src/api.h - v8/v8 - Git at Google

 // Copyright 2012 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_API_H_
 #define V8_API_H_

 #include "include/v8-testing.h"
 #include "src/contexts.h"
 #include "src/factory.h"
 #include "src/isolate.h"
 #include "src/list.h"
 #include "src/objects-inl.h"

 namespace v8 {

 // Constants used in the implementation of the API.  The most natural thing
 // would usually be to place these with the classes that use them, but
 // we want to keep them out of v8.h because it is an externally
 // visible file.
 class Consts {
  public:
   enum TemplateType {
     FUNCTION_TEMPLATE = 0,
     OBJECT_TEMPLATE = 1
   };
 };

 template <typename T> inline T ToCData(v8::internal::Object* obj) {
   STATIC_ASSERT(sizeof(T) == sizeof(v8::internal::Address));
   if (obj == v8::internal::Smi::FromInt(0)) return nullptr;
   return reinterpret_cast<T>(
       reinterpret_cast<intptr_t>(
           v8::internal::Foreign::cast(obj)->foreign_address()));
 }


 template <typename T>
 inline v8::internal::Handle<v8::internal::Object> FromCData(
     v8::internal::Isolate* isolate, T obj) {
   STATIC_ASSERT(sizeof(T) == sizeof(v8::internal::Address));
   if (obj == nullptr) return handle(v8::internal::Smi::FromInt(0), isolate);
   return isolate->factory()->NewForeign(
       reinterpret_cast<v8::internal::Address>(reinterpret_cast<intptr_t>(obj)));
 }


 class ApiFunction {
  public:
   explicit ApiFunction(v8::internal::Address addr) : addr_(addr) { }
   v8::internal::Address address() { return addr_; }
  private:
   v8::internal::Address addr_;
 };


 class RegisteredExtension {
  public:
   explicit RegisteredExtension(Extension* extension);
   static void Register(RegisteredExtension* that);
   static void UnregisterAll();
   Extension* extension() { return extension_; }
   RegisteredExtension* next() { return next_; }
   static RegisteredExtension* first_extension() { return first_extension_; }
  private:
   Extension* extension_;
   RegisteredExtension* next_;
   static RegisteredExtension* first_extension_;
 };

 #define OPEN_HANDLE_LIST(V)                  \
   V(Template, TemplateInfo)                  \
   V(FunctionTemplate, FunctionTemplateInfo)  \
   V(ObjectTemplate, ObjectTemplateInfo)      \
   V(Signature, FunctionTemplateInfo)         \
   V(AccessorSignature, FunctionTemplateInfo) \
   V(Data, Object)                            \
   V(RegExp, JSRegExp)                        \
   V(Object, JSReceiver)                      \
   V(Array, JSArray)                          \
   V(Map, JSMap)                              \
   V(Set, JSSet)                              \
   V(ArrayBuffer, JSArrayBuffer)              \
   V(ArrayBufferView, JSArrayBufferView)      \
   V(TypedArray, JSTypedArray)                \
   V(Uint8Array, JSTypedArray)                \
   V(Uint8ClampedArray, JSTypedArray)         \
   V(Int8Array, JSTypedArray)                 \
   V(Uint16Array, JSTypedArray)               \
   V(Int16Array, JSTypedArray)                \
   V(Uint32Array, JSTypedArray)               \
   V(Int32Array, JSTypedArray)                \
   V(Float32Array, JSTypedArray)              \
   V(Float64Array, JSTypedArray)              \
   V(DataView, JSDataView)                    \
   V(SharedArrayBuffer, JSArrayBuffer)        \
   V(Name, Name)                              \
   V(String, String)                          \
   V(Symbol, Symbol)                          \
   V(Script, JSFunction)                      \
   V(UnboundScript, SharedFunctionInfo)       \
   V(Module, Module)                          \
   V(Function, JSReceiver)                    \
   V(Message, JSMessageObject)                \
   V(Context, Context)                        \
   V(External, Object)                        \
   V(StackTrace, JSArray)                     \
   V(StackFrame, JSObject)                    \
   V(Proxy, JSProxy)                          \
   V(NativeWeakMap, JSWeakMap)

 class Utils {
  public:
   static inline bool ApiCheck(bool condition,
                               const char* location,
                               const char* message) {
     if (!condition) Utils::ReportApiFailure(location, message);
     return condition;
   }
   static void ReportOOMFailure(const char* location, bool is_heap_oom);

   static inline Local<Context> ToLocal(
       v8::internal::Handle<v8::internal::Context> obj);
   static inline Local<Value> ToLocal(
       v8::internal::Handle<v8::internal::Object> obj);
   static inline Local<Name> ToLocal(
       v8::internal::Handle<v8::internal::Name> obj);
   static inline Local<String> ToLocal(
       v8::internal::Handle<v8::internal::String> obj);
   static inline Local<Symbol> ToLocal(
       v8::internal::Handle<v8::internal::Symbol> obj);
   static inline Local<RegExp> ToLocal(
       v8::internal::Handle<v8::internal::JSRegExp> obj);
   static inline Local<Object> ToLocal(
       v8::internal::Handle<v8::internal::JSReceiver> obj);
   static inline Local<Object> ToLocal(
       v8::internal::Handle<v8::internal::JSObject> obj);
   static inline Local<Array> ToLocal(
       v8::internal::Handle<v8::internal::JSArray> obj);
   static inline Local<Map> ToLocal(
       v8::internal::Handle<v8::internal::JSMap> obj);
   static inline Local<Set> ToLocal(
       v8::internal::Handle<v8::internal::JSSet> obj);
   static inline Local<Proxy> ToLocal(
       v8::internal::Handle<v8::internal::JSProxy> obj);
   static inline Local<ArrayBuffer> ToLocal(
       v8::internal::Handle<v8::internal::JSArrayBuffer> obj);
   static inline Local<ArrayBufferView> ToLocal(
       v8::internal::Handle<v8::internal::JSArrayBufferView> obj);
   static inline Local<DataView> ToLocal(
       v8::internal::Handle<v8::internal::JSDataView> obj);
   static inline Local<TypedArray> ToLocal(
       v8::internal::Handle<v8::internal::JSTypedArray> obj);
   static inline Local<Uint8Array> ToLocalUint8Array(
       v8::internal::Handle<v8::internal::JSTypedArray> obj);
   static inline Local<Uint8ClampedArray> ToLocalUint8ClampedArray(
       v8::internal::Handle<v8::internal::JSTypedArray> obj);
   static inline Local<Int8Array> ToLocalInt8Array(
       v8::internal::Handle<v8::internal::JSTypedArray> obj);
   static inline Local<Uint16Array> ToLocalUint16Array(
       v8::internal::Handle<v8::internal::JSTypedArray> obj);
   static inline Local<Int16Array> ToLocalInt16Array(
       v8::internal::Handle<v8::internal::JSTypedArray> obj);
   static inline Local<Uint32Array> ToLocalUint32Array(
       v8::internal::Handle<v8::internal::JSTypedArray> obj);
   static inline Local<Int32Array> ToLocalInt32Array(
       v8::internal::Handle<v8::internal::JSTypedArray> obj);
   static inline Local<Float32Array> ToLocalFloat32Array(
       v8::internal::Handle<v8::internal::JSTypedArray> obj);
   static inline Local<Float64Array> ToLocalFloat64Array(
       v8::internal::Handle<v8::internal::JSTypedArray> obj);

