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

 // Copyright (c) 2011, 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 RUNTIME_VM_DART_API_IMPL_H_
 #define RUNTIME_VM_DART_API_IMPL_H_

 #include <memory>

 #include "vm/allocation.h"
 #include "vm/heap/safepoint.h"
 #include "vm/native_arguments.h"
 #include "vm/object.h"
 #include "vm/thread_registry.h"
 #include "vm/timeline.h"

 namespace dart {

 class ApiLocalScope;
 class ApiState;
 class FinalizablePersistentHandle;
 class LocalHandle;
 class PersistentHandle;
 class ReusableObjectHandleScope;
 class ThreadRegistry;

 const char* CanonicalFunction(const char* func);

 #define CURRENT_FUNC CanonicalFunction(__FUNCTION__)

 // Checks that the current isolate group is not NULL.
 #define CHECK_ISOLATE_GROUP(isolate_group)                                     \
   do {                                                                         \
     if ((isolate_group) == NULL) {                                             \
       FATAL1(                                                                  \
           "%s expects there to be a current isolate group. Did you "           \
           "forget to call Dart_CreateIsolateGroup or Dart_EnterIsolate?",      \
           CURRENT_FUNC);                                                       \
     }                                                                          \
   } while (0)

 // Checks that the current isolate is not NULL.
 #define CHECK_ISOLATE(isolate)                                                 \
   do {                                                                         \
     if ((isolate) == NULL) {                                                   \
       FATAL1(                                                                  \
           "%s expects there to be a current isolate. Did you "                 \
           "forget to call Dart_CreateIsolateGroup or Dart_EnterIsolate?",      \
           CURRENT_FUNC);                                                       \
     }                                                                          \
   } while (0)

 // Checks that the current isolate is NULL.
 #define CHECK_NO_ISOLATE(isolate)                                              \
   do {                                                                         \
     if ((isolate) != NULL) {                                                   \
       FATAL1(                                                                  \
           "%s expects there to be no current isolate. Did you "                \
           "forget to call Dart_ExitIsolate?",                                  \
           CURRENT_FUNC);                                                       \
     }                                                                          \
   } while (0)

 // Checks that the current isolate is not NULL and that it has an API scope.
 #define CHECK_API_SCOPE(thread)                                                \
   do {                                                                         \
     Thread* tmpT = (thread);                                                   \
     Isolate* tmpI = tmpT == NULL ? NULL : tmpT->isolate();                     \
     CHECK_ISOLATE(tmpI);                                                       \
     if (tmpT->api_top_scope() == NULL) {                                       \
       FATAL1(                                                                  \
           "%s expects to find a current scope. Did you forget to call "        \
           "Dart_EnterScope?",                                                  \
           CURRENT_FUNC);                                                       \
     }                                                                          \
   } while (0);

 #define DARTSCOPE(thread)                                                      \
   Thread* T = (thread);                                                        \
   CHECK_API_SCOPE(T);                                                          \
   TransitionNativeToVM transition(T);                                          \
   HANDLESCOPE(T);

 #define RETURN_TYPE_ERROR(zone, dart_handle, type)                             \
   do {                                                                         \
     const Object& tmp =                                                        \
         Object::Handle(zone, Api::UnwrapHandle((dart_handle)));                \
     if (tmp.IsNull()) {                                                        \
       return Api::NewArgumentError("%s expects argument '%s' to be non-null.", \
                                    CURRENT_FUNC, #dart_handle);                \
     } else if (tmp.IsError()) {                                                \
       return dart_handle;                                                      \
     }                                                                          \
     return Api::NewArgumentError("%s expects argument '%s' to be of type %s.", \
                                  CURRENT_FUNC, #dart_handle, #type);           \
   } while (0)

 #define RETURN_NULL_ERROR(parameter)                                           \
   return Api::NewError("%s expects argument '%s' to be non-null.",             \
                        CURRENT_FUNC, #parameter)

 #define CHECK_NULL(parameter)                                                  \
   if (parameter == NULL) {                                                     \
     RETURN_NULL_ERROR(parameter);                                              \
   }

 #define CHECK_LENGTH(length, max_elements)                                     \
   do {                                                                         \
     intptr_t len = (length);                                                   \
     intptr_t max = (max_elements);                                             \
     if (len < 0 || len > max) {                                                \
       return Api::NewError(                                                    \
           "%s expects argument '%s' to be in the range [0..%" Pd "].",         \
           CURRENT_FUNC, #length, max);                                         \
     }                                                                          \
   } while (0)

 #ifdef SUPPORT_TIMELINE
 #define API_TIMELINE_DURATION(thread)                                          \
   TimelineBeginEndScope api_tbes(thread, Timeline::GetAPIStream(), CURRENT_FUNC)

 #define API_TIMELINE_BEGIN_END(thread)                                         \
   TimelineBeginEndScope api_tbes(thread, Timeline::GetAPIStream(), CURRENT_FUNC)

 #else
 #define API_TIMELINE_DURATION(thread)                                          \
   do {                                                                         \
   } while (false)
 #define API_TIMELINE_BEGIN_END(thread)                                         \
   do {                                                                         \
   } while (false)
 #endif  // !PRODUCT

 class Api : AllStatic {
  public:
   // Create on the stack to provide a new throw-safe api scope.
   class Scope : public ThreadStackResource {
    public:
     explicit Scope(Thread* thread) : ThreadStackResource(thread) {
       thread->EnterApiScope();
     }
     ~Scope() { thread()->ExitApiScope(); }

    private:
     DISALLOW_COPY_AND_ASSIGN(Scope);
   };

   // Creates a new local handle.
   static Dart_Handle NewHandle(Thread* thread, ObjectPtr raw);

   // Unwraps the raw object from the handle.
   static ObjectPtr UnwrapHandle(Dart_Handle object);

 // Unwraps a raw Type from the handle.  The handle will be null if
 // the object was not of the requested Type.
 #define DECLARE_UNWRAP(Type)                                                   \
   static const Type& Unwrap##Type##Handle(Zone* zone, Dart_Handle object);
   CLASS_LIST_FOR_HANDLES(DECLARE_UNWRAP)
 #undef DECLARE_UNWRAP

   // Unwraps the raw object from the handle using a reused handle.
   static const String& UnwrapStringHandle(
       const ReusableObjectHandleScope& reused,
       Dart_Handle object);
   static const Instance& UnwrapInstanceHandle(
       const ReusableObjectHandleScope& reused,
       Dart_Handle object);

   // Returns an Error handle if isolate is in an inconsistent state
   // or there was an error while finalizing classes.
   // Returns a Success handle when no error condition exists.
   static Dart_Handle CheckAndFinalizePendingClasses(Thread* thread);

   // Casts the internal Isolate* type to the external Dart_Isolate type.
   static Dart_Isolate CastIsolate(Isolate* isolate);

   // Casts the internal IsolateGroup* type to the external Dart_IsolateGroup
   // type.
   static Dart_IsolateGroup CastIsolateGroup(IsolateGroup* isolate);

   // Gets the handle used to designate successful return.
   static Dart_Handle Success() { return Api::True(); }

   // Returns true if the handle holds a Smi.
   static bool IsSmi(Dart_Handle handle) {
     // Important: we do not require current thread to be in VM state because
     // we do not dereference the handle.
     ObjectPtr raw = *(reinterpret_cast<ObjectPtr*>(handle));
     return !raw->IsHeapObject();
   }

   // Returns the value of a Smi.
   static intptr_t SmiValue(Dart_Handle handle) {
     // Important: we do not require current thread to be in VM state because
     // we do not dereference the handle.
     ObjectPtr value = *(reinterpret_cast<ObjectPtr*>(handle));
     return Smi::Value(static_cast<SmiPtr>(value));
   }

   // Returns true if the handle holds a Dart Instance.
   static bool IsInstance(Dart_Handle handle) {
     return !IsInternalOnlyClassId(ClassId(handle));
   }

   // Returns true if the handle is non-dangling.
   static bool IsValid(Dart_Handle handle);

   // Returns true if the handle holds an Error.
   static bool IsError(Dart_Handle handle) {
     return IsErrorClassId(ClassId(handle));
   }

   static intptr_t ClassId(Dart_Handle handle) {
     ObjectPtr raw = UnwrapHandle(handle);
     if (!raw->IsHeapObject()) {
       return kSmiCid;
     }
     return raw->GetClassId();
   }

   // Generates a handle used to designate an error return.
   static Dart_Handle NewError(const char* format, ...) PRINTF_ATTRIBUTE(1, 2);
   static Dart_Handle NewArgumentError(const char* format, ...)
       PRINTF_ATTRIBUTE(1, 2);

   // Gets a handle to Null.
   static Dart_Handle Null() { return null_handle_; }

   // Gets a handle to True.
   static Dart_Handle True() { return true_handle_; }

   // Gets a handle to False.
   static Dart_Handle False() { return false_handle_; }

   // Gets a handle to EmptyString.
   static Dart_Handle EmptyString() { return empty_string_handle_; }

   // Gets the handle which holds the pre-created acquired error object.
   static Dart_Handle NoCallbacksError() { return no_callbacks_error_handle_; }

   // Gets the handle for unwind-is-in-progress error.
   static Dart_Handle UnwindInProgressError() {
     return unwind_in_progress_error_handle_;
   }

   static bool IsProtectedHandle(Dart_Handle object) {
     if (object == NULL) return false;
     return (object == true_handle_) || (object == false_handle_) ||
            (object == null_handle_) || (object == empty_string_handle_) ||
            (object == no_callbacks_error_handle_) ||
            (object == unwind_in_progress_error_handle_);
   }

   // Retrieves the top ApiLocalScope.
   static ApiLocalScope* TopScope(Thread* thread);

   // Performs initialization needed by the API.
   static void Init();

   // Allocates handles for objects in the VM isolate.
   static void InitHandles();

   // Cleanup
   static void Cleanup();

   // Helper function to get the peer value of an external string object.
   static bool StringGetPeerHelper(NativeArguments* args,
                                   int arg_index,
                                   void** peer);

   // Helper function to get the native field from a native receiver argument.
   static bool GetNativeReceiver(NativeArguments* args, intptr_t* value);

   // Helper function to get the boolean value of a Bool native argument.
   static bool GetNativeBooleanArgument(NativeArguments* args,
                                        int arg_index,
                                        bool* value);

   // Helper function to get the integer value of a Integer native argument.
   static bool GetNativeIntegerArgument(NativeArguments* args,
                                        int arg_index,
                                        int64_t* value);

   // Helper function to get the double value of a Double native argument.
   static bool GetNativeDoubleArgument(NativeArguments* args,
                                       int arg_index,
                                       double* value);

   // Helper function to get the native fields of an Instance native argument.
   static bool GetNativeFieldsOfArgument(NativeArguments* args,
                                         int arg_index,
                                         int num_fields,
                                         intptr_t* field_values);

   // Helper function to set the return value of native functions.
   static void SetReturnValue(NativeArguments* args, Dart_Handle retval) {
     args->SetReturnUnsafe(UnwrapHandle(retval));
   }
   static void SetSmiReturnValue(NativeArguments* args, intptr_t retval) {
     args->SetReturnUnsafe(Smi::New(retval));
   }
   static void SetIntegerReturnValue(NativeArguments* args, int64_t retval) {
     args->SetReturnUnsafe(Integer::New(retval));
   }
   static void SetDoubleReturnValue(NativeArguments* args, double retval) {
     args->SetReturnUnsafe(Double::New(retval));
   }
   static void SetWeakHandleReturnValue(NativeArguments* args,
                                        Dart_WeakPersistentHandle retval);

   static StringPtr GetEnvironmentValue(Thread* thread, const String& name);

   static bool IsFfiEnabled() { return FLAG_enable_ffi; }

  private:
   static Dart_Handle InitNewHandle(Thread* thread, ObjectPtr raw);

   static StringPtr CallEnvironmentCallback(Thread* thread, const String& name);

   // Thread local key used by the API. Currently holds the current
   // ApiNativeScope if any.
   static ThreadLocalKey api_native_key_;
   static Dart_Handle true_handle_;
   static Dart_Handle false_handle_;
   static Dart_Handle null_handle_;
   static Dart_Handle empty_string_handle_;
   static Dart_Handle no_callbacks_error_handle_;
   static Dart_Handle unwind_in_progress_error_handle_;

   friend class ApiNativeScope;
 };

 // Start a scope in which no Dart API call backs are allowed.
 #define START_NO_CALLBACK_SCOPE(thread) thread->IncrementNoCallbackScopeDepth()

 // End a no Dart API call backs Scope.
 #define END_NO_CALLBACK_SCOPE(thread)                                          \
   do {                                                                         \
     thread->DecrementNoCallbackScopeDepth();                                   \
     if (thread->no_callback_scope_depth() == 0) {                              \
       thread->heap()->CheckExternalGC(thread);                                 \
     }                                                                          \
   } while (false)

 #define CHECK_CALLBACK_STATE(thread)                                           \
   if (thread->no_callback_scope_depth() != 0) {                                \
     return reinterpret_cast<Dart_Handle>(Api::NoCallbacksError());             \
   }                                                                            \
   if (thread->is_unwind_in_progress()) {                                       \
     return reinterpret_cast<Dart_Handle>(Api::UnwindInProgressError());        \
   }

 #define ASSERT_CALLBACK_STATE(thread)                                          \
   ASSERT(thread->no_callback_scope_depth() == 0)

 class IsolateGroupSource;

 // Creates a new isolate from [source] (which should come from an existing
 // isolate).
 Isolate* CreateWithinExistingIsolateGroup(IsolateGroup* group,
                                           const char* name,
                                           char** error);

 }  // namespace dart.

 #endif  // RUNTIME_VM_DART_API_IMPL_H_
	// Copyright (c) 2011, 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 RUNTIME_VM_DART_API_IMPL_H_
	#define RUNTIME_VM_DART_API_IMPL_H_

	#include <memory>

	#include "vm/allocation.h"
	#include "vm/heap/safepoint.h"
	#include "vm/native_arguments.h"
	#include "vm/object.h"
	#include "vm/thread_registry.h"
	#include "vm/timeline.h"

	namespace dart {

	class ApiLocalScope;
	class ApiState;
	class FinalizablePersistentHandle;
	class LocalHandle;
	class PersistentHandle;
	class ReusableObjectHandleScope;
	class ThreadRegistry;

	const char* CanonicalFunction(const char* func);

	#define CURRENT_FUNC CanonicalFunction(__FUNCTION__)

	// Checks that the current isolate group is not NULL.
	#define CHECK_ISOLATE_GROUP(isolate_group) \
	do { \
	if ((isolate_group) == NULL) { \
	FATAL1( \
	"%s expects there to be a current isolate group. Did you " \
	"forget to call Dart_CreateIsolateGroup or Dart_EnterIsolate?", \
	CURRENT_FUNC); \
	} \
	} while (0)

	// Checks that the current isolate is not NULL.
	#define CHECK_ISOLATE(isolate) \
	do { \
	if ((isolate) == NULL) { \
	FATAL1( \
	"%s expects there to be a current isolate. Did you " \
	"forget to call Dart_CreateIsolateGroup or Dart_EnterIsolate?", \
	CURRENT_FUNC); \
	} \
	} while (0)

	// Checks that the current isolate is NULL.
	#define CHECK_NO_ISOLATE(isolate) \
	do { \
	if ((isolate) != NULL) { \
	FATAL1( \
	"%s expects there to be no current isolate. Did you " \
	"forget to call Dart_ExitIsolate?", \
	CURRENT_FUNC); \
	} \
	} while (0)

	// Checks that the current isolate is not NULL and that it has an API scope.
	#define CHECK_API_SCOPE(thread) \
	do { \
	Thread* tmpT = (thread); \
	Isolate* tmpI = tmpT == NULL ? NULL : tmpT->isolate(); \
	CHECK_ISOLATE(tmpI); \
	if (tmpT->api_top_scope() == NULL) { \
	FATAL1( \
	"%s expects to find a current scope. Did you forget to call " \
	"Dart_EnterScope?", \
	CURRENT_FUNC); \
	} \
	} while (0);

	#define DARTSCOPE(thread) \
	Thread* T = (thread); \
	CHECK_API_SCOPE(T); \
	TransitionNativeToVM transition(T); \
	HANDLESCOPE(T);

	#define RETURN_TYPE_ERROR(zone, dart_handle, type) \
	do { \
	const Object& tmp = \
	Object::Handle(zone, Api::UnwrapHandle((dart_handle))); \
	if (tmp.IsNull()) { \
	return Api::NewArgumentError("%s expects argument '%s' to be non-null.", \
	CURRENT_FUNC, #dart_handle); \
	} else if (tmp.IsError()) { \
	return dart_handle; \
	} \
	return Api::NewArgumentError("%s expects argument '%s' to be of type %s.", \
	CURRENT_FUNC, #dart_handle, #type); \
	} while (0)

	#define RETURN_NULL_ERROR(parameter) \
	return Api::NewError("%s expects argument '%s' to be non-null.", \
	CURRENT_FUNC, #parameter)

	#define CHECK_NULL(parameter) \
	if (parameter == NULL) { \
	RETURN_NULL_ERROR(parameter); \
	}

	#define CHECK_LENGTH(length, max_elements) \
	do { \
	intptr_t len = (length); \
	intptr_t max = (max_elements); \
	if (len < 0 \|\| len > max) { \
	return Api::NewError( \
	"%s expects argument '%s' to be in the range [0..%" Pd "].", \
	CURRENT_FUNC, #length, max); \
	} \
	} while (0)

	#ifdef SUPPORT_TIMELINE
	#define API_TIMELINE_DURATION(thread) \
	TimelineBeginEndScope api_tbes(thread, Timeline::GetAPIStream(), CURRENT_FUNC)

	#define API_TIMELINE_BEGIN_END(thread) \
	TimelineBeginEndScope api_tbes(thread, Timeline::GetAPIStream(), CURRENT_FUNC)

	#else
	#define API_TIMELINE_DURATION(thread) \
	do { \
	} while (false)
	#define API_TIMELINE_BEGIN_END(thread) \
	do { \
	} while (false)
	#endif // !PRODUCT

	class Api : AllStatic {
	public:
	// Create on the stack to provide a new throw-safe api scope.
	class Scope : public ThreadStackResource {
	public:
	explicit Scope(Thread* thread) : ThreadStackResource(thread) {
	thread->EnterApiScope();
	}
	~Scope() { thread()->ExitApiScope(); }

	private:
	DISALLOW_COPY_AND_ASSIGN(Scope);
	};

	// Creates a new local handle.
	static Dart_Handle NewHandle(Thread* thread, ObjectPtr raw);

	// Unwraps the raw object from the handle.
	static ObjectPtr UnwrapHandle(Dart_Handle object);

	// Unwraps a raw Type from the handle. The handle will be null if
	// the object was not of the requested Type.
	#define DECLARE_UNWRAP(Type) \
	static const Type& Unwrap##Type##Handle(Zone* zone, Dart_Handle object);
	CLASS_LIST_FOR_HANDLES(DECLARE_UNWRAP)
	#undef DECLARE_UNWRAP

	// Unwraps the raw object from the handle using a reused handle.
	static const String& UnwrapStringHandle(
	const ReusableObjectHandleScope& reused,
	Dart_Handle object);
	static const Instance& UnwrapInstanceHandle(
	const ReusableObjectHandleScope& reused,
	Dart_Handle object);

	// Returns an Error handle if isolate is in an inconsistent state
	// or there was an error while finalizing classes.
	// Returns a Success handle when no error condition exists.
	static Dart_Handle CheckAndFinalizePendingClasses(Thread* thread);

	// Casts the internal Isolate* type to the external Dart_Isolate type.
	static Dart_Isolate CastIsolate(Isolate* isolate);

	// Casts the internal IsolateGroup* type to the external Dart_IsolateGroup
	// type.
	static Dart_IsolateGroup CastIsolateGroup(IsolateGroup* isolate);

	// Gets the handle used to designate successful return.
	static Dart_Handle Success() { return Api::True(); }

	// Returns true if the handle holds a Smi.
	static bool IsSmi(Dart_Handle handle) {
	// Important: we do not require current thread to be in VM state because
	// we do not dereference the handle.
	ObjectPtr raw = (reinterpret_cast<ObjectPtr>(handle));
	return !raw->IsHeapObject();
	}

	// Returns the value of a Smi.
	static intptr_t SmiValue(Dart_Handle handle) {
	// Important: we do not require current thread to be in VM state because
	// we do not dereference the handle.
	ObjectPtr value = (reinterpret_cast<ObjectPtr>(handle));
	return Smi::Value(static_cast<SmiPtr>(value));
	}

	// Returns true if the handle holds a Dart Instance.
	static bool IsInstance(Dart_Handle handle) {
	return !IsInternalOnlyClassId(ClassId(handle));
	}

	// Returns true if the handle is non-dangling.
	static bool IsValid(Dart_Handle handle);

	// Returns true if the handle holds an Error.
	static bool IsError(Dart_Handle handle) {
	return IsErrorClassId(ClassId(handle));
	}

	static intptr_t ClassId(Dart_Handle handle) {
	ObjectPtr raw = UnwrapHandle(handle);
	if (!raw->IsHeapObject()) {
	return kSmiCid;
	}
	return raw->GetClassId();
	}

	// Generates a handle used to designate an error return.
	static Dart_Handle NewError(const char* format, ...) PRINTF_ATTRIBUTE(1, 2);
	static Dart_Handle NewArgumentError(const char* format, ...)
	PRINTF_ATTRIBUTE(1, 2);

	// Gets a handle to Null.
	static Dart_Handle Null() { return null_handle_; }

	// Gets a handle to True.
	static Dart_Handle True() { return true_handle_; }

	// Gets a handle to False.
	static Dart_Handle False() { return false_handle_; }

	// Gets a handle to EmptyString.
	static Dart_Handle EmptyString() { return empty_string_handle_; }

	// Gets the handle which holds the pre-created acquired error object.
	static Dart_Handle NoCallbacksError() { return no_callbacks_error_handle_; }

	// Gets the handle for unwind-is-in-progress error.
	static Dart_Handle UnwindInProgressError() {
	return unwind_in_progress_error_handle_;
	}

	static bool IsProtectedHandle(Dart_Handle object) {
	if (object == NULL) return false;
	return (object == true_handle_) \|\| (object == false_handle_) \|\|
	(object == null_handle_) \|\| (object == empty_string_handle_) \|\|
	(object == no_callbacks_error_handle_) \|\|
	(object == unwind_in_progress_error_handle_);
	}

	// Retrieves the top ApiLocalScope.
	static ApiLocalScope* TopScope(Thread* thread);

	// Performs initialization needed by the API.
	static void Init();

	// Allocates handles for objects in the VM isolate.
	static void InitHandles();

