src/v8/src/parsing/parse-info.h - 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.

 #ifndef V8_PARSING_PARSE_INFO_H_
 #define V8_PARSING_PARSE_INFO_H_

 #include <map>
 #include <memory>
 #include <vector>

 #include "include/v8.h"
 #include "src/common/globals.h"
 #include "src/handles/handles.h"
 #include "src/objects/function-kind.h"
 #include "src/objects/script.h"
 #include "src/parsing/pending-compilation-error-handler.h"
 #include "src/parsing/preparse-data.h"

 namespace v8 {

 class Extension;

 namespace internal {

 class AccountingAllocator;
 class AstRawString;
 class AstStringConstants;
 class AstValueFactory;
 class CompilerDispatcher;
 class DeclarationScope;
 class FunctionLiteral;
 class RuntimeCallStats;
 class Logger;
 class SourceRangeMap;
 class Utf16CharacterStream;
 class Zone;

 // A container for the inputs, configuration options, and outputs of parsing.
 class V8_EXPORT_PRIVATE ParseInfo {
  public:
   explicit ParseInfo(AccountingAllocator* zone_allocator);
   explicit ParseInfo(Isolate*);
   ParseInfo(Isolate*, AccountingAllocator* zone_allocator);
   ParseInfo(Isolate* isolate, Handle<Script> script);
   ParseInfo(Isolate* isolate, Handle<SharedFunctionInfo> shared);

   // Creates a new parse info based on parent top-level |outer_parse_info| for
   // function |literal|.
   static std::unique_ptr<ParseInfo> FromParent(
       const ParseInfo* outer_parse_info, AccountingAllocator* zone_allocator,
       const FunctionLiteral* literal, const AstRawString* function_name);

   ~ParseInfo();

   Handle<Script> CreateScript(Isolate* isolate, Handle<String> source,
                               ScriptOriginOptions origin_options,
                               NativesFlag natives = NOT_NATIVES_CODE);

   // Either returns the ast-value-factory associcated with this ParseInfo, or
   // creates and returns a new factory if none exists.
   AstValueFactory* GetOrCreateAstValueFactory();

   Zone* zone() const { return zone_.get(); }

 // Convenience accessor methods for flags.
 #define FLAG_ACCESSOR(flag, getter, setter)     \
   bool getter() const { return GetFlag(flag); } \
   void setter() { SetFlag(flag); }              \
   void setter(bool val) { SetFlag(flag, val); }

   FLAG_ACCESSOR(kToplevel, is_toplevel, set_toplevel)
   FLAG_ACCESSOR(kEager, is_eager, set_eager)
   FLAG_ACCESSOR(kEval, is_eval, set_eval)
   FLAG_ACCESSOR(kStrictMode, is_strict_mode, set_strict_mode)
   FLAG_ACCESSOR(kModule, is_module, set_module)
   FLAG_ACCESSOR(kAllowLazyParsing, allow_lazy_parsing, set_allow_lazy_parsing)
   FLAG_ACCESSOR(kIsNamedExpression, is_named_expression,
                 set_is_named_expression)
   FLAG_ACCESSOR(kLazyCompile, lazy_compile, set_lazy_compile)
   FLAG_ACCESSOR(kCollectTypeProfile, collect_type_profile,
                 set_collect_type_profile)
   FLAG_ACCESSOR(kIsAsmWasmBroken, is_asm_wasm_broken, set_asm_wasm_broken)
   FLAG_ACCESSOR(kContainsAsmModule, contains_asm_module,
                 set_contains_asm_module)
   FLAG_ACCESSOR(kCoverageEnabled, coverage_enabled, set_coverage_enabled)
   FLAG_ACCESSOR(kBlockCoverageEnabled, block_coverage_enabled,
                 set_block_coverage_enabled)
   FLAG_ACCESSOR(kOnBackgroundThread, on_background_thread,
                 set_on_background_thread)
   FLAG_ACCESSOR(kWrappedAsFunction, is_wrapped_as_function,
                 set_wrapped_as_function)
   FLAG_ACCESSOR(kAllowEvalCache, allow_eval_cache, set_allow_eval_cache)
   FLAG_ACCESSOR(kIsDeclaration, is_declaration, set_declaration)
   FLAG_ACCESSOR(kRequiresInstanceMembersInitializer,
                 requires_instance_members_initializer,
                 set_requires_instance_members_initializer)
   FLAG_ACCESSOR(kMightAlwaysOpt, might_always_opt, set_might_always_opt)
   FLAG_ACCESSOR(kAllowNativeSyntax, allow_natives_syntax,
                 set_allow_natives_syntax)
   FLAG_ACCESSOR(kAllowLazyCompile, allow_lazy_compile, set_allow_lazy_compile)
   FLAG_ACCESSOR(kAllowNativeSyntax, allow_native_syntax,
                 set_allow_native_syntax)
   FLAG_ACCESSOR(kAllowHarmonyDynamicImport, allow_harmony_dynamic_import,
                 set_allow_harmony_dynamic_import)
   FLAG_ACCESSOR(kAllowHarmonyImportMeta, allow_harmony_import_meta,
                 set_allow_harmony_import_meta)
   FLAG_ACCESSOR(kAllowHarmonyNumericSeparator, allow_harmony_numeric_separator,
                 set_allow_harmony_numeric_separator)
   FLAG_ACCESSOR(kAllowHarmonyPrivateMethods, allow_harmony_private_methods,
                 set_allow_harmony_private_methods)
   FLAG_ACCESSOR(kIsOneshotIIFE, is_oneshot_iife, set_is_oneshot_iife)
   FLAG_ACCESSOR(kCollectSourcePositions, collect_source_positions,
                 set_collect_source_positions)
 #undef FLAG_ACCESSOR