   static inline Local<SharedArrayBuffer> ToLocalShared(
       v8::internal::Handle<v8::internal::JSArrayBuffer> obj);

   static inline Local<Message> MessageToLocal(
       v8::internal::Handle<v8::internal::Object> obj);
   static inline Local<Promise> PromiseToLocal(
       v8::internal::Handle<v8::internal::JSObject> obj);
   static inline Local<StackTrace> StackTraceToLocal(
       v8::internal::Handle<v8::internal::JSArray> obj);
   static inline Local<StackFrame> StackFrameToLocal(
       v8::internal::Handle<v8::internal::JSObject> obj);
   static inline Local<Number> NumberToLocal(
       v8::internal::Handle<v8::internal::Object> obj);
   static inline Local<Integer> IntegerToLocal(
       v8::internal::Handle<v8::internal::Object> obj);
   static inline Local<Uint32> Uint32ToLocal(
       v8::internal::Handle<v8::internal::Object> obj);
   static inline Local<FunctionTemplate> ToLocal(
       v8::internal::Handle<v8::internal::FunctionTemplateInfo> obj);
   static inline Local<ObjectTemplate> ToLocal(
       v8::internal::Handle<v8::internal::ObjectTemplateInfo> obj);
   static inline Local<Signature> SignatureToLocal(
       v8::internal::Handle<v8::internal::FunctionTemplateInfo> obj);
   static inline Local<AccessorSignature> AccessorSignatureToLocal(
       v8::internal::Handle<v8::internal::FunctionTemplateInfo> obj);
   static inline Local<External> ExternalToLocal(
       v8::internal::Handle<v8::internal::JSObject> obj);
   static inline Local<NativeWeakMap> NativeWeakMapToLocal(
       v8::internal::Handle<v8::internal::JSWeakMap> obj);
   static inline Local<Function> CallableToLocal(
       v8::internal::Handle<v8::internal::JSReceiver> obj);

 #define DECLARE_OPEN_HANDLE(From, To) \
   static inline v8::internal::Handle<v8::internal::To> \
       OpenHandle(const From* that, bool allow_empty_handle = false);

 OPEN_HANDLE_LIST(DECLARE_OPEN_HANDLE)

 #undef DECLARE_OPEN_HANDLE

   template<class From, class To>
   static inline Local<To> Convert(v8::internal::Handle<From> obj) {
     DCHECK(obj.is_null() ||
            (obj->IsSmi() ||
             !obj->IsTheHole(i::HeapObject::cast(*obj)->GetIsolate())));
     return Local<To>(reinterpret_cast<To*>(obj.location()));
   }

   template <class T>
   static inline v8::internal::Handle<v8::internal::Object> OpenPersistent(
       const v8::Persistent<T>& persistent) {
     return v8::internal::Handle<v8::internal::Object>(
         reinterpret_cast<v8::internal::Object**>(persistent.val_));
   }

   template <class T>
   static inline v8::internal::Handle<v8::internal::Object> OpenPersistent(
       v8::Persistent<T>* persistent) {
     return OpenPersistent(*persistent);
   }

   template <class From, class To>
   static inline v8::internal::Handle<To> OpenHandle(v8::Local<From> handle) {
     return OpenHandle(*handle);
   }

  private:
   static void ReportApiFailure(const char* location, const char* message);
 };


 template <class T>
 inline T* ToApi(v8::internal::Handle<v8::internal::Object> obj) {
   return reinterpret_cast<T*>(obj.location());
 }

 template <class T>
 inline v8::Local<T> ToApiHandle(
     v8::internal::Handle<v8::internal::Object> obj) {
   return Utils::Convert<v8::internal::Object, T>(obj);
 }


 template <class T>
 inline bool ToLocal(v8::internal::MaybeHandle<v8::internal::Object> maybe,
                     Local<T>* local) {
   v8::internal::Handle<v8::internal::Object> handle;
   if (maybe.ToHandle(&handle)) {
     *local = Utils::Convert<v8::internal::Object, T>(handle);
     return true;
   }
   return false;
 }


 // Implementations of ToLocal

 #define MAKE_TO_LOCAL(Name, From, To)                                       \
   Local<v8::To> Utils::Name(v8::internal::Handle<v8::internal::From> obj) { \
     return Convert<v8::internal::From, v8::To>(obj);  \
   }


 #define MAKE_TO_LOCAL_TYPED_ARRAY(Type, typeName, TYPE, ctype, size)  \
   Local<v8::Type##Array> Utils::ToLocal##Type##Array(                 \
       v8::internal::Handle<v8::internal::JSTypedArray> obj) {         \
     DCHECK(obj->type() == v8::internal::kExternal##Type##Array);      \
     return Convert<v8::internal::JSTypedArray, v8::Type##Array>(obj); \
   }


 MAKE_TO_LOCAL(ToLocal, Context, Context)
 MAKE_TO_LOCAL(ToLocal, Object, Value)
 MAKE_TO_LOCAL(ToLocal, Name, Name)
 MAKE_TO_LOCAL(ToLocal, String, String)
 MAKE_TO_LOCAL(ToLocal, Symbol, Symbol)
 MAKE_TO_LOCAL(ToLocal, JSRegExp, RegExp)
 MAKE_TO_LOCAL(ToLocal, JSReceiver, Object)
 MAKE_TO_LOCAL(ToLocal, JSObject, Object)
 MAKE_TO_LOCAL(ToLocal, JSArray, Array)
 MAKE_TO_LOCAL(ToLocal, JSMap, Map)
 MAKE_TO_LOCAL(ToLocal, JSSet, Set)
 MAKE_TO_LOCAL(ToLocal, JSProxy, Proxy)
 MAKE_TO_LOCAL(ToLocal, JSArrayBuffer, ArrayBuffer)
 MAKE_TO_LOCAL(ToLocal, JSArrayBufferView, ArrayBufferView)
 MAKE_TO_LOCAL(ToLocal, JSDataView, DataView)
 MAKE_TO_LOCAL(ToLocal, JSTypedArray, TypedArray)
 MAKE_TO_LOCAL(ToLocalShared, JSArrayBuffer, SharedArrayBuffer)

 TYPED_ARRAYS(MAKE_TO_LOCAL_TYPED_ARRAY)

 MAKE_TO_LOCAL(ToLocal, FunctionTemplateInfo, FunctionTemplate)
 MAKE_TO_LOCAL(ToLocal, ObjectTemplateInfo, ObjectTemplate)
 MAKE_TO_LOCAL(SignatureToLocal, FunctionTemplateInfo, Signature)
 MAKE_TO_LOCAL(AccessorSignatureToLocal, FunctionTemplateInfo, AccessorSignature)
 MAKE_TO_LOCAL(MessageToLocal, Object, Message)
 MAKE_TO_LOCAL(PromiseToLocal, JSObject, Promise)
 MAKE_TO_LOCAL(StackTraceToLocal, JSArray, StackTrace)
 MAKE_TO_LOCAL(StackFrameToLocal, JSObject, StackFrame)
 MAKE_TO_LOCAL(NumberToLocal, Object, Number)
 MAKE_TO_LOCAL(IntegerToLocal, Object, Integer)
 MAKE_TO_LOCAL(Uint32ToLocal, Object, Uint32)
 MAKE_TO_LOCAL(ExternalToLocal, JSObject, External)
 MAKE_TO_LOCAL(NativeWeakMapToLocal, JSWeakMap, NativeWeakMap)
 MAKE_TO_LOCAL(CallableToLocal, JSReceiver, Function)

 #undef MAKE_TO_LOCAL_TYPED_ARRAY
 #undef MAKE_TO_LOCAL


 // Implementations of OpenHandle

 #define MAKE_OPEN_HANDLE(From, To)                                             \
   v8::internal::Handle<v8::internal::To> Utils::OpenHandle(                    \
       const v8::From* that, bool allow_empty_handle) {                         \
     DCHECK(allow_empty_handle || that != NULL);                                \
     DCHECK(that == NULL ||                                                     \
            (*reinterpret_cast<v8::internal::Object* const*>(that))->Is##To()); \
     return v8::internal::Handle<v8::internal::To>(                             \
         reinterpret_cast<v8::internal::To**>(const_cast<v8::From*>(that)));    \
   }

 OPEN_HANDLE_LIST(MAKE_OPEN_HANDLE)

 #undef MAKE_OPEN_HANDLE
 #undef OPEN_HANDLE_LIST


 namespace internal {


 class DeferredHandles {
  public:
   ~DeferredHandles();

  private:
   DeferredHandles(Object** first_block_limit, Isolate* isolate)
       : next_(NULL),
         previous_(NULL),
         first_block_limit_(first_block_limit),
         isolate_(isolate) {
     isolate->LinkDeferredHandles(this);
   }

   void Iterate(ObjectVisitor* v);

   List<Object**> blocks_;
   DeferredHandles* next_;
   DeferredHandles* previous_;
   Object** first_block_limit_;
   Isolate* isolate_;

   friend class HandleScopeImplementer;
   friend class Isolate;
 };


 // This class is here in order to be able to declare it a friend of
 // HandleScope.  Moving these methods to be members of HandleScope would be
 // neat in some ways, but it would expose internal implementation details in
 // our public header file, which is undesirable.
 //
 // An isolate has a single instance of this class to hold the current thread's
 // data. In multithreaded V8 programs this data is copied in and out of storage
 // so that the currently executing thread always has its own copy of this
 // data.
 class HandleScopeImplementer {
  public:
   explicit HandleScopeImplementer(Isolate* isolate)
       : isolate_(isolate),
         blocks_(0),
         entered_contexts_(0),
         saved_contexts_(0),
         microtask_context_(nullptr),
         spare_(NULL),
         call_depth_(0),
         microtasks_depth_(0),
         microtasks_suppressions_(0),
 #ifdef DEBUG
         debug_microtasks_depth_(0),
 #endif
         microtasks_policy_(v8::MicrotasksPolicy::kAuto),
         last_handle_before_deferred_block_(NULL) { }

   ~HandleScopeImplementer() {
     DeleteArray(spare_);
   }

   // Threading support for handle data.
   static int ArchiveSpacePerThread();
   char* RestoreThread(char* from);
   char* ArchiveThread(char* to);
   void FreeThreadResources();

   // Garbage collection support.
   void Iterate(v8::internal::ObjectVisitor* v);
   static char* Iterate(v8::internal::ObjectVisitor* v, char* data);


   inline internal::Object** GetSpareOrNewBlock();
   inline void DeleteExtensions(internal::Object** prev_limit);

   // Call depth represents nested v8 api calls.
   inline void IncrementCallDepth() {call_depth_++;}
   inline void DecrementCallDepth() {call_depth_--;}
   inline bool CallDepthIsZero() { return call_depth_ == 0; }

   // Microtasks scope depth represents nested scopes controlling microtasks
   // invocation, which happens when depth reaches zero.
   inline void IncrementMicrotasksScopeDepth() {microtasks_depth_++;}
   inline void DecrementMicrotasksScopeDepth() {microtasks_depth_--;}
   inline int GetMicrotasksScopeDepth() { return microtasks_depth_; }

   // Possibly nested microtasks suppression scopes prevent microtasks
   // from running.
   inline void IncrementMicrotasksSuppressions() {microtasks_suppressions_++;}
   inline void DecrementMicrotasksSuppressions() {microtasks_suppressions_--;}
   inline bool HasMicrotasksSuppressions() { return !!microtasks_suppressions_; }

 #ifdef DEBUG
   // In debug we check that calls not intended to invoke microtasks are
   // still correctly wrapped with microtask scopes.
   inline void IncrementDebugMicrotasksScopeDepth() {debug_microtasks_depth_++;}
   inline void DecrementDebugMicrotasksScopeDepth() {debug_microtasks_depth_--;}
   inline bool DebugMicrotasksScopeDepthIsZero() {
     return debug_microtasks_depth_ == 0;
   }
 #endif

   inline void set_microtasks_policy(v8::MicrotasksPolicy policy);
   inline v8::MicrotasksPolicy microtasks_policy() const;

   inline void EnterContext(Handle<Context> context);
   inline void LeaveContext();
   inline bool LastEnteredContextWas(Handle<Context> context);

   // Returns the last entered context or an empty handle if no
   // contexts have been entered.
   inline Handle<Context> LastEnteredContext();

   inline void EnterMicrotaskContext(Handle<Context> context);
   inline void LeaveMicrotaskContext();
   inline Handle<Context> MicrotaskContext();

   inline void SaveContext(Context* context);
   inline Context* RestoreContext();
   inline bool HasSavedContexts();

   inline List<internal::Object**>* blocks() { return &blocks_; }
   Isolate* isolate() const { return isolate_; }

   void ReturnBlock(Object** block) {
     DCHECK(block != NULL);
     if (spare_ != NULL) DeleteArray(spare_);
     spare_ = block;
   }

  private:
   void ResetAfterArchive() {
     blocks_.Initialize(0);
     entered_contexts_.Initialize(0);
     saved_contexts_.Initialize(0);
     microtask_context_ = nullptr;
     spare_ = NULL;
     last_handle_before_deferred_block_ = NULL;
     call_depth_ = 0;
   }

   void Free() {
     DCHECK(blocks_.length() == 0);
     DCHECK(entered_contexts_.length() == 0);
     DCHECK(saved_contexts_.length() == 0);
     DCHECK(!microtask_context_);
     blocks_.Free();
     entered_contexts_.Free();
     saved_contexts_.Free();
     if (spare_ != NULL) {
       DeleteArray(spare_);
       spare_ = NULL;
     }
     DCHECK(call_depth_ == 0);
   }

   void BeginDeferredScope();
   DeferredHandles* Detach(Object** prev_limit);

   Isolate* isolate_;
   List<internal::Object**> blocks_;
   // Used as a stack to keep track of entered contexts.
   List<Context*> entered_contexts_;
   // Used as a stack to keep track of saved contexts.
   List<Context*> saved_contexts_;
   Context* microtask_context_;
   Object** spare_;
   int call_depth_;
   int microtasks_depth_;
   int microtasks_suppressions_;
 #ifdef DEBUG
   int debug_microtasks_depth_;
 #endif
   v8::MicrotasksPolicy microtasks_policy_;
   Object** last_handle_before_deferred_block_;
   // This is only used for threading support.
   HandleScopeData handle_scope_data_;

   void IterateThis(ObjectVisitor* v);
   char* RestoreThreadHelper(char* from);
   char* ArchiveThreadHelper(char* to);

   friend class DeferredHandles;
   friend class DeferredHandleScope;

   DISALLOW_COPY_AND_ASSIGN(HandleScopeImplementer);
 };


 const int kHandleBlockSize = v8::internal::KB - 2;  // fit in one page


 void HandleScopeImplementer::set_microtasks_policy(
     v8::MicrotasksPolicy policy) {
   microtasks_policy_ = policy;
 }


 v8::MicrotasksPolicy HandleScopeImplementer::microtasks_policy() const {
   return microtasks_policy_;
 }


 void HandleScopeImplementer::SaveContext(Context* context) {
   saved_contexts_.Add(context);
 }


 Context* HandleScopeImplementer::RestoreContext() {
   return saved_contexts_.RemoveLast();
 }


 bool HandleScopeImplementer::HasSavedContexts() {
   return !saved_contexts_.is_empty();
 }


 void HandleScopeImplementer::EnterContext(Handle<Context> context) {
   entered_contexts_.Add(*context);
 }


 void HandleScopeImplementer::LeaveContext() {
   entered_contexts_.RemoveLast();
 }


 bool HandleScopeImplementer::LastEnteredContextWas(Handle<Context> context) {
   return !entered_contexts_.is_empty() && entered_contexts_.last() == *context;
 }


 Handle<Context> HandleScopeImplementer::LastEnteredContext() {
   if (entered_contexts_.is_empty()) return Handle<Context>::null();
   return Handle<Context>(entered_contexts_.last());
 }

 void HandleScopeImplementer::EnterMicrotaskContext(Handle<Context> context) {
   DCHECK(!microtask_context_);
   microtask_context_ = *context;
 }

 void HandleScopeImplementer::LeaveMicrotaskContext() {
   DCHECK(microtask_context_);
   microtask_context_ = nullptr;
 }

 Handle<Context> HandleScopeImplementer::MicrotaskContext() {
   if (microtask_context_) return Handle<Context>(microtask_context_);
   return Handle<Context>::null();
 }

 // If there's a spare block, use it for growing the current scope.
 internal::Object** HandleScopeImplementer::GetSpareOrNewBlock() {
   internal::Object** block = (spare_ != NULL) ?
       spare_ :
       NewArray<internal::Object*>(kHandleBlockSize);
   spare_ = NULL;
   return block;
 }


 void HandleScopeImplementer::DeleteExtensions(internal::Object** prev_limit) {
   while (!blocks_.is_empty()) {
     internal::Object** block_start = blocks_.last();
     internal::Object** block_limit = block_start + kHandleBlockSize;

     // SealHandleScope may make the prev_limit to point inside the block.
     if (block_start <= prev_limit && prev_limit <= block_limit) {
 #ifdef ENABLE_HANDLE_ZAPPING
       internal::HandleScope::ZapRange(prev_limit, block_limit);
 #endif
       break;
     }

     blocks_.RemoveLast();
 #ifdef ENABLE_HANDLE_ZAPPING
     internal::HandleScope::ZapRange(block_start, block_limit);
 #endif
     if (spare_ != NULL) {
       DeleteArray(spare_);
     }
     spare_ = block_start;
   }
   DCHECK((blocks_.is_empty() && prev_limit == NULL) ||
          (!blocks_.is_empty() && prev_limit != NULL));
 }


 // Interceptor functions called from generated inline caches to notify
 // CPU profiler that external callbacks are invoked.
 void InvokeAccessorGetterCallback(
     v8::Local<v8::Name> property,
     const v8::PropertyCallbackInfo<v8::Value>& info,
     v8::AccessorNameGetterCallback getter);

 void InvokeFunctionCallback(const v8::FunctionCallbackInfo<v8::Value>& info,
                             v8::FunctionCallback callback);

 class Testing {
  public:
   static v8::Testing::StressType stress_type() { return stress_type_; }
   static void set_stress_type(v8::Testing::StressType stress_type) {
     stress_type_ = stress_type;
   }

  private:
   static v8::Testing::StressType stress_type_;
 };

 }  // namespace internal
 }  // namespace v8

 #endif  // V8_API_H_
	// Copyright 2012 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_API_H_
	#define V8_API_H_

	#include "include/v8-testing.h"
	#include "src/contexts.h"
	#include "src/factory.h"
	#include "src/isolate.h"
	#include "src/list.h"
	#include "src/objects-inl.h"

	namespace v8 {

	// Constants used in the implementation of the API. The most natural thing
	// would usually be to place these with the classes that use them, but
	// we want to keep them out of v8.h because it is an externally
	// visible file.
	class Consts {
	public:
	enum TemplateType {
	FUNCTION_TEMPLATE = 0,
	OBJECT_TEMPLATE = 1
	};
	};

	template <typename T> inline T ToCData(v8::internal::Object* obj) {
	STATIC_ASSERT(sizeof(T) == sizeof(v8::internal::Address));
	if (obj == v8::internal::Smi::FromInt(0)) return nullptr;
	return reinterpret_cast<T>(
	reinterpret_cast<intptr_t>(
	v8::internal::Foreign::cast(obj)->foreign_address()));
	}


	template <typename T>
	inline v8::internal::Handle<v8::internal::Object> FromCData(
	v8::internal::Isolate* isolate, T obj) {
	STATIC_ASSERT(sizeof(T) == sizeof(v8::internal::Address));
	if (obj == nullptr) return handle(v8::internal::Smi::FromInt(0), isolate);
	return isolate->factory()->NewForeign(
	reinterpret_cast<v8::internal::Address>(reinterpret_cast<intptr_t>(obj)));
	}


	class ApiFunction {
	public:
	explicit ApiFunction(v8::internal::Address addr) : addr_(addr) { }
	v8::internal::Address address() { return addr_; }
	private:
	v8::internal::Address addr_;
	};



	class RegisteredExtension {
	public:
	explicit RegisteredExtension(Extension* extension);
	static void Register(RegisteredExtension* that);
	static void UnregisterAll();
	Extension* extension() { return extension_; }
	RegisteredExtension* next() { return next_; }
	static RegisteredExtension* first_extension() { return first_extension_; }
	private:
	Extension* extension_;
	RegisteredExtension* next_;
	static RegisteredExtension* first_extension_;
	};

	#define OPEN_HANDLE_LIST(V) \
	V(Template, TemplateInfo) \
	V(FunctionTemplate, FunctionTemplateInfo) \
	V(ObjectTemplate, ObjectTemplateInfo) \
	V(Signature, FunctionTemplateInfo) \
	V(AccessorSignature, FunctionTemplateInfo) \
	V(Data, Object) \
	V(RegExp, JSRegExp) \
	V(Object, JSReceiver) \
	V(Array, JSArray) \
	V(Map, JSMap) \
	V(Set, JSSet) \
	V(ArrayBuffer, JSArrayBuffer) \
	V(ArrayBufferView, JSArrayBufferView) \
	V(TypedArray, JSTypedArray) \
	V(Uint8Array, JSTypedArray) \
	V(Uint8ClampedArray, JSTypedArray) \
	V(Int8Array, JSTypedArray) \
	V(Uint16Array, JSTypedArray) \
	V(Int16Array, JSTypedArray) \
	V(Uint32Array, JSTypedArray) \
	V(Int32Array, JSTypedArray) \
	V(Float32Array, JSTypedArray) \
	V(Float64Array, JSTypedArray) \
	V(DataView, JSDataView) \
	V(SharedArrayBuffer, JSArrayBuffer) \
	V(Name, Name) \
	V(String, String) \
	V(Symbol, Symbol) \
	V(Script, JSFunction) \
	V(UnboundScript, SharedFunctionInfo) \
	V(Module, Module) \
	V(Function, JSReceiver) \
	V(Message, JSMessageObject) \
	V(Context, Context) \
	V(External, Object) \
	V(StackTrace, JSArray) \
	V(StackFrame, JSObject) \
	V(Proxy, JSProxy) \
	V(NativeWeakMap, JSWeakMap)

	class Utils {
	public:
	static inline bool ApiCheck(bool condition,
	const char* location,
	const char* message) {
	if (!condition) Utils::ReportApiFailure(location, message);
	return condition;
	}
	static void ReportOOMFailure(const char* location, bool is_heap_oom);

	static inline Local<Context> ToLocal(
	v8::internal::Handle<v8::internal::Context> obj);
	static inline Local<Value> ToLocal(
	v8::internal::Handle<v8::internal::Object> obj);
	static inline Local<Name> ToLocal(
	v8::internal::Handle<v8::internal::Name> obj);
	static inline Local<String> ToLocal(
	v8::internal::Handle<v8::internal::String> obj);
	static inline Local<Symbol> ToLocal(
	v8::internal::Handle<v8::internal::Symbol> obj);
	static inline Local<RegExp> ToLocal(
	v8::internal::Handle<v8::internal::JSRegExp> obj);
	static inline Local<Object> ToLocal(
	v8::internal::Handle<v8::internal::JSReceiver> obj);
	static inline Local<Object> ToLocal(
	v8::internal::Handle<v8::internal::JSObject> obj);
	static inline Local<Array> ToLocal(
	v8::internal::Handle<v8::internal::JSArray> obj);
	static inline Local<Map> ToLocal(
	v8::internal::Handle<v8::internal::JSMap> obj);
	static inline Local<Set> ToLocal(
	v8::internal::Handle<v8::internal::JSSet> obj);
	static inline Local<Proxy> ToLocal(
	v8::internal::Handle<v8::internal::JSProxy> obj);
	static inline Local<ArrayBuffer> ToLocal(
	v8::internal::Handle<v8::internal::JSArrayBuffer> obj);
	static inline Local<ArrayBufferView> ToLocal(
	v8::internal::Handle<v8::internal::JSArrayBufferView> obj);
	static inline Local<DataView> ToLocal(
	v8::internal::Handle<v8::internal::JSDataView> obj);
	static inline Local<TypedArray> ToLocal(
	v8::internal::Handle<v8::internal::JSTypedArray> obj);
	static inline Local<Uint8Array> ToLocalUint8Array(
	v8::internal::Handle<v8::internal::JSTypedArray> obj);
	static inline Local<Uint8ClampedArray> ToLocalUint8ClampedArray(
	v8::internal::Handle<v8::internal::JSTypedArray> obj);
	static inline Local<Int8Array> ToLocalInt8Array(
	v8::internal::Handle<v8::internal::JSTypedArray> obj);
	static inline Local<Uint16Array> ToLocalUint16Array(
	v8::internal::Handle<v8::internal::JSTypedArray> obj);
	static inline Local<Int16Array> ToLocalInt16Array(
	v8::internal::Handle<v8::internal::JSTypedArray> obj);
	static inline Local<Uint32Array> ToLocalUint32Array(
	v8::internal::Handle<v8::internal::JSTypedArray> obj);
	static inline Local<Int32Array> ToLocalInt32Array(
	v8::internal::Handle<v8::internal::JSTypedArray> obj);
	static inline Local<Float32Array> ToLocalFloat32Array(
	v8::internal::Handle<v8::internal::JSTypedArray> obj);
	static inline Local<Float64Array> ToLocalFloat64Array(
	v8::internal::Handle<v8::internal::JSTypedArray> obj);

	static inline Local<SharedArrayBuffer> ToLocalShared(
	v8::internal::Handle<v8::internal::JSArrayBuffer> obj);

	static inline Local<Message> MessageToLocal(
	v8::internal::Handle<v8::internal::Object> obj);
	static inline Local<Promise> PromiseToLocal(
	v8::internal::Handle<v8::internal::JSObject> obj);
	static inline Local<StackTrace> StackTraceToLocal(
	v8::internal::Handle<v8::internal::JSArray> obj);
	static inline Local<StackFrame> StackFrameToLocal(
	v8::internal::Handle<v8::internal::JSObject> obj);
	static inline Local<Number> NumberToLocal(
	v8::internal::Handle<v8::internal::Object> obj);
	static inline Local<Integer> IntegerToLocal(
	v8::internal::Handle<v8::internal::Object> obj);
	static inline Local<Uint32> Uint32ToLocal(
	v8::internal::Handle<v8::internal::Object> obj);
	static inline Local<FunctionTemplate> ToLocal(
	v8::internal::Handle<v8::internal::FunctionTemplateInfo> obj);
	static inline Local<ObjectTemplate> ToLocal(
	v8::internal::Handle<v8::internal::ObjectTemplateInfo> obj);
	static inline Local<Signature> SignatureToLocal(
	v8::internal::Handle<v8::internal::FunctionTemplateInfo> obj);
	static inline Local<AccessorSignature> AccessorSignatureToLocal(
	v8::internal::Handle<v8::internal::FunctionTemplateInfo> obj);
	static inline Local<External> ExternalToLocal(
	v8::internal::Handle<v8::internal::JSObject> obj);
	static inline Local<NativeWeakMap> NativeWeakMapToLocal(
	v8::internal::Handle<v8::internal::JSWeakMap> obj);
	static inline Local<Function> CallableToLocal(
	v8::internal::Handle<v8::internal::JSReceiver> obj);

	#define DECLARE_OPEN_HANDLE(From, To) \
	static inline v8::internal::Handle<v8::internal::To> \
	OpenHandle(const From* that, bool allow_empty_handle = false);

	OPEN_HANDLE_LIST(DECLARE_OPEN_HANDLE)

	#undef DECLARE_OPEN_HANDLE

	template<class From, class To>
	static inline Local<To> Convert(v8::internal::Handle<From> obj) {
	DCHECK(obj.is_null() \|\|
	(obj->IsSmi() \|\|
	!obj->IsTheHole(i::HeapObject::cast(*obj)->GetIsolate())));
	return Local<To>(reinterpret_cast<To*>(obj.location()));
	}

	template <class T>
	static inline v8::internal::Handle<v8::internal::Object> OpenPersistent(
	const v8::Persistent<T>& persistent) {
	return v8::internal::Handle<v8::internal::Object>(
	reinterpret_cast<v8::internal::Object**>(persistent.val_));
	}

	template <class T>
	static inline v8::internal::Handle<v8::internal::Object> OpenPersistent(
	v8::Persistent<T>* persistent) {
	return OpenPersistent(*persistent);
	}

	template <class From, class To>
	static inline v8::internal::Handle<To> OpenHandle(v8::Local<From> handle) {
	return OpenHandle(*handle);
	}

	private:
	static void ReportApiFailure(const char* location, const char* message);
	};


	template <class T>
	inline T* ToApi(v8::internal::Handle<v8::internal::Object> obj) {
	return reinterpret_cast<T*>(obj.location());
	}

	template <class T>
	inline v8::Local<T> ToApiHandle(
	v8::internal::Handle<v8::internal::Object> obj) {
	return Utils::Convert<v8::internal::Object, T>(obj);
	}


	template <class T>
	inline bool ToLocal(v8::internal::MaybeHandle<v8::internal::Object> maybe,
	Local<T>* local) {
	v8::internal::Handle<v8::internal::Object> handle;
	if (maybe.ToHandle(&handle)) {
	*local = Utils::Convert<v8::internal::Object, T>(handle);
	return true;
	}
	return false;
	}


	// Implementations of ToLocal

	#define MAKE_TO_LOCAL(Name, From, To) \
	Local<v8::To> Utils::Name(v8::internal::Handle<v8::internal::From> obj) { \
	return Convert<v8::internal::From, v8::To>(obj); \
	}


	#define MAKE_TO_LOCAL_TYPED_ARRAY(Type, typeName, TYPE, ctype, size) \
	Local<v8::Type##Array> Utils::ToLocal##Type##Array( \
	v8::internal::Handle<v8::internal::JSTypedArray> obj) { \
	DCHECK(obj->type() == v8::internal::kExternal##Type##Array); \
	return Convert<v8::internal::JSTypedArray, v8::Type##Array>(obj); \
	}


	MAKE_TO_LOCAL(ToLocal, Context, Context)
	MAKE_TO_LOCAL(ToLocal, Object, Value)
	MAKE_TO_LOCAL(ToLocal, Name, Name)
	MAKE_TO_LOCAL(ToLocal, String, String)
	MAKE_TO_LOCAL(ToLocal, Symbol, Symbol)
	MAKE_TO_LOCAL(ToLocal, JSRegExp, RegExp)
	MAKE_TO_LOCAL(ToLocal, JSReceiver, Object)
	MAKE_TO_LOCAL(ToLocal, JSObject, Object)
	MAKE_TO_LOCAL(ToLocal, JSArray, Array)
	MAKE_TO_LOCAL(ToLocal, JSMap, Map)
	MAKE_TO_LOCAL(ToLocal, JSSet, Set)
	MAKE_TO_LOCAL(ToLocal, JSProxy, Proxy)
	MAKE_TO_LOCAL(ToLocal, JSArrayBuffer, ArrayBuffer)
	MAKE_TO_LOCAL(ToLocal, JSArrayBufferView, ArrayBufferView)
	MAKE_TO_LOCAL(ToLocal, JSDataView, DataView)
	MAKE_TO_LOCAL(ToLocal, JSTypedArray, TypedArray)
	MAKE_TO_LOCAL(ToLocalShared, JSArrayBuffer, SharedArrayBuffer)

