard()->real_climit());
   set_unicode_cache(isolate->unicode_cache());
   set_runtime_call_stats(isolate->counters()->runtime_call_stats());
   set_ast_string_constants(isolate->ast_string_constants());
   if (isolate->is_block_code_coverage()) set_block_coverage_enabled();
   if (isolate->is_collecting_type_profile()) set_collect_type_profile();
 }

 void ParseInfo::UpdateStatisticsAfterBackgroundParse(Isolate* isolate) {
   // Copy over the counters from the background thread to the main counters on
   // the isolate.
   RuntimeCallStats* main_call_stats = isolate->counters()->runtime_call_stats();
   if (FLAG_runtime_stats ==
       v8::tracing::TracingCategoryObserver::ENABLED_BY_NATIVE) {
     DCHECK_NE(main_call_stats, runtime_call_stats());
     DCHECK_NOT_NULL(main_call_stats);
     DCHECK_NOT_NULL(runtime_call_stats());
     main_call_stats->Add(runtime_call_stats());
   }
   set_runtime_call_stats(main_call_stats);
 }

 void ParseInfo::ShareZone(ParseInfo* other) {
   DCHECK_EQ(0, zone_->allocation_size());
   zone_ = other->zone_;
 }

 AstValueFactory* ParseInfo::GetOrCreateAstValueFactory() {
   if (!ast_value_factory_.get()) {
     ast_value_factory_.reset(
         new AstValueFactory(zone(), ast_string_constants(), hash_seed()));
   }
   return ast_value_factory();
 }

 void ParseInfo::ShareAstValueFactory(ParseInfo* other) {
   DCHECK(!ast_value_factory_.get());
   ast_value_factory_ = other->ast_value_factory_;
 }

 void ParseInfo::AllocateSourceRangeMap() {
   DCHECK(block_coverage_enabled());
   set_source_range_map(new (zone()) SourceRangeMap(zone()));
 }

 void ParseInfo::ResetCharacterStream() { character_stream_.reset(); }

 void ParseInfo::set_character_stream(
     std::unique_ptr<Utf16CharacterStream> character_stream) {
   DCHECK(character_stream_.get() == nullptr);
   character_stream_.swap(character_stream);
 }

 }  // namespace internal
 }  // namespace v8
	// Copyright 2016 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/parse-info.h"

	#include "src/api.h"
	#include "src/ast/ast-source-ranges.h"
	#include "src/ast/ast-value-factory.h"
	#include "src/ast/ast.h"
	#include "src/heap/heap-inl.h"
	#include "src/objects-inl.h"
	#include "src/objects/scope-info.h"
	#include "src/zone/zone.h"

	namespace v8 {
	namespace internal {

	ParseInfo::ParseInfo(AccountingAllocator* zone_allocator)
	: zone_(std::make_shared<Zone>(zone_allocator, ZONE_NAME)),
	flags_(0),
	extension_(nullptr),
	compile_options_(ScriptCompiler::kNoCompileOptions),
	script_scope_(nullptr),
	unicode_cache_(nullptr),
	stack_limit_(0),
	hash_seed_(0),
	compiler_hints_(0),
	start_position_(0),
	end_position_(0),
	parameters_end_pos_(kNoSourcePosition),
	function_literal_id_(FunctionLiteral::kIdTypeInvalid),
	max_function_literal_id_(FunctionLiteral::kIdTypeInvalid),
	character_stream_(nullptr),
	cached_data_(nullptr),
	ast_value_factory_(nullptr),
	ast_string_constants_(nullptr),
	function_name_(nullptr),
	runtime_call_stats_(nullptr),
	source_range_map_(nullptr),
	literal_(nullptr) {}

	ParseInfo::ParseInfo(Handle<SharedFunctionInfo> shared)
	: ParseInfo(shared->GetIsolate()->allocator()) {
	Isolate* isolate = shared->GetIsolate();
	InitFromIsolate(isolate);

	set_toplevel(shared->is_toplevel());
	set_allow_lazy_parsing(FLAG_lazy_inner_functions);
	set_is_named_expression(shared->is_named_expression());
	set_compiler_hints(shared->compiler_hints());
	set_start_position(shared->start_position());
	set_end_position(shared->end_position());
	function_literal_id_ = shared->function_literal_id();
	set_language_mode(shared->language_mode());
	set_module(shared->kind() == FunctionKind::kModule);
	set_asm_wasm_broken(shared->is_asm_wasm_broken());

	Handle<Script> script(Script::cast(shared->script()));
	set_script(script);
	set_native(script->type() == Script::TYPE_NATIVE);
	set_eval(script->compilation_type() == Script::COMPILATION_TYPE_EVAL);

	Handle<HeapObject> scope_info(shared->outer_scope_info());
	if (!scope_info->IsTheHole(isolate) &&
	Handle<ScopeInfo>::cast(scope_info)->length() > 0) {
	set_outer_scope_info(Handle<ScopeInfo>::cast(scope_info));
	}

	// CollectTypeProfile uses its own feedback slots. If we have existing
	// FeedbackMetadata, we can only collect type profile if the feedback vector
	// has the appropriate slots.
	set_collect_type_profile(
	isolate->is_collecting_type_profile() &&
	(shared->feedback_metadata()->length() == 0
	? script->IsUserJavaScript()
	: shared->feedback_metadata()->HasTypeProfileSlot()));
	if (block_coverage_enabled() && script->IsUserJavaScript()) {
	AllocateSourceRangeMap();
	}
	}