   void set_parse_restriction(ParseRestriction restriction) {
     SetFlag(kParseRestriction, restriction != NO_PARSE_RESTRICTION);
   }

   ParseRestriction parse_restriction() const {
     return GetFlag(kParseRestriction) ? ONLY_SINGLE_FUNCTION_LITERAL
                                       : NO_PARSE_RESTRICTION;
   }

   Utf16CharacterStream* character_stream() const {
     return character_stream_.get();
   }
   void set_character_stream(
       std::unique_ptr<Utf16CharacterStream> character_stream);
   void ResetCharacterStream();

   v8::Extension* extension() const { return extension_; }
   void set_extension(v8::Extension* extension) { extension_ = extension; }

   void set_consumed_preparse_data(std::unique_ptr<ConsumedPreparseData> data) {
     consumed_preparse_data_.swap(data);
   }
   ConsumedPreparseData* consumed_preparse_data() {
     return consumed_preparse_data_.get();
   }

   DeclarationScope* script_scope() const { return script_scope_; }
   void set_script_scope(DeclarationScope* script_scope) {
     script_scope_ = script_scope;
   }

   AstValueFactory* ast_value_factory() const {
     DCHECK(ast_value_factory_.get());
     return ast_value_factory_.get();
   }

   const AstRawString* function_name() const { return function_name_; }
   void set_function_name(const AstRawString* function_name) {
     function_name_ = function_name;
   }

   FunctionLiteral* literal() const { return literal_; }
   void set_literal(FunctionLiteral* literal) { literal_ = literal; }

   DeclarationScope* scope() const;

   uintptr_t stack_limit() const { return stack_limit_; }
   void set_stack_limit(uintptr_t stack_limit) { stack_limit_ = stack_limit; }

   uint64_t hash_seed() const { return hash_seed_; }
   void set_hash_seed(uint64_t hash_seed) { hash_seed_ = hash_seed; }

   int start_position() const { return start_position_; }
   void set_start_position(int start_position) {
     start_position_ = start_position;
   }

   int end_position() const { return end_position_; }
   void set_end_position(int end_position) { end_position_ = end_position; }

   int parameters_end_pos() const { return parameters_end_pos_; }
   void set_parameters_end_pos(int parameters_end_pos) {
     parameters_end_pos_ = parameters_end_pos;
   }

   int function_literal_id() const { return function_literal_id_; }
   void set_function_literal_id(int function_literal_id) {
     function_literal_id_ = function_literal_id;
   }

   FunctionKind function_kind() const { return function_kind_; }
   void set_function_kind(FunctionKind function_kind) {
     function_kind_ = function_kind;
   }

   int max_function_literal_id() const { return max_function_literal_id_; }
   void set_max_function_literal_id(int max_function_literal_id) {
     max_function_literal_id_ = max_function_literal_id;
   }

   const AstStringConstants* ast_string_constants() const {
     return ast_string_constants_;
   }
   void set_ast_string_constants(
       const AstStringConstants* ast_string_constants) {
     ast_string_constants_ = ast_string_constants;
   }

   RuntimeCallStats* runtime_call_stats() const { return runtime_call_stats_; }
   void set_runtime_call_stats(RuntimeCallStats* runtime_call_stats) {
     runtime_call_stats_ = runtime_call_stats;
   }
   Logger* logger() const { return logger_; }
   void set_logger(Logger* logger) { logger_ = logger; }

   void AllocateSourceRangeMap();
   SourceRangeMap* source_range_map() const { return source_range_map_; }
   void set_source_range_map(SourceRangeMap* source_range_map) {
     source_range_map_ = source_range_map;
   }

   PendingCompilationErrorHandler* pending_error_handler() {
     return &pending_error_handler_;
   }

   class ParallelTasks {
    public:
     explicit ParallelTasks(CompilerDispatcher* compiler_dispatcher)
         : dispatcher_(compiler_dispatcher) {
       DCHECK(dispatcher_);
     }

     void Enqueue(ParseInfo* outer_parse_info, const AstRawString* function_name,
                  FunctionLiteral* literal);

     using EnqueuedJobsIterator =
         std::forward_list<std::pair<FunctionLiteral*, uintptr_t>>::iterator;

     EnqueuedJobsIterator begin() { return enqueued_jobs_.begin(); }
     EnqueuedJobsIterator end() { return enqueued_jobs_.end(); }

     CompilerDispatcher* dispatcher() { return dispatcher_; }

    private:
     CompilerDispatcher* dispatcher_;
     std::forward_list<std::pair<FunctionLiteral*, uintptr_t>> enqueued_jobs_;
   };

   ParallelTasks* parallel_tasks() { return parallel_tasks_.get(); }

   //--------------------------------------------------------------------------
   // TODO(titzer): these should not be part of ParseInfo.
   //--------------------------------------------------------------------------
   Handle<Script> script() const { return script_; }
   void set_script(Handle<Script> script);

   MaybeHandle<ScopeInfo> maybe_outer_scope_info() const {
     return maybe_outer_scope_info_;
   }
   void set_outer_scope_info(Handle<ScopeInfo> outer_scope_info) {
     maybe_outer_scope_info_ = outer_scope_info;
   }

   int script_id() const { return script_id_; }
   //--------------------------------------------------------------------------

   LanguageMode language_mode() const {
     return construct_language_mode(is_strict_mode());
   }
   void set_language_mode(LanguageMode language_mode) {
     STATIC_ASSERT(LanguageModeSize == 2);
     set_strict_mode(is_strict(language_mode));
   }

  private:
   void SetScriptForToplevelCompile(Isolate* isolate, Handle<Script> script);

   // Set function info flags based on those in either FunctionLiteral or
   // SharedFunctionInfo |function|
   template <typename T>
   void SetFunctionInfo(T function);

   // Various configuration flags for parsing.
   enum Flag {
     // ---------- Input flags ---------------------------
     kToplevel = 1 << 0,
     kEager = 1 << 1,
     kEval = 1 << 2,
     kStrictMode = 1 << 3,
     kNative = 1 << 4,
     kParseRestriction = 1 << 5,
     kModule = 1 << 6,
     kAllowLazyParsing = 1 << 7,
     kIsNamedExpression = 1 << 8,
     kLazyCompile = 1 << 9,
     kCollectTypeProfile = 1 << 10,
     kCoverageEnabled = 1 << 11,
     kBlockCoverageEnabled = 1 << 12,
     kIsAsmWasmBroken = 1 << 13,
     kOnBackgroundThread = 1 << 14,
     kWrappedAsFunction = 1 << 15,  // Implicitly wrapped as function.
     kAllowEvalCache = 1 << 16,
     kIsDeclaration = 1 << 17,
     kRequiresInstanceMembersInitializer = 1 << 18,
     kContainsAsmModule = 1 << 19,
     kMightAlwaysOpt = 1 << 20,
     kAllowLazyCompile = 1 << 21,
     kAllowNativeSyntax = 1 << 22,
     kAllowHarmonyPublicFields = 1 << 23,
     kAllowHarmonyStaticFields = 1 << 24,
     kAllowHarmonyDynamicImport = 1 << 25,
     kAllowHarmonyImportMeta = 1 << 26,
     kAllowHarmonyNumericSeparator = 1 << 27,
     kAllowHarmonyPrivateFields = 1 << 28,
     kAllowHarmonyPrivateMethods = 1 << 29,
     kIsOneshotIIFE = 1 << 30,
     kCollectSourcePositions = 1 << 31,
   };

   //------------- Inputs to parsing and scope analysis -----------------------
   std::unique_ptr<Zone> zone_;
   unsigned flags_;
   v8::Extension* extension_;
   DeclarationScope* script_scope_;
   uintptr_t stack_limit_;
   uint64_t hash_seed_;
   FunctionKind function_kind_;
   int script_id_;
   int start_position_;
   int end_position_;
   int parameters_end_pos_;
   int function_literal_id_;
   int max_function_literal_id_;

   // TODO(titzer): Move handles out of ParseInfo.
   Handle<Script> script_;
   MaybeHandle<ScopeInfo> maybe_outer_scope_info_;

   //----------- Inputs+Outputs of parsing and scope analysis -----------------
   std::unique_ptr<Utf16CharacterStream> character_stream_;
   std::unique_ptr<ConsumedPreparseData> consumed_preparse_data_;
   std::unique_ptr<AstValueFactory> ast_value_factory_;
   const class AstStringConstants* ast_string_constants_;
   const AstRawString* function_name_;
   RuntimeCallStats* runtime_call_stats_;
   Logger* logger_;
   SourceRangeMap* source_range_map_;  // Used when block coverage is enabled.
   std::unique_ptr<ParallelTasks> parallel_tasks_;

   //----------- Output of parsing and scope analysis ------------------------
   FunctionLiteral* literal_;
   PendingCompilationErrorHandler pending_error_handler_;

   void SetFlag(Flag f) { flags_ |= f; }
   void SetFlag(Flag f, bool v) { flags_ = v ? flags_ | f : flags_ & ~f; }
   bool GetFlag(Flag f) const { return (flags_ & f) != 0; }
 };

 }  // namespace internal
 }  // namespace v8

 #endif  // V8_PARSING_PARSE_INFO_H_
	// 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.

	#ifndef V8_PARSING_PARSE_INFO_H_
	#define V8_PARSING_PARSE_INFO_H_

	#include <map>
	#include <memory>
	#include <vector>

	#include "include/v8.h"
	#include "src/common/globals.h"
	#include "src/handles/handles.h"
	#include "src/objects/function-kind.h"
	#include "src/objects/script.h"
	#include "src/parsing/pending-compilation-error-handler.h"
	#include "src/parsing/preparse-data.h"

	namespace v8 {

	class Extension;

	namespace internal {

	class AccountingAllocator;
	class AstRawString;
	class AstStringConstants;
	class AstValueFactory;
	class CompilerDispatcher;
	class DeclarationScope;
	class FunctionLiteral;
	class RuntimeCallStats;
	class Logger;
	class SourceRangeMap;
	class Utf16CharacterStream;
	class Zone;

	// A container for the inputs, configuration options, and outputs of parsing.
	class V8_EXPORT_PRIVATE ParseInfo {
	public:
	explicit ParseInfo(AccountingAllocator* zone_allocator);
	explicit ParseInfo(Isolate*);
	ParseInfo(Isolate, AccountingAllocator zone_allocator);
	ParseInfo(Isolate* isolate, Handle<Script> script);
	ParseInfo(Isolate* isolate, Handle<SharedFunctionInfo> shared);

	// Creates a new parse info based on parent top-level \|outer_parse_info\| for
	// function \|literal\|.
	static std::unique_ptr<ParseInfo> FromParent(
	const ParseInfo* outer_parse_info, AccountingAllocator* zone_allocator,
	const FunctionLiteral* literal, const AstRawString* function_name);

	~ParseInfo();

	Handle<Script> CreateScript(Isolate* isolate, Handle<String> source,
	ScriptOriginOptions origin_options,
	NativesFlag natives = NOT_NATIVES_CODE);

	// Either returns the ast-value-factory associcated with this ParseInfo, or
	// creates and returns a new factory if none exists.
	AstValueFactory* GetOrCreateAstValueFactory();

	Zone* zone() const { return zone_.get(); }

	// Convenience accessor methods for flags.
	#define FLAG_ACCESSOR(flag, getter, setter) \
	bool getter() const { return GetFlag(flag); } \
	void setter() { SetFlag(flag); } \
	void setter(bool val) { SetFlag(flag, val); }

	FLAG_ACCESSOR(kToplevel, is_toplevel, set_toplevel)
	FLAG_ACCESSOR(kEager, is_eager, set_eager)
	FLAG_ACCESSOR(kEval, is_eval, set_eval)
	FLAG_ACCESSOR(kStrictMode, is_strict_mode, set_strict_mode)
	FLAG_ACCESSOR(kModule, is_module, set_module)
	FLAG_ACCESSOR(kAllowLazyParsing, allow_lazy_parsing, set_allow_lazy_parsing)
	FLAG_ACCESSOR(kIsNamedExpression, is_named_expression,
	set_is_named_expression)
	FLAG_ACCESSOR(kLazyCompile, lazy_compile, set_lazy_compile)
	FLAG_ACCESSOR(kCollectTypeProfile, collect_type_profile,
	set_collect_type_profile)
	FLAG_ACCESSOR(kIsAsmWasmBroken, is_asm_wasm_broken, set_asm_wasm_broken)
	FLAG_ACCESSOR(kContainsAsmModule, contains_asm_module,
	set_contains_asm_module)
	FLAG_ACCESSOR(kCoverageEnabled, coverage_enabled, set_coverage_enabled)
	FLAG_ACCESSOR(kBlockCoverageEnabled, block_coverage_enabled,
	set_block_coverage_enabled)
	FLAG_ACCESSOR(kOnBackgroundThread, on_background_thread,
	set_on_background_thread)
	FLAG_ACCESSOR(kWrappedAsFunction, is_wrapped_as_function,
	set_wrapped_as_function)
	FLAG_ACCESSOR(kAllowEvalCache, allow_eval_cache, set_allow_eval_cache)
	FLAG_ACCESSOR(kIsDeclaration, is_declaration, set_declaration)
	FLAG_ACCESSOR(kRequiresInstanceMembersInitializer,
	requires_instance_members_initializer,
	set_requires_instance_members_initializer)
	FLAG_ACCESSOR(kMightAlwaysOpt, might_always_opt, set_might_always_opt)
	FLAG_ACCESSOR(kAllowNativeSyntax, allow_natives_syntax,
	set_allow_natives_syntax)
	FLAG_ACCESSOR(kAllowLazyCompile, allow_lazy_compile, set_allow_lazy_compile)
	FLAG_ACCESSOR(kAllowNativeSyntax, allow_native_syntax,
	set_allow_native_syntax)
	FLAG_ACCESSOR(kAllowHarmonyDynamicImport, allow_harmony_dynamic_import,
	set_allow_harmony_dynamic_import)
	FLAG_ACCESSOR(kAllowHarmonyImportMeta, allow_harmony_import_meta,
	set_allow_harmony_import_meta)
	FLAG_ACCESSOR(kAllowHarmonyNumericSeparator, allow_harmony_numeric_separator,
	set_allow_harmony_numeric_separator)
	FLAG_ACCESSOR(kAllowHarmonyPrivateMethods, allow_harmony_private_methods,
	set_allow_harmony_private_methods)
	FLAG_ACCESSOR(kIsOneshotIIFE, is_oneshot_iife, set_is_oneshot_iife)
	FLAG_ACCESSOR(kCollectSourcePositions, collect_source_positions,
	set_collect_source_positions)
	#undef FLAG_ACCESSOR

	void set_parse_restriction(ParseRestriction restriction) {
	SetFlag(kParseRestriction, restriction != NO_PARSE_RESTRICTION);
	}

	ParseRestriction parse_restriction() const {
	return GetFlag(kParseRestriction) ? ONLY_SINGLE_FUNCTION_LITERAL
	: NO_PARSE_RESTRICTION;
	}

	Utf16CharacterStream* character_stream() const {
	return character_stream_.get();
	}
	void set_character_stream(
	std::unique_ptr<Utf16CharacterStream> character_stream);
	void ResetCharacterStream();

	v8::Extension* extension() const { return extension_; }
	void set_extension(v8::Extension* extension) { extension_ = extension; }

	void set_consumed_preparse_data(std::unique_ptr<ConsumedPreparseData> data) {
	consumed_preparse_data_.swap(data);
	}
	ConsumedPreparseData* consumed_preparse_data() {
	return consumed_preparse_data_.get();
	}