	TYPED_ARRAYS(MAKE_TO_LOCAL_TYPED_ARRAY)

	MAKE_TO_LOCAL(ToLocal, FunctionTemplateInfo, FunctionTemplate)
	MAKE_TO_LOCAL(ToLocal, ObjectTemplateInfo, ObjectTemplate)
	MAKE_TO_LOCAL(SignatureToLocal, FunctionTemplateInfo, Signature)
	MAKE_TO_LOCAL(AccessorSignatureToLocal, FunctionTemplateInfo, AccessorSignature)
	MAKE_TO_LOCAL(MessageToLocal, Object, Message)
	MAKE_TO_LOCAL(PromiseToLocal, JSObject, Promise)
	MAKE_TO_LOCAL(StackTraceToLocal, JSArray, StackTrace)
	MAKE_TO_LOCAL(StackFrameToLocal, JSObject, StackFrame)
	MAKE_TO_LOCAL(NumberToLocal, Object, Number)
	MAKE_TO_LOCAL(IntegerToLocal, Object, Integer)
	MAKE_TO_LOCAL(Uint32ToLocal, Object, Uint32)
	MAKE_TO_LOCAL(ExternalToLocal, JSObject, External)
	MAKE_TO_LOCAL(NativeWeakMapToLocal, JSWeakMap, NativeWeakMap)
	MAKE_TO_LOCAL(CallableToLocal, JSReceiver, Function)

	#undef MAKE_TO_LOCAL_TYPED_ARRAY
	#undef MAKE_TO_LOCAL


	// Implementations of OpenHandle

	#define MAKE_OPEN_HANDLE(From, To) \
	v8::internal::Handle<v8::internal::To> Utils::OpenHandle( \
	const v8::From* that, bool allow_empty_handle) { \
	DCHECK(allow_empty_handle \|\| that != NULL); \
	DCHECK(that == NULL \|\| \
	(reinterpret_cast<v8::internal::Object const*>(that))->Is##To()); \
	return v8::internal::Handle<v8::internal::To>( \
	reinterpret_cast<v8::internal::To*>(const_cast<v8::From>(that))); \
	}

	OPEN_HANDLE_LIST(MAKE_OPEN_HANDLE)

	#undef MAKE_OPEN_HANDLE
	#undef OPEN_HANDLE_LIST


	namespace internal {


	class DeferredHandles {
	public:
	~DeferredHandles();

	private:
	DeferredHandles(Object** first_block_limit, Isolate* isolate)
	: next_(NULL),
	previous_(NULL),
	first_block_limit_(first_block_limit),
	isolate_(isolate) {
	isolate->LinkDeferredHandles(this);
	}

	void Iterate(ObjectVisitor* v);

	List<Object**> blocks_;
	DeferredHandles* next_;
	DeferredHandles* previous_;
	Object** first_block_limit_;
	Isolate* isolate_;

	friend class HandleScopeImplementer;
	friend class Isolate;
	};


	// This class is here in order to be able to declare it a friend of
	// HandleScope. Moving these methods to be members of HandleScope would be
	// neat in some ways, but it would expose internal implementation details in
	// our public header file, which is undesirable.
	//
	// An isolate has a single instance of this class to hold the current thread's
	// data. In multithreaded V8 programs this data is copied in and out of storage
	// so that the currently executing thread always has its own copy of this
	// data.
	class HandleScopeImplementer {
	public:
	explicit HandleScopeImplementer(Isolate* isolate)
	: isolate_(isolate),
	blocks_(0),
	entered_contexts_(0),
	saved_contexts_(0),
	microtask_context_(nullptr),
	spare_(NULL),
	call_depth_(0),
	microtasks_depth_(0),
	microtasks_suppressions_(0),
	#ifdef DEBUG
	debug_microtasks_depth_(0),
	#endif
	microtasks_policy_(v8::MicrotasksPolicy::kAuto),
	last_handle_before_deferred_block_(NULL) { }

	~HandleScopeImplementer() {
	DeleteArray(spare_);
	}

	// Threading support for handle data.
	static int ArchiveSpacePerThread();
	char* RestoreThread(char* from);
	char* ArchiveThread(char* to);
	void FreeThreadResources();

	// Garbage collection support.
	void Iterate(v8::internal::ObjectVisitor* v);
	static char* Iterate(v8::internal::ObjectVisitor* v, char* data);


	inline internal::Object** GetSpareOrNewBlock();
	inline void DeleteExtensions(internal::Object** prev_limit);

	// Call depth represents nested v8 api calls.
	inline void IncrementCallDepth() {call_depth_++;}
	inline void DecrementCallDepth() {call_depth_--;}
	inline bool CallDepthIsZero() { return call_depth_ == 0; }

	// Microtasks scope depth represents nested scopes controlling microtasks
	// invocation, which happens when depth reaches zero.
	inline void IncrementMicrotasksScopeDepth() {microtasks_depth_++;}
	inline void DecrementMicrotasksScopeDepth() {microtasks_depth_--;}
	inline int GetMicrotasksScopeDepth() { return microtasks_depth_; }

	// Possibly nested microtasks suppression scopes prevent microtasks
	// from running.
	inline void IncrementMicrotasksSuppressions() {microtasks_suppressions_++;}
	inline void DecrementMicrotasksSuppressions() {microtasks_suppressions_--;}
	inline bool HasMicrotasksSuppressions() { return !!microtasks_suppressions_; }

	#ifdef DEBUG
	// In debug we check that calls not intended to invoke microtasks are
	// still correctly wrapped with microtask scopes.
	inline void IncrementDebugMicrotasksScopeDepth() {debug_microtasks_depth_++;}
	inline void DecrementDebugMicrotasksScopeDepth() {debug_microtasks_depth_--;}
	inline bool DebugMicrotasksScopeDepthIsZero() {
	return debug_microtasks_depth_ == 0;
	}
	#endif

	inline void set_microtasks_policy(v8::MicrotasksPolicy policy);
	inline v8::MicrotasksPolicy microtasks_policy() const;

	inline void EnterContext(Handle<Context> context);
	inline void LeaveContext();
	inline bool LastEnteredContextWas(Handle<Context> context);

	// Returns the last entered context or an empty handle if no
	// contexts have been entered.
	inline Handle<Context> LastEnteredContext();

	inline void EnterMicrotaskContext(Handle<Context> context);
	inline void LeaveMicrotaskContext();
	inline Handle<Context> MicrotaskContext();

	inline void SaveContext(Context* context);
	inline Context* RestoreContext();
	inline bool HasSavedContexts();

	inline List<internal::Object*> blocks() { return &blocks_; }
	Isolate* isolate() const { return isolate_; }

	void ReturnBlock(Object** block) {
	DCHECK(block != NULL);
	if (spare_ != NULL) DeleteArray(spare_);
	spare_ = block;
	}

	private:
	void ResetAfterArchive() {
	blocks_.Initialize(0);
	entered_contexts_.Initialize(0);
	saved_contexts_.Initialize(0);
	microtask_context_ = nullptr;
	spare_ = NULL;
	last_handle_before_deferred_block_ = NULL;
	call_depth_ = 0;
	}

	void Free() {
	DCHECK(blocks_.length() == 0);
	DCHECK(entered_contexts_.length() == 0);
	DCHECK(saved_contexts_.length() == 0);
	DCHECK(!microtask_context_);
	blocks_.Free();
	entered_contexts_.Free();
	saved_contexts_.Free();
	if (spare_ != NULL) {
	DeleteArray(spare_);
	spare_ = NULL;
	}
	DCHECK(call_depth_ == 0);
	}

	void BeginDeferredScope();
	DeferredHandles* Detach(Object** prev_limit);

	Isolate* isolate_;
	List<internal::Object**> blocks_;
	// Used as a stack to keep track of entered contexts.
	List<Context*> entered_contexts_;
	// Used as a stack to keep track of saved contexts.
	List<Context*> saved_contexts_;
	Context* microtask_context_;
	Object** spare_;
	int call_depth_;
	int microtasks_depth_;
	int microtasks_suppressions_;
	#ifdef DEBUG
	int debug_microtasks_depth_;
	#endif
	v8::MicrotasksPolicy microtasks_policy_;
	Object** last_handle_before_deferred_block_;
	// This is only used for threading support.
	HandleScopeData handle_scope_data_;

	void IterateThis(ObjectVisitor* v);
	char* RestoreThreadHelper(char* from);
	char* ArchiveThreadHelper(char* to);

	friend class DeferredHandles;
	friend class DeferredHandleScope;

	DISALLOW_COPY_AND_ASSIGN(HandleScopeImplementer);
	};


	const int kHandleBlockSize = v8::internal::KB - 2; // fit in one page


	void HandleScopeImplementer::set_microtasks_policy(
	v8::MicrotasksPolicy policy) {
	microtasks_policy_ = policy;
	}


	v8::MicrotasksPolicy HandleScopeImplementer::microtasks_policy() const {
	return microtasks_policy_;
	}


	void HandleScopeImplementer::SaveContext(Context* context) {
	saved_contexts_.Add(context);
	}


	Context* HandleScopeImplementer::RestoreContext() {
	return saved_contexts_.RemoveLast();
	}


	bool HandleScopeImplementer::HasSavedContexts() {
	return !saved_contexts_.is_empty();
	}


	void HandleScopeImplementer::EnterContext(Handle<Context> context) {
	entered_contexts_.Add(*context);
	}


	void HandleScopeImplementer::LeaveContext() {
	entered_contexts_.RemoveLast();
	}


	bool HandleScopeImplementer::LastEnteredContextWas(Handle<Context> context) {
	return !entered_contexts_.is_empty() && entered_contexts_.last() == *context;
	}


	Handle<Context> HandleScopeImplementer::LastEnteredContext() {
	if (entered_contexts_.is_empty()) return Handle<Context>::null();
	return Handle<Context>(entered_contexts_.last());
	}

	void HandleScopeImplementer::EnterMicrotaskContext(Handle<Context> context) {
	DCHECK(!microtask_context_);
	microtask_context_ = *context;
	}

	void HandleScopeImplementer::LeaveMicrotaskContext() {
	DCHECK(microtask_context_);
	microtask_context_ = nullptr;
	}

	Handle<Context> HandleScopeImplementer::MicrotaskContext() {
	if (microtask_context_) return Handle<Context>(microtask_context_);
	return Handle<Context>::null();
	}

	// If there's a spare block, use it for growing the current scope.
	internal::Object** HandleScopeImplementer::GetSpareOrNewBlock() {
	internal::Object** block = (spare_ != NULL) ?
	spare_ :
	NewArray<internal::Object*>(kHandleBlockSize);
	spare_ = NULL;
	return block;
	}


	void HandleScopeImplementer::DeleteExtensions(internal::Object** prev_limit) {
	while (!blocks_.is_empty()) {
	internal::Object** block_start = blocks_.last();
	internal::Object** block_limit = block_start + kHandleBlockSize;

	// SealHandleScope may make the prev_limit to point inside the block.
	if (block_start <= prev_limit && prev_limit <= block_limit) {
	#ifdef ENABLE_HANDLE_ZAPPING
	internal::HandleScope::ZapRange(prev_limit, block_limit);
	#endif
	break;
	}

	blocks_.RemoveLast();
	#ifdef ENABLE_HANDLE_ZAPPING
	internal::HandleScope::ZapRange(block_start, block_limit);
	#endif
	if (spare_ != NULL) {
	DeleteArray(spare_);
	}
	spare_ = block_start;
	}
	DCHECK((blocks_.is_empty() && prev_limit == NULL) \|\|
	(!blocks_.is_empty() && prev_limit != NULL));
	}


	// Interceptor functions called from generated inline caches to notify
	// CPU profiler that external callbacks are invoked.
	void InvokeAccessorGetterCallback(
	v8::Local<v8::Name> property,
	const v8::PropertyCallbackInfo<v8::Value>& info,
	v8::AccessorNameGetterCallback getter);

	void InvokeFunctionCallback(const v8::FunctionCallbackInfo<v8::Value>& info,
	v8::FunctionCallback callback);

	class Testing {
	public:
	static v8::Testing::StressType stress_type() { return stress_type_; }
	static void set_stress_type(v8::Testing::StressType stress_type) {
	stress_type_ = stress_type;
	}

	private:
	static v8::Testing::StressType stress_type_;
	};

	} // namespace internal
	} // namespace v8

	#endif // V8_API_H_