runtime/vm/isolate.h - sdk.git - Git at Google

 // Copyright (c) 2013, the Dart project authors.  Please see the AUTHORS file
 // for details. All rights reserved. Use of this source code is governed by a
 // BSD-style license that can be found in the LICENSE file.

 #ifndef VM_ISOLATE_H_
 #define VM_ISOLATE_H_

 #include "include/dart_api.h"
 #include "platform/assert.h"
 #include "platform/thread.h"
 #include "vm/base_isolate.h"
 #include "vm/class_table.h"
 #include "vm/gc_callbacks.h"
 #include "vm/handles.h"
 #include "vm/megamorphic_cache_table.h"
 #include "vm/store_buffer.h"
 #include "vm/timer.h"

 namespace dart {

 // Forward declarations.
 class AbstractType;
 class ApiState;
 class Array;
 class Class;
 class CodeIndexTable;
 class Debugger;
 class DeoptContext;
 class Field;
 class Function;
 class HandleScope;
 class HandleVisitor;
 class Heap;
 class ICData;
 class Instance;
 class LongJump;
 class MessageHandler;
 class Mutex;
 class Object;
 class ObjectPointerVisitor;
 class ObjectStore;
 class RawInstance;
 class RawArray;
 class RawContext;
 class RawDouble;
 class RawMint;
 class RawObject;
 class RawInteger;
 class RawError;
 class RawFloat32x4;
 class RawInt32x4;
 class Simulator;
 class StackResource;
 class StackZone;
 class StubCode;
 class TypeArguments;
 class TypeParameter;
 class ObjectHistogram;
 class ObjectIdRing;


 #define REUSABLE_HANDLE_LIST(V)                                                \
   V(Object)                                                                    \
   V(Array)                                                                     \
   V(String)                                                                    \
   V(Instance)                                                                  \
   V(Function)                                                                  \
   V(Field)                                                                     \
   V(Class)                                                                     \
   V(AbstractType)                                                              \
   V(TypeParameter)                                                             \
   V(TypeArguments)                                                             \

 class Isolate : public BaseIsolate {
  public:
   ~Isolate();

   static inline Isolate* Current() {
     return reinterpret_cast<Isolate*>(Thread::GetThreadLocal(isolate_key));
   }

   static void SetCurrent(Isolate* isolate);

   static void InitOnce();
   static Isolate* Init(const char* name_prefix);
   void Shutdown();

   // Register a newly introduced class.
   void RegisterClass(const Class& cls);

   // Visit all object pointers.
   void VisitObjectPointers(ObjectPointerVisitor* visitor,
                            bool visit_prologue_weak_persistent_handles,
                            bool validate_frames);

   // Visits weak object pointers.
   void VisitWeakPersistentHandles(HandleVisitor* visit,
                                   bool visit_prologue_weak_persistent_handles);

   StoreBuffer* store_buffer() { return &store_buffer_; }
   static intptr_t store_buffer_offset() {
     return OFFSET_OF(Isolate, store_buffer_);
   }

   ClassTable* class_table() { return &class_table_; }
   static intptr_t class_table_offset() {
     return OFFSET_OF(Isolate, class_table_);
   }

   ObjectHistogram* object_histogram() { return object_histogram_; }

   MegamorphicCacheTable* megamorphic_cache_table() {
     return &megamorphic_cache_table_;
   }

   Dart_MessageNotifyCallback message_notify_callback() const {
     return message_notify_callback_;
   }
   void set_message_notify_callback(Dart_MessageNotifyCallback value) {
     message_notify_callback_ = value;
   }

   const char* name() const { return name_; }

   int64_t start_time() const { return start_time_; }

   Dart_Port main_port() { return main_port_; }
   void set_main_port(Dart_Port port) {
     ASSERT(main_port_ == 0);  // Only set main port once.
     main_port_ = port;
   }

   Heap* heap() const { return heap_; }
   void set_heap(Heap* value) { heap_ = value; }
   static intptr_t heap_offset() { return OFFSET_OF(Isolate, heap_); }

   ObjectStore* object_store() const { return object_store_; }
   void set_object_store(ObjectStore* value) { object_store_ = value; }
   static intptr_t object_store_offset() {
     return OFFSET_OF(Isolate, object_store_);
   }

   RawContext* top_context() const { return top_context_; }
   void set_top_context(RawContext* value) { top_context_ = value; }
   static intptr_t top_context_offset() {
     return OFFSET_OF(Isolate, top_context_);
   }

   uword top_exit_frame_info() const { return top_exit_frame_info_; }
   void set_top_exit_frame_info(uword value) { top_exit_frame_info_ = value; }
   static intptr_t top_exit_frame_info_offset() {
     return OFFSET_OF(Isolate, top_exit_frame_info_);
   }

