runtime/mirror/object-inl.h - platform/art - Git at Google

 /*
  * Copyright (C) 2011 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 #ifndef ART_RUNTIME_MIRROR_OBJECT_INL_H_
 #define ART_RUNTIME_MIRROR_OBJECT_INL_H_

 #include "object.h"

 #include "abstract_method.h"
 #include "atomic.h"
 #include "array-inl.h"
 #include "field.h"
 #include "class.h"
 #include "monitor.h"
 #include "runtime.h"
 #include "throwable.h"

 namespace art {
 namespace mirror {

 inline Class* Object::GetClass() const {
   return GetFieldObject<Class*>(OFFSET_OF_OBJECT_MEMBER(Object, klass_), false);
 }

 inline void Object::SetClass(Class* new_klass) {
   // new_klass may be NULL prior to class linker initialization
   // We don't mark the card since the class is guaranteed to be referenced from another location.
   // Proxy classes are held live by the class loader, and other classes are roots of the class
   // linker.
   SetFieldPtr(OFFSET_OF_OBJECT_MEMBER(Object, klass_), new_klass, false, false);
 }

 inline uint32_t Object::GetThinLockId() {
   return Monitor::GetThinLockId(monitor_);
 }

 inline void Object::MonitorEnter(Thread* self) {
   Monitor::MonitorEnter(self, this);
 }

 inline bool Object::MonitorExit(Thread* self) {
   return Monitor::MonitorExit(self, this);
 }

 inline void Object::Notify(Thread* self) {
   Monitor::Notify(self, this);
 }

 inline void Object::NotifyAll(Thread* self) {
   Monitor::NotifyAll(self, this);
 }

 inline void Object::Wait(Thread* self) {
   Monitor::Wait(self, this, 0, 0, true, kWaiting);
 }

 inline void Object::Wait(Thread* self, int64_t ms, int32_t ns) {
   Monitor::Wait(self, this, ms, ns, true, kTimedWaiting);
 }

 inline bool Object::InstanceOf(const Class* klass) const {
   DCHECK(klass != NULL);
   DCHECK(GetClass() != NULL);
   return klass->IsAssignableFrom(GetClass());
 }

 inline bool Object::IsClass() const {
   Class* java_lang_Class = GetClass()->GetClass();
   return GetClass() == java_lang_Class;
 }

 inline Class* Object::AsClass() {
   DCHECK(IsClass());
   return down_cast<Class*>(this);
 }

 inline const Class* Object::AsClass() const {
   DCHECK(IsClass());
   return down_cast<const Class*>(this);
 }

 inline bool Object::IsObjectArray() const {
   return IsArrayInstance() && !GetClass()->GetComponentType()->IsPrimitive();
 }

 template<class T>
 inline ObjectArray<T>* Object::AsObjectArray() {
   DCHECK(IsObjectArray());
   return down_cast<ObjectArray<T>*>(this);
 }

 template<class T>
 inline const ObjectArray<T>* Object::AsObjectArray() const {
   DCHECK(IsObjectArray());
   return down_cast<const ObjectArray<T>*>(this);
 }

 inline bool Object::IsArrayInstance() const {
   return GetClass()->IsArrayClass();
 }

 inline bool Object::IsField() const {
   return GetClass()->IsFieldClass();
 }

 inline Field* Object::AsField() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_) {
   DCHECK(IsField());
   return down_cast<Field*>(this);
 }

 inline const Field* Object::AsField() const SHARED_LOCKS_REQUIRED(Locks::mutator_lock_) {
   DCHECK(IsField());
   return down_cast<const Field*>(this);
 }

 inline bool Object::IsMethod() const {
   return GetClass()->IsMethodClass();
 }

 inline AbstractMethod* Object::AsMethod() {
   DCHECK(IsMethod());
   return down_cast<AbstractMethod*>(this);
 }

 inline const AbstractMethod* Object::AsMethod() const {
   DCHECK(IsMethod());
   return down_cast<const AbstractMethod*>(this);
 }