	// Cleanup
	static void Cleanup();

	// Helper function to get the peer value of an external string object.
	static bool StringGetPeerHelper(NativeArguments* args,
	int arg_index,
	void** peer);

	// Helper function to get the native field from a native receiver argument.
	static bool GetNativeReceiver(NativeArguments* args, intptr_t* value);

	// Helper function to get the boolean value of a Bool native argument.
	static bool GetNativeBooleanArgument(NativeArguments* args,
	int arg_index,
	bool* value);

	// Helper function to get the integer value of a Integer native argument.
	static bool GetNativeIntegerArgument(NativeArguments* args,
	int arg_index,
	int64_t* value);

	// Helper function to get the double value of a Double native argument.
	static bool GetNativeDoubleArgument(NativeArguments* args,
	int arg_index,
	double* value);

	// Helper function to get the native fields of an Instance native argument.
	static bool GetNativeFieldsOfArgument(NativeArguments* args,
	int arg_index,
	int num_fields,
	intptr_t* field_values);

	// Helper function to set the return value of native functions.
	static void SetReturnValue(NativeArguments* args, Dart_Handle retval) {
	args->SetReturnUnsafe(UnwrapHandle(retval));
	}
	static void SetSmiReturnValue(NativeArguments* args, intptr_t retval) {
	args->SetReturnUnsafe(Smi::New(retval));
	}
	static void SetIntegerReturnValue(NativeArguments* args, int64_t retval) {
	args->SetReturnUnsafe(Integer::New(retval));
	}
	static void SetDoubleReturnValue(NativeArguments* args, double retval) {
	args->SetReturnUnsafe(Double::New(retval));
	}
	static void SetWeakHandleReturnValue(NativeArguments* args,
	Dart_WeakPersistentHandle retval);

	static StringPtr GetEnvironmentValue(Thread* thread, const String& name);

	static bool IsFfiEnabled() { return FLAG_enable_ffi; }

	private:
	static Dart_Handle InitNewHandle(Thread* thread, ObjectPtr raw);

	static StringPtr CallEnvironmentCallback(Thread* thread, const String& name);

	// Thread local key used by the API. Currently holds the current
	// ApiNativeScope if any.
	static ThreadLocalKey api_native_key_;
	static Dart_Handle true_handle_;
	static Dart_Handle false_handle_;
	static Dart_Handle null_handle_;
	static Dart_Handle empty_string_handle_;
	static Dart_Handle no_callbacks_error_handle_;
	static Dart_Handle unwind_in_progress_error_handle_;

	friend class ApiNativeScope;
	};

	// Start a scope in which no Dart API call backs are allowed.
	#define START_NO_CALLBACK_SCOPE(thread) thread->IncrementNoCallbackScopeDepth()

	// End a no Dart API call backs Scope.
	#define END_NO_CALLBACK_SCOPE(thread) \
	do { \
	thread->DecrementNoCallbackScopeDepth(); \
	if (thread->no_callback_scope_depth() == 0) { \
	thread->heap()->CheckExternalGC(thread); \
	} \
	} while (false)

	#define CHECK_CALLBACK_STATE(thread) \
	if (thread->no_callback_scope_depth() != 0) { \
	return reinterpret_cast<Dart_Handle>(Api::NoCallbacksError()); \
	} \
	if (thread->is_unwind_in_progress()) { \
	return reinterpret_cast<Dart_Handle>(Api::UnwindInProgressError()); \
	}

	#define ASSERT_CALLBACK_STATE(thread) \
	ASSERT(thread->no_callback_scope_depth() == 0)

	class IsolateGroupSource;

	// Creates a new isolate from [source] (which should come from an existing
	// isolate).
	Isolate* CreateWithinExistingIsolateGroup(IsolateGroup* group,
	const char* name,
	char** error);

	} // namespace dart.

	#endif // RUNTIME_VM_DART_API_IMPL_H_