   ApiState* api_state() const { return api_state_; }
   void set_api_state(ApiState* value) { api_state_ = value; }

   StubCode* stub_code() const { return stub_code_; }
   void set_stub_code(StubCode* value) { stub_code_ = value; }

   LongJump* long_jump_base() const { return long_jump_base_; }
   void set_long_jump_base(LongJump* value) { long_jump_base_ = value; }

   TimerList& timer_list() { return timer_list_; }

   static intptr_t current_zone_offset() {
     return OFFSET_OF(Isolate, current_zone_);
   }

   void set_init_callback_data(void* value) {
     init_callback_data_ = value;
   }
   void* init_callback_data() const {
     return init_callback_data_;
   }

   Dart_EnvironmentCallback environment_callback() const {
     return environment_callback_;
   }
   void set_environment_callback(Dart_EnvironmentCallback value) {
     environment_callback_ = value;
   }

   Dart_LibraryTagHandler library_tag_handler() const {
     return library_tag_handler_;
   }
   void set_library_tag_handler(Dart_LibraryTagHandler value) {
     library_tag_handler_ = value;
   }

   void SetStackLimit(uword value);
   void SetStackLimitFromCurrentTOS(uword isolate_stack_top);

   uword stack_limit_address() const {
     return reinterpret_cast<uword>(&stack_limit_);
   }

   // The current stack limit.  This may be overwritten with a special
   // value to trigger interrupts.
   uword stack_limit() const { return stack_limit_; }

   // The true stack limit for this isolate.
   uword saved_stack_limit() const { return saved_stack_limit_; }

   static uword GetSpecifiedStackSize();

   static const intptr_t kStackSizeBuffer = (4 * KB * kWordSize);

   enum {
     kApiInterrupt = 0x1,      // An interrupt from Dart_InterruptIsolate.
     kMessageInterrupt = 0x2,  // An interrupt to process an out of band message.
     kStoreBufferInterrupt = 0x4,  // An interrupt to process the store buffer.
     kVmStatusInterrupt = 0x8,     // An interrupt to process a status request.

     kInterruptsMask =
         kApiInterrupt |
         kMessageInterrupt |
         kStoreBufferInterrupt |
         kVmStatusInterrupt,
   };

   void ScheduleInterrupts(uword interrupt_bits);
   uword GetAndClearInterrupts();

   bool MakeRunnable();
   void Run();

   MessageHandler* message_handler() const { return message_handler_; }
   void set_message_handler(MessageHandler* value) { message_handler_ = value; }

   bool is_runnable() const { return is_runnable_; }
   void set_is_runnable(bool value) { is_runnable_ = value; }

   uword spawn_data() const { return spawn_data_; }
   void set_spawn_data(uword value) { spawn_data_ = value; }

   static const intptr_t kNoDeoptId = -1;
   static const intptr_t kDeoptIdStep = 2;
   static const intptr_t kDeoptIdBeforeOffset = 0;
   static const intptr_t kDeoptIdAfterOffset = 1;
   intptr_t deopt_id() const { return deopt_id_; }
   void set_deopt_id(int value) {
     ASSERT(value >= 0);
     deopt_id_ = value;
   }
   intptr_t GetNextDeoptId() {
     ASSERT(deopt_id_ != kNoDeoptId);
     const intptr_t id = deopt_id_;
     deopt_id_ += kDeoptIdStep;
     return id;
   }

   static intptr_t ToDeoptAfter(intptr_t deopt_id) {
     ASSERT(IsDeoptBefore(deopt_id));
     return deopt_id + kDeoptIdAfterOffset;
   }

   static bool IsDeoptBefore(intptr_t deopt_id) {
     return (deopt_id % kDeoptIdStep) == kDeoptIdBeforeOffset;
   }

   static bool IsDeoptAfter(intptr_t deopt_id) {
     return (deopt_id % kDeoptIdStep) == kDeoptIdAfterOffset;
   }

   Mutex* mutex() const { return mutex_; }

   Debugger* debugger() const { return debugger_; }

   void set_single_step(bool value) { single_step_ = value; }
   bool single_step() const { return single_step_; }
   static intptr_t single_step_offset() {
     return OFFSET_OF(Isolate, single_step_);
   }

   Simulator* simulator() const { return simulator_; }
   void set_simulator(Simulator* value) { simulator_ = value; }

   GcPrologueCallbacks& gc_prologue_callbacks() {
     return gc_prologue_callbacks_;
   }

   GcEpilogueCallbacks& gc_epilogue_callbacks() {
     return gc_epilogue_callbacks_;
   }

   static void SetCreateCallback(Dart_IsolateCreateCallback cb) {
     create_callback_ = cb;
   }
   static Dart_IsolateCreateCallback CreateCallback() {
     return create_callback_;
   }

   static void SetInterruptCallback(Dart_IsolateInterruptCallback cb) {
     interrupt_callback_ = cb;
   }
   static Dart_IsolateInterruptCallback InterruptCallback() {
     return interrupt_callback_;
   }

   static void SetVmStatsCallback(Dart_IsolateInterruptCallback cb) {
     vmstats_callback_ = cb;
   }
   static Dart_IsolateInterruptCallback VmStatsCallback() {
     return vmstats_callback_;
   }

   static void SetUnhandledExceptionCallback(
       Dart_IsolateUnhandledExceptionCallback cb) {
     unhandled_exception_callback_ = cb;
   }
   static Dart_IsolateUnhandledExceptionCallback UnhandledExceptionCallback() {
     return unhandled_exception_callback_;
   }

   static void SetShutdownCallback(Dart_IsolateShutdownCallback cb) {
     shutdown_callback_ = cb;
   }
   static Dart_IsolateShutdownCallback ShutdownCallback() {
     return shutdown_callback_;
   }

   static void SetFileCallbacks(Dart_FileOpenCallback file_open,
                                Dart_FileReadCallback file_read,
                                Dart_FileWriteCallback file_write,
                                Dart_FileCloseCallback file_close) {
     file_open_callback_ = file_open;
     file_read_callback_ = file_read;
     file_write_callback_ = file_write;
     file_close_callback_ = file_close;
   }

   static Dart_FileOpenCallback file_open_callback() {
     return file_open_callback_;
   }
   static Dart_FileReadCallback file_read_callback() {
     return file_read_callback_;
   }
   static Dart_FileWriteCallback file_write_callback() {
     return file_write_callback_;
   }
   static Dart_FileCloseCallback file_close_callback() {
     return file_close_callback_;
   }

   void set_object_id_ring(ObjectIdRing* ring) {
     object_id_ring_ = ring;
   }
   ObjectIdRing* object_id_ring() {
     return object_id_ring_;
   }

   DeoptContext* deopt_context() const { return deopt_context_; }
   void set_deopt_context(DeoptContext* value) {
     ASSERT(value == NULL || deopt_context_ == NULL);
     deopt_context_ = value;
   }

   static char* GetStatus(const char* request);

   intptr_t BlockClassFinalization() {
     ASSERT(defer_finalization_count_ >= 0);
     return defer_finalization_count_++;
   }

   intptr_t UnblockClassFinalization() {
     ASSERT(defer_finalization_count_ > 0);
     return defer_finalization_count_--;
   }

   bool AllowClassFinalization() {
     ASSERT(defer_finalization_count_ >= 0);
     return defer_finalization_count_ == 0;
   }

  private:
   Isolate();

   void BuildName(const char* name_prefix);
   void PrintInvokedFunctions();

   static bool FetchStacktrace();
   static bool FetchStackFrameDetails();
   char* GetStatusDetails();
   char* GetStatusStacktrace();
   char* GetStatusStackFrame(intptr_t index);
   char* DoStacktraceInterrupt(Dart_IsolateInterruptCallback cb);
   template<class T> T* AllocateReusableHandle();

   static ThreadLocalKey isolate_key;
   StoreBuffer store_buffer_;
   ClassTable class_table_;
   MegamorphicCacheTable megamorphic_cache_table_;
   Dart_MessageNotifyCallback message_notify_callback_;
   char* name_;
   int64_t start_time_;
   Dart_Port main_port_;
   Heap* heap_;
   ObjectStore* object_store_;
   RawContext* top_context_;
   uword top_exit_frame_info_;
   void* init_callback_data_;
   Dart_EnvironmentCallback environment_callback_;
   Dart_LibraryTagHandler library_tag_handler_;
   ApiState* api_state_;
   StubCode* stub_code_;
   Debugger* debugger_;
   bool single_step_;
   Simulator* simulator_;
   LongJump* long_jump_base_;
   TimerList timer_list_;
   intptr_t deopt_id_;
   Mutex* mutex_;  // protects stack_limit_ and saved_stack_limit_.
   uword stack_limit_;
   uword saved_stack_limit_;
   MessageHandler* message_handler_;
   uword spawn_data_;
   bool is_runnable_;
   GcPrologueCallbacks gc_prologue_callbacks_;
   GcEpilogueCallbacks gc_epilogue_callbacks_;
   intptr_t defer_finalization_count_;
   DeoptContext* deopt_context_;

   // Status support.
   char* stacktrace_;
   intptr_t stack_frame_index_;
   ObjectHistogram* object_histogram_;

   // Ring buffer of objects assigned an id.
   ObjectIdRing* object_id_ring_;

   // Reusable handles support.
 #define REUSABLE_HANDLE_FIELDS(object)                                         \
   object* object##_handle_;                                                    \

   REUSABLE_HANDLE_LIST(REUSABLE_HANDLE_FIELDS)
 #undef REUSABLE_HANDLE_FIELDS
   VMHandles reusable_handles_;

   static Dart_IsolateCreateCallback create_callback_;
   static Dart_IsolateInterruptCallback interrupt_callback_;
   static Dart_IsolateUnhandledExceptionCallback unhandled_exception_callback_;
   static Dart_IsolateShutdownCallback shutdown_callback_;
   static Dart_FileOpenCallback file_open_callback_;
   static Dart_FileReadCallback file_read_callback_;
   static Dart_FileWriteCallback file_write_callback_;
   static Dart_FileCloseCallback file_close_callback_;
   static Dart_IsolateInterruptCallback vmstats_callback_;

   friend class ReusableHandleScope;
   friend class ReusableObjectHandleScope;
   DISALLOW_COPY_AND_ASSIGN(Isolate);
 };


 // When we need to execute code in an isolate, we use the
 // StartIsolateScope.
 class StartIsolateScope {
  public:
   explicit StartIsolateScope(Isolate* new_isolate)
       : new_isolate_(new_isolate), saved_isolate_(Isolate::Current()) {
     ASSERT(new_isolate_ != NULL);
     if (saved_isolate_ != new_isolate_) {
       ASSERT(Isolate::Current() == NULL);
       Isolate::SetCurrent(new_isolate_);
       new_isolate_->SetStackLimitFromCurrentTOS(reinterpret_cast<uword>(this));
     }
   }

   ~StartIsolateScope() {
     if (saved_isolate_ != new_isolate_) {
       new_isolate_->SetStackLimit(~static_cast<uword>(0));
       Isolate::SetCurrent(saved_isolate_);
     }
   }

  private:
   Isolate* new_isolate_;
   Isolate* saved_isolate_;

   DISALLOW_COPY_AND_ASSIGN(StartIsolateScope);
 };

 // When we need to temporarily become another isolate, we use the
 // SwitchIsolateScope.  It is not permitted to run dart code while in
 // a SwitchIsolateScope.
 class SwitchIsolateScope {
  public:
   explicit SwitchIsolateScope(Isolate* new_isolate)
       : new_isolate_(new_isolate),
         saved_isolate_(Isolate::Current()),
         saved_stack_limit_(saved_isolate_
                            ? saved_isolate_->saved_stack_limit() : 0) {
     if (saved_isolate_ != new_isolate_) {
       Isolate::SetCurrent(new_isolate_);
       if (new_isolate_ != NULL) {
         // Don't allow dart code to execute.
         new_isolate_->SetStackLimit(~static_cast<uword>(0));
       }
     }
   }

   ~SwitchIsolateScope() {
     if (saved_isolate_ != new_isolate_) {
       Isolate::SetCurrent(saved_isolate_);
       if (saved_isolate_ != NULL) {
         saved_isolate_->SetStackLimit(saved_stack_limit_);
       }
     }
   }

  private:
   Isolate* new_isolate_;
   Isolate* saved_isolate_;
   uword saved_stack_limit_;

   DISALLOW_COPY_AND_ASSIGN(SwitchIsolateScope);
 };


 class IsolateSpawnState {
  public:
   explicit IsolateSpawnState(const Function& func);
   explicit IsolateSpawnState(const char* script_url);
   ~IsolateSpawnState();

   Isolate* isolate() const { return isolate_; }
   void set_isolate(Isolate* value) { isolate_ = value; }
   char* script_url() const { return script_url_; }
   char* library_url() const { return library_url_; }
   char* function_name() const { return function_name_; }
   char* exception_callback_name() const { return exception_callback_name_; }
   bool is_spawn_uri() const { return library_url_ == NULL; }

   RawObject* ResolveFunction();
   void Cleanup();

  private:
   Isolate* isolate_;
   char* script_url_;
   char* library_url_;
   char* function_name_;
   char* exception_callback_name_;
 };

 }  // namespace dart

 #endif  // VM_ISOLATE_H_
	// Copyright (c) 2013, the Dart project authors. Please see the AUTHORS file
	// for details. All rights reserved. Use of this source code is governed by a
	// BSD-style license that can be found in the LICENSE file.

	#ifndef VM_ISOLATE_H_
	#define VM_ISOLATE_H_

	#include "include/dart_api.h"
	#include "platform/assert.h"
	#include "platform/thread.h"
	#include "vm/base_isolate.h"
	#include "vm/class_table.h"
	#include "vm/gc_callbacks.h"
	#include "vm/handles.h"
	#include "vm/megamorphic_cache_table.h"
	#include "vm/store_buffer.h"
	#include "vm/timer.h"

	namespace dart {

	// Forward declarations.
	class AbstractType;
	class ApiState;
	class Array;
	class Class;
	class CodeIndexTable;
	class Debugger;
	class DeoptContext;
	class Field;
	class Function;
	class HandleScope;
	class HandleVisitor;
	class Heap;
	class ICData;
	class Instance;
	class LongJump;
	class MessageHandler;
	class Mutex;
	class Object;
	class ObjectPointerVisitor;
	class ObjectStore;
	class RawInstance;
	class RawArray;
	class RawContext;
	class RawDouble;
	class RawMint;
	class RawObject;
	class RawInteger;
	class RawError;
	class RawFloat32x4;
	class RawInt32x4;
	class Simulator;
	class StackResource;
	class StackZone;
	class StubCode;
	class TypeArguments;
	class TypeParameter;
	class ObjectHistogram;
	class ObjectIdRing;


	#define REUSABLE_HANDLE_LIST(V) \
	V(Object) \
	V(Array) \
	V(String) \
	V(Instance) \
	V(Function) \
	V(Field) \
	V(Class) \
	V(AbstractType) \
	V(TypeParameter) \
	V(TypeArguments) \

	class Isolate : public BaseIsolate {
	public:
	~Isolate();

	static inline Isolate* Current() {
	return reinterpret_cast<Isolate*>(Thread::GetThreadLocal(isolate_key));
	}

	static void SetCurrent(Isolate* isolate);

	static void InitOnce();
	static Isolate* Init(const char* name_prefix);
	void Shutdown();

	// Register a newly introduced class.
	void RegisterClass(const Class& cls);

	// Visit all object pointers.
	void VisitObjectPointers(ObjectPointerVisitor* visitor,
	bool visit_prologue_weak_persistent_handles,
	bool validate_frames);

	// Visits weak object pointers.
	void VisitWeakPersistentHandles(HandleVisitor* visit,
	bool visit_prologue_weak_persistent_handles);

	StoreBuffer* store_buffer() { return &store_buffer_; }
	static intptr_t store_buffer_offset() {
	return OFFSET_OF(Isolate, store_buffer_);
	}

	ClassTable* class_table() { return &class_table_; }
	static intptr_t class_table_offset() {
	return OFFSET_OF(Isolate, class_table_);
	}

	ObjectHistogram* object_histogram() { return object_histogram_; }

	MegamorphicCacheTable* megamorphic_cache_table() {
	return &megamorphic_cache_table_;
	}

	Dart_MessageNotifyCallback message_notify_callback() const {
	return message_notify_callback_;
	}
	void set_message_notify_callback(Dart_MessageNotifyCallback value) {
	message_notify_callback_ = value;
	}

	const char* name() const { return name_; }

	int64_t start_time() const { return start_time_; }

	Dart_Port main_port() { return main_port_; }
	void set_main_port(Dart_Port port) {
	ASSERT(main_port_ == 0); // Only set main port once.
	main_port_ = port;
	}

	Heap* heap() const { return heap_; }
	void set_heap(Heap* value) { heap_ = value; }
	static intptr_t heap_offset() { return OFFSET_OF(Isolate, heap_); }

	ObjectStore* object_store() const { return object_store_; }
	void set_object_store(ObjectStore* value) { object_store_ = value; }
	static intptr_t object_store_offset() {
	return OFFSET_OF(Isolate, object_store_);
	}

	RawContext* top_context() const { return top_context_; }
	void set_top_context(RawContext* value) { top_context_ = value; }
	static intptr_t top_context_offset() {
	return OFFSET_OF(Isolate, top_context_);
	}

	uword top_exit_frame_info() const { return top_exit_frame_info_; }
	void set_top_exit_frame_info(uword value) { top_exit_frame_info_ = value; }
	static intptr_t top_exit_frame_info_offset() {
	return OFFSET_OF(Isolate, top_exit_frame_info_);
	}

	ApiState* api_state() const { return api_state_; }
	void set_api_state(ApiState* value) { api_state_ = value; }

	StubCode* stub_code() const { return stub_code_; }
	void set_stub_code(StubCode* value) { stub_code_ = value; }

	LongJump* long_jump_base() const { return long_jump_base_; }
	void set_long_jump_base(LongJump* value) { long_jump_base_ = value; }

	TimerList& timer_list() { return timer_list_; }

	static intptr_t current_zone_offset() {
	return OFFSET_OF(Isolate, current_zone_);
	}

	void set_init_callback_data(void* value) {
	init_callback_data_ = value;
	}
	void* init_callback_data() const {
	return init_callback_data_;
	}

	Dart_EnvironmentCallback environment_callback() const {
	return environment_callback_;
	}
	void set_environment_callback(Dart_EnvironmentCallback value) {
	environment_callback_ = value;
	}

	Dart_LibraryTagHandler library_tag_handler() const {
	return library_tag_handler_;
	}
	void set_library_tag_handler(Dart_LibraryTagHandler value) {
	library_tag_handler_ = value;
	}

	void SetStackLimit(uword value);
	void SetStackLimitFromCurrentTOS(uword isolate_stack_top);

	uword stack_limit_address() const {
	return reinterpret_cast<uword>(&stack_limit_);
	}

	// The current stack limit. This may be overwritten with a special
	// value to trigger interrupts.
	uword stack_limit() const { return stack_limit_; }

	// The true stack limit for this isolate.
	uword saved_stack_limit() const { return saved_stack_limit_; }

	static uword GetSpecifiedStackSize();

	static const intptr_t kStackSizeBuffer = (4 * KB * kWordSize);

	enum {
	kApiInterrupt = 0x1, // An interrupt from Dart_InterruptIsolate.
	kMessageInterrupt = 0x2, // An interrupt to process an out of band message.
	kStoreBufferInterrupt = 0x4, // An interrupt to process the store buffer.
	kVmStatusInterrupt = 0x8, // An interrupt to process a status request.

	kInterruptsMask =
	kApiInterrupt \|
	kMessageInterrupt \|
	kStoreBufferInterrupt \|
	kVmStatusInterrupt,
	};

	void ScheduleInterrupts(uword interrupt_bits);
	uword GetAndClearInterrupts();

	bool MakeRunnable();
	void Run();

	MessageHandler* message_handler() const { return message_handler_; }
	void set_message_handler(MessageHandler* value) { message_handler_ = value; }

	bool is_runnable() const { return is_runnable_; }
	void set_is_runnable(bool value) { is_runnable_ = value; }

	uword spawn_data() const { return spawn_data_; }
	void set_spawn_data(uword value) { spawn_data_ = value; }

	static const intptr_t kNoDeoptId = -1;
	static const intptr_t kDeoptIdStep = 2;
	static const intptr_t kDeoptIdBeforeOffset = 0;
	static const intptr_t kDeoptIdAfterOffset = 1;
	intptr_t deopt_id() const { return deopt_id_; }
	void set_deopt_id(int value) {
	ASSERT(value >= 0);
	deopt_id_ = value;
	}
	intptr_t GetNextDeoptId() {
	ASSERT(deopt_id_ != kNoDeoptId);
	const intptr_t id = deopt_id_;
	deopt_id_ += kDeoptIdStep;
	return id;
	}

	static intptr_t ToDeoptAfter(intptr_t deopt_id) {
	ASSERT(IsDeoptBefore(deopt_id));
	return deopt_id + kDeoptIdAfterOffset;
	}

	static bool IsDeoptBefore(intptr_t deopt_id) {
	return (deopt_id % kDeoptIdStep) == kDeoptIdBeforeOffset;
	}

	static bool IsDeoptAfter(intptr_t deopt_id) {
	return (deopt_id % kDeoptIdStep) == kDeoptIdAfterOffset;
	}

	Mutex* mutex() const { return mutex_; }

	Debugger* debugger() const { return debugger_; }

	void set_single_step(bool value) { single_step_ = value; }
	bool single_step() const { return single_step_; }
	static intptr_t single_step_offset() {
	return OFFSET_OF(Isolate, single_step_);
	}

	Simulator* simulator() const { return simulator_; }
	void set_simulator(Simulator* value) { simulator_ = value; }

	GcPrologueCallbacks& gc_prologue_callbacks() {
	return gc_prologue_callbacks_;
	}

	GcEpilogueCallbacks& gc_epilogue_callbacks() {
	return gc_epilogue_callbacks_;
	}

	static void SetCreateCallback(Dart_IsolateCreateCallback cb) {
	create_callback_ = cb;
	}
	static Dart_IsolateCreateCallback CreateCallback() {
	return create_callback_;
	}

	static void SetInterruptCallback(Dart_IsolateInterruptCallback cb) {
	interrupt_callback_ = cb;
	}
	static Dart_IsolateInterruptCallback InterruptCallback() {
	return interrupt_callback_;
	}

	static void SetVmStatsCallback(Dart_IsolateInterruptCallback cb) {
	vmstats_callback_ = cb;
	}
	static Dart_IsolateInterruptCallback VmStatsCallback() {
	return vmstats_callback_;
	}

	static void SetUnhandledExceptionCallback(
	Dart_IsolateUnhandledExceptionCallback cb) {
	unhandled_exception_callback_ = cb;
	}
	static Dart_IsolateUnhandledExceptionCallback UnhandledExceptionCallback() {
	return unhandled_exception_callback_;
	}

	static void SetShutdownCallback(Dart_IsolateShutdownCallback cb) {
	shutdown_callback_ = cb;
	}
	static Dart_IsolateShutdownCallback ShutdownCallback() {
	return shutdown_callback_;
	}

	static void SetFileCallbacks(Dart_FileOpenCallback file_open,
	Dart_FileReadCallback file_read,
	Dart_FileWriteCallback file_write,
	Dart_FileCloseCallback file_close) {
	file_open_callback_ = file_open;
	file_read_callback_ = file_read;
	file_write_callback_ = file_write;
	file_close_callback_ = file_close;
	}

	static Dart_FileOpenCallback file_open_callback() {
	return file_open_callback_;
	}
	static Dart_FileReadCallback file_read_callback() {
	return file_read_callback_;
	}
	static Dart_FileWriteCallback file_write_callback() {
	return file_write_callback_;
	}
	static Dart_FileCloseCallback file_close_callback() {
	return file_close_callback_;
	}

	void set_object_id_ring(ObjectIdRing* ring) {
	object_id_ring_ = ring;
	}
	ObjectIdRing* object_id_ring() {
	return object_id_ring_;
	}

	DeoptContext* deopt_context() const { return deopt_context_; }
	void set_deopt_context(DeoptContext* value) {
	ASSERT(value == NULL \|\| deopt_context_ == NULL);
	deopt_context_ = value;
	}

	static char* GetStatus(const char* request);

	intptr_t BlockClassFinalization() {
	ASSERT(defer_finalization_count_ >= 0);
	return defer_finalization_count_++;
	}

	intptr_t UnblockClassFinalization() {
	ASSERT(defer_finalization_count_ > 0);
	return defer_finalization_count_--;
	}

	bool AllowClassFinalization() {
	ASSERT(defer_finalization_count_ >= 0);
	return defer_finalization_count_ == 0;
	}

	private:
	Isolate();

	void BuildName(const char* name_prefix);
	void PrintInvokedFunctions();

	static bool FetchStacktrace();
	static bool FetchStackFrameDetails();
	char* GetStatusDetails();
	char* GetStatusStacktrace();
	char* GetStatusStackFrame(intptr_t index);
	char* DoStacktraceInterrupt(Dart_IsolateInterruptCallback cb);
	template<class T> T* AllocateReusableHandle();

	static ThreadLocalKey isolate_key;
	StoreBuffer store_buffer_;
	ClassTable class_table_;
	MegamorphicCacheTable megamorphic_cache_table_;
	Dart_MessageNotifyCallback message_notify_callback_;
	char* name_;
	int64_t start_time_;
	Dart_Port main_port_;
	Heap* heap_;
	ObjectStore* object_store_;
	RawContext* top_context_;
	uword top_exit_frame_info_;
	void* init_callback_data_;
	Dart_EnvironmentCallback environment_callback_;
	Dart_LibraryTagHandler library_tag_handler_;
	ApiState* api_state_;
	StubCode* stub_code_;
	Debugger* debugger_;
	bool single_step_;
	Simulator* simulator_;
	LongJump* long_jump_base_;
	TimerList timer_list_;
	intptr_t deopt_id_;
	Mutex* mutex_; // protects stack_limit_ and saved_stack_limit_.
	uword stack_limit_;
	uword saved_stack_limit_;
	MessageHandler* message_handler_;
	uword spawn_data_;
	bool is_runnable_;
	GcPrologueCallbacks gc_prologue_callbacks_;
	GcEpilogueCallbacks gc_epilogue_callbacks_;
	intptr_t defer_finalization_count_;
	DeoptContext* deopt_context_;

	// Status support.
	char* stacktrace_;
	intptr_t stack_frame_index_;
	ObjectHistogram* object_histogram_;

	// Ring buffer of objects assigned an id.
	ObjectIdRing* object_id_ring_;

	// Reusable handles support.
	#define REUSABLE_HANDLE_FIELDS(object) \
	object* object##_handle_; \

	REUSABLE_HANDLE_LIST(REUSABLE_HANDLE_FIELDS)
	#undef REUSABLE_HANDLE_FIELDS
	VMHandles reusable_handles_;

	static Dart_IsolateCreateCallback create_callback_;
	static Dart_IsolateInterruptCallback interrupt_callback_;
	static Dart_IsolateUnhandledExceptionCallback unhandled_exception_callback_;
	static Dart_IsolateShutdownCallback shutdown_callback_;
	static Dart_FileOpenCallback file_open_callback_;
	static Dart_FileReadCallback file_read_callback_;
	static Dart_FileWriteCallback file_write_callback_;
	static Dart_FileCloseCallback file_close_callback_;
	static Dart_IsolateInterruptCallback vmstats_callback_;

	friend class ReusableHandleScope;
	friend class ReusableObjectHandleScope;
	DISALLOW_COPY_AND_ASSIGN(Isolate);
	};


	// When we need to execute code in an isolate, we use the
	// StartIsolateScope.
	class StartIsolateScope {
	public:
	explicit StartIsolateScope(Isolate* new_isolate)
	: new_isolate_(new_isolate), saved_isolate_(Isolate::Current()) {
	ASSERT(new_isolate_ != NULL);
	if (saved_isolate_ != new_isolate_) {
	ASSERT(Isolate::Current() == NULL);
	Isolate::SetCurrent(new_isolate_);
	new_isolate_->SetStackLimitFromCurrentTOS(reinterpret_cast<uword>(this));
	}
	}

	~StartIsolateScope() {
	if (saved_isolate_ != new_isolate_) {
	new_isolate_->SetStackLimit(~static_cast<uword>(0));
	Isolate::SetCurrent(saved_isolate_);
	}
	}

	private:
	Isolate* new_isolate_;
	Isolate* saved_isolate_;

	DISALLOW_COPY_AND_ASSIGN(StartIsolateScope);
	};

	// When we need to temporarily become another isolate, we use the
	// SwitchIsolateScope. It is not permitted to run dart code while in
	// a SwitchIsolateScope.
	class SwitchIsolateScope {
	public:
	explicit SwitchIsolateScope(Isolate* new_isolate)
	: new_isolate_(new_isolate),
	saved_isolate_(Isolate::Current()),
	saved_stack_limit_(saved_isolate_
	? saved_isolate_->saved_stack_limit() : 0) {
	if (saved_isolate_ != new_isolate_) {
	Isolate::SetCurrent(new_isolate_);
	if (new_isolate_ != NULL) {
	// Don't allow dart code to execute.
	new_isolate_->SetStackLimit(~static_cast<uword>(0));
	}
	}
	}

	~SwitchIsolateScope() {
	if (saved_isolate_ != new_isolate_) {
	Isolate::SetCurrent(saved_isolate_);
	if (saved_isolate_ != NULL) {
	saved_isolate_->SetStackLimit(saved_stack_limit_);
	}
	}
	}

	private:
	Isolate* new_isolate_;
	Isolate* saved_isolate_;
	uword saved_stack_limit_;

	DISALLOW_COPY_AND_ASSIGN(SwitchIsolateScope);
	};


	class IsolateSpawnState {
	public:
	explicit IsolateSpawnState(const Function& func);
	explicit IsolateSpawnState(const char* script_url);
	~IsolateSpawnState();

	Isolate* isolate() const { return isolate_; }
	void set_isolate(Isolate* value) { isolate_ = value; }
	char* script_url() const { return script_url_; }
	char* library_url() const { return library_url_; }
	char* function_name() const { return function_name_; }
	char* exception_callback_name() const { return exception_callback_name_; }
	bool is_spawn_uri() const { return library_url_ == NULL; }

	RawObject* ResolveFunction();
	void Cleanup();

	private:
	Isolate* isolate_;
	char* script_url_;
	char* library_url_;
	char* function_name_;
	char* exception_callback_name_;
	};

	} // namespace dart

	#endif // VM_ISOLATE_H_