	DeclarationScope* script_scope() const { return script_scope_; }
	void set_script_scope(DeclarationScope* script_scope) {
	script_scope_ = script_scope;
	}

	AstValueFactory* ast_value_factory() const {
	DCHECK(ast_value_factory_.get());
	return ast_value_factory_.get();
	}

	const AstRawString* function_name() const { return function_name_; }
	void set_function_name(const AstRawString* function_name) {
	function_name_ = function_name;
	}

	FunctionLiteral* literal() const { return literal_; }
	void set_literal(FunctionLiteral* literal) { literal_ = literal; }

	DeclarationScope* scope() const;

	uintptr_t stack_limit() const { return stack_limit_; }
	void set_stack_limit(uintptr_t stack_limit) { stack_limit_ = stack_limit; }

	uint64_t hash_seed() const { return hash_seed_; }
	void set_hash_seed(uint64_t hash_seed) { hash_seed_ = hash_seed; }

	int start_position() const { return start_position_; }
	void set_start_position(int start_position) {
	start_position_ = start_position;
	}

	int end_position() const { return end_position_; }
	void set_end_position(int end_position) { end_position_ = end_position; }

	int parameters_end_pos() const { return parameters_end_pos_; }
	void set_parameters_end_pos(int parameters_end_pos) {
	parameters_end_pos_ = parameters_end_pos;
	}

	int function_literal_id() const { return function_literal_id_; }
	void set_function_literal_id(int function_literal_id) {
	function_literal_id_ = function_literal_id;
	}

	FunctionKind function_kind() const { return function_kind_; }
	void set_function_kind(FunctionKind function_kind) {
	function_kind_ = function_kind;
	}

	int max_function_literal_id() const { return max_function_literal_id_; }
	void set_max_function_literal_id(int max_function_literal_id) {
	max_function_literal_id_ = max_function_literal_id;
	}

	const AstStringConstants* ast_string_constants() const {
	return ast_string_constants_;
	}
	void set_ast_string_constants(
	const AstStringConstants* ast_string_constants) {
	ast_string_constants_ = ast_string_constants;
	}

	RuntimeCallStats* runtime_call_stats() const { return runtime_call_stats_; }
	void set_runtime_call_stats(RuntimeCallStats* runtime_call_stats) {
	runtime_call_stats_ = runtime_call_stats;
	}
	Logger* logger() const { return logger_; }
	void set_logger(Logger* logger) { logger_ = logger; }

	void AllocateSourceRangeMap();
	SourceRangeMap* source_range_map() const { return source_range_map_; }
	void set_source_range_map(SourceRangeMap* source_range_map) {
	source_range_map_ = source_range_map;
	}

	PendingCompilationErrorHandler* pending_error_handler() {
	return &pending_error_handler_;
	}

	class ParallelTasks {
	public:
	explicit ParallelTasks(CompilerDispatcher* compiler_dispatcher)
	: dispatcher_(compiler_dispatcher) {
	DCHECK(dispatcher_);
	}

	void Enqueue(ParseInfo* outer_parse_info, const AstRawString* function_name,
	FunctionLiteral* literal);

	using EnqueuedJobsIterator =
	std::forward_list<std::pair<FunctionLiteral*, uintptr_t>>::iterator;

	EnqueuedJobsIterator begin() { return enqueued_jobs_.begin(); }
	EnqueuedJobsIterator end() { return enqueued_jobs_.end(); }

	CompilerDispatcher* dispatcher() { return dispatcher_; }

	private:
	CompilerDispatcher* dispatcher_;
	std::forward_list<std::pair<FunctionLiteral*, uintptr_t>> enqueued_jobs_;
	};

	ParallelTasks* parallel_tasks() { return parallel_tasks_.get(); }

	//--------------------------------------------------------------------------
	// TODO(titzer): these should not be part of ParseInfo.
	//--------------------------------------------------------------------------
	Handle<Script> script() const { return script_; }
	void set_script(Handle<Script> script);

	MaybeHandle<ScopeInfo> maybe_outer_scope_info() const {
	return maybe_outer_scope_info_;
	}
	void set_outer_scope_info(Handle<ScopeInfo> outer_scope_info) {
	maybe_outer_scope_info_ = outer_scope_info;
	}

	int script_id() const { return script_id_; }
	//--------------------------------------------------------------------------

	LanguageMode language_mode() const {
	return construct_language_mode(is_strict_mode());
	}
	void set_language_mode(LanguageMode language_mode) {
	STATIC_ASSERT(LanguageModeSize == 2);
	set_strict_mode(is_strict(language_mode));
	}

	private:
	void SetScriptForToplevelCompile(Isolate* isolate, Handle<Script> script);

	// Set function info flags based on those in either FunctionLiteral or
	// SharedFunctionInfo \|function\|
	template <typename T>
	void SetFunctionInfo(T function);

	// Various configuration flags for parsing.
	enum Flag {
	// ---------- Input flags ---------------------------
	kToplevel = 1 << 0,
	kEager = 1 << 1,
	kEval = 1 << 2,
	kStrictMode = 1 << 3,
	kNative = 1 << 4,
	kParseRestriction = 1 << 5,
	kModule = 1 << 6,
	kAllowLazyParsing = 1 << 7,
	kIsNamedExpression = 1 << 8,
	kLazyCompile = 1 << 9,
	kCollectTypeProfile = 1 << 10,
	kCoverageEnabled = 1 << 11,
	kBlockCoverageEnabled = 1 << 12,
	kIsAsmWasmBroken = 1 << 13,
	kOnBackgroundThread = 1 << 14,
	kWrappedAsFunction = 1 << 15, // Implicitly wrapped as function.
	kAllowEvalCache = 1 << 16,
	kIsDeclaration = 1 << 17,
	kRequiresInstanceMembersInitializer = 1 << 18,
	kContainsAsmModule = 1 << 19,
	kMightAlwaysOpt = 1 << 20,
	kAllowLazyCompile = 1 << 21,
	kAllowNativeSyntax = 1 << 22,
	kAllowHarmonyPublicFields = 1 << 23,
	kAllowHarmonyStaticFields = 1 << 24,
	kAllowHarmonyDynamicImport = 1 << 25,
	kAllowHarmonyImportMeta = 1 << 26,
	kAllowHarmonyNumericSeparator = 1 << 27,
	kAllowHarmonyPrivateFields = 1 << 28,
	kAllowHarmonyPrivateMethods = 1 << 29,
	kIsOneshotIIFE = 1 << 30,
	kCollectSourcePositions = 1 << 31,
	};

	//------------- Inputs to parsing and scope analysis -----------------------
	std::unique_ptr<Zone> zone_;
	unsigned flags_;
	v8::Extension* extension_;
	DeclarationScope* script_scope_;
	uintptr_t stack_limit_;
	uint64_t hash_seed_;
	FunctionKind function_kind_;
	int script_id_;
	int start_position_;
	int end_position_;
	int parameters_end_pos_;
	int function_literal_id_;
	int max_function_literal_id_;

	// TODO(titzer): Move handles out of ParseInfo.
	Handle<Script> script_;
	MaybeHandle<ScopeInfo> maybe_outer_scope_info_;

	//----------- Inputs+Outputs of parsing and scope analysis -----------------
	std::unique_ptr<Utf16CharacterStream> character_stream_;
	std::unique_ptr<ConsumedPreparseData> consumed_preparse_data_;
	std::unique_ptr<AstValueFactory> ast_value_factory_;
	const class AstStringConstants* ast_string_constants_;
	const AstRawString* function_name_;
	RuntimeCallStats* runtime_call_stats_;
	Logger* logger_;
	SourceRangeMap* source_range_map_; // Used when block coverage is enabled.
	std::unique_ptr<ParallelTasks> parallel_tasks_;

	//----------- Output of parsing and scope analysis ------------------------
	FunctionLiteral* literal_;
	PendingCompilationErrorHandler pending_error_handler_;

	void SetFlag(Flag f) { flags_ \|= f; }
	void SetFlag(Flag f, bool v) { flags_ = v ? flags_ \| f : flags_ & ~f; }
	bool GetFlag(Flag f) const { return (flags_ & f) != 0; }
	};

	} // namespace internal
	} // namespace v8

	#endif // V8_PARSING_PARSE_INFO_H_