	ParseInfo::ParseInfo(Handle<Script> script)
	: ParseInfo(script->GetIsolate()->allocator()) {
	InitFromIsolate(script->GetIsolate());

	set_allow_lazy_parsing();
	set_toplevel();
	set_script(script);

	set_native(script->type() == Script::TYPE_NATIVE);
	set_eval(script->compilation_type() == Script::COMPILATION_TYPE_EVAL);

	set_collect_type_profile(script->GetIsolate()->is_collecting_type_profile() &&
	script->IsUserJavaScript());
	if (block_coverage_enabled() && script->IsUserJavaScript()) {
	AllocateSourceRangeMap();
	}
	}

	ParseInfo::~ParseInfo() {}

	// static
	ParseInfo* ParseInfo::AllocateWithoutScript(Handle<SharedFunctionInfo> shared) {
	Isolate* isolate = shared->GetIsolate();
	ParseInfo* p = new ParseInfo(isolate->allocator());

	p->InitFromIsolate(isolate);
	p->set_toplevel(shared->is_toplevel());
	p->set_allow_lazy_parsing(FLAG_lazy_inner_functions);
	p->set_is_named_expression(shared->is_named_expression());
	p->set_compiler_hints(shared->compiler_hints());
	p->set_start_position(shared->start_position());
	p->set_end_position(shared->end_position());
	p->function_literal_id_ = shared->function_literal_id();
	p->set_language_mode(shared->language_mode());
	p->set_module(shared->kind() == FunctionKind::kModule);

	// BUG(5946): This function exists as a workaround until we can
	// get rid of %SetCode in our native functions. The ParseInfo
	// is explicitly set up for the case that:
	// a) you have a native built-in,
	// b) it's being run for the 2nd-Nth time in an isolate,
	// c) we've already compiled bytecode and therefore don't need
	// to parse.
	// We tolerate a ParseInfo without a Script in this case.
	p->set_native(true);
	p->set_eval(false);

	Handle<HeapObject> scope_info(shared->outer_scope_info());
	if (!scope_info->IsTheHole(isolate) &&
	Handle<ScopeInfo>::cast(scope_info)->length() > 0) {
	p->set_outer_scope_info(Handle<ScopeInfo>::cast(scope_info));
	}
	return p;
	}

	DeclarationScope* ParseInfo::scope() const { return literal()->scope(); }

	bool ParseInfo::is_declaration() const {
	return SharedFunctionInfo::IsDeclarationBit::decode(compiler_hints_);
	}

	FunctionKind ParseInfo::function_kind() const {
	return SharedFunctionInfo::FunctionKindBits::decode(compiler_hints_);
	}

	void ParseInfo::InitFromIsolate(Isolate* isolate) {
	DCHECK_NOT_NULL(isolate);
	set_hash_seed(isolate->heap()->HashSeed());
	set_stack_limit(isolate->stack_guard()->real_climit());
	set_unicode_cache(isolate->unicode_cache());
	set_runtime_call_stats(isolate->counters()->runtime_call_stats());
	set_ast_string_constants(isolate->ast_string_constants());
	if (isolate->is_block_code_coverage()) set_block_coverage_enabled();
	if (isolate->is_collecting_type_profile()) set_collect_type_profile();
	}

	void ParseInfo::UpdateStatisticsAfterBackgroundParse(Isolate* isolate) {
	// Copy over the counters from the background thread to the main counters on
	// the isolate.
	RuntimeCallStats* main_call_stats = isolate->counters()->runtime_call_stats();
	if (FLAG_runtime_stats ==
	v8::tracing::TracingCategoryObserver::ENABLED_BY_NATIVE) {
	DCHECK_NE(main_call_stats, runtime_call_stats());
	DCHECK_NOT_NULL(main_call_stats);
	DCHECK_NOT_NULL(runtime_call_stats());
	main_call_stats->Add(runtime_call_stats());
	}
	set_runtime_call_stats(main_call_stats);
	}

	void ParseInfo::ShareZone(ParseInfo* other) {
	DCHECK_EQ(0, zone_->allocation_size());
	zone_ = other->zone_;
	}

	AstValueFactory* ParseInfo::GetOrCreateAstValueFactory() {
	if (!ast_value_factory_.get()) {
	ast_value_factory_.reset(
	new AstValueFactory(zone(), ast_string_constants(), hash_seed()));
	}
	return ast_value_factory();
	}

	void ParseInfo::ShareAstValueFactory(ParseInfo* other) {
	DCHECK(!ast_value_factory_.get());
	ast_value_factory_ = other->ast_value_factory_;
	}

	void ParseInfo::AllocateSourceRangeMap() {
	DCHECK(block_coverage_enabled());
	set_source_range_map(new (zone()) SourceRangeMap(zone()));
	}

	void ParseInfo::ResetCharacterStream() { character_stream_.reset(); }

	void ParseInfo::set_character_stream(
	std::unique_ptr<Utf16CharacterStream> character_stream) {
	DCHECK(character_stream_.get() == nullptr);
	character_stream_.swap(character_stream);
	}

	} // namespace internal
	} // namespace v8