 inline bool Object::IsReferenceInstance() const {
   return GetClass()->IsReferenceClass();
 }

 inline Array* Object::AsArray() {
   DCHECK(IsArrayInstance());
   return down_cast<Array*>(this);
 }

 inline const Array* Object::AsArray() const {
   DCHECK(IsArrayInstance());
   return down_cast<const Array*>(this);
 }

 inline BooleanArray* Object::AsBooleanArray() {
   DCHECK(GetClass()->IsArrayClass());
   DCHECK(GetClass()->GetComponentType()->IsPrimitiveBoolean());
   return down_cast<BooleanArray*>(this);
 }

 inline ByteArray* Object::AsByteArray() {
   DCHECK(GetClass()->IsArrayClass());
   DCHECK(GetClass()->GetComponentType()->IsPrimitiveByte());
   return down_cast<ByteArray*>(this);
 }

 inline CharArray* Object::AsCharArray() {
   DCHECK(GetClass()->IsArrayClass());
   DCHECK(GetClass()->GetComponentType()->IsPrimitiveChar());
   return down_cast<CharArray*>(this);
 }

 inline ShortArray* Object::AsShortArray() {
   DCHECK(GetClass()->IsArrayClass());
   DCHECK(GetClass()->GetComponentType()->IsPrimitiveShort());
   return down_cast<ShortArray*>(this);
 }

 inline IntArray* Object::AsIntArray() {
   DCHECK(GetClass()->IsArrayClass());
   DCHECK(GetClass()->GetComponentType()->IsPrimitiveInt() ||
          GetClass()->GetComponentType()->IsPrimitiveFloat());
   return down_cast<IntArray*>(this);
 }

 inline LongArray* Object::AsLongArray() {
   DCHECK(GetClass()->IsArrayClass());
   DCHECK(GetClass()->GetComponentType()->IsPrimitiveLong() ||
          GetClass()->GetComponentType()->IsPrimitiveDouble());
   return down_cast<LongArray*>(this);
 }

 inline String* Object::AsString() {
   DCHECK(GetClass()->IsStringClass());
   return down_cast<String*>(this);
 }

 inline Throwable* Object::AsThrowable() {
   DCHECK(GetClass()->IsThrowableClass());
   return down_cast<Throwable*>(this);
 }

 inline bool Object::IsWeakReferenceInstance() const {
   return GetClass()->IsWeakReferenceClass();
 }

 inline bool Object::IsSoftReferenceInstance() const {
   return GetClass()->IsSoftReferenceClass();
 }

 inline bool Object::IsFinalizerReferenceInstance() const {
   return GetClass()->IsFinalizerReferenceClass();
 }

 inline bool Object::IsPhantomReferenceInstance() const {
   return GetClass()->IsPhantomReferenceClass();
 }

 inline size_t Object::SizeOf() const {
   size_t result;
   if (IsArrayInstance()) {
     result = AsArray()->SizeOf();
   } else if (IsClass()) {
     result = AsClass()->SizeOf();
   } else {
     result = GetClass()->GetObjectSize();
   }
   DCHECK(!IsField()  || result == sizeof(Field));
   DCHECK(!IsMethod() || result == sizeof(AbstractMethod));
   return result;
 }

 inline uint64_t Object::GetField64(MemberOffset field_offset, bool is_volatile) const {
   VerifyObject(this);
   const byte* raw_addr = reinterpret_cast<const byte*>(this) + field_offset.Int32Value();
   const int64_t* addr = reinterpret_cast<const int64_t*>(raw_addr);
   if (UNLIKELY(is_volatile)) {
     uint64_t result = QuasiAtomic::Read64(addr);
     ANDROID_MEMBAR_FULL();
     return result;
   } else {
     return *addr;
   }
 }

 inline void Object::SetField64(MemberOffset field_offset, uint64_t new_value, bool is_volatile) {
   VerifyObject(this);
   byte* raw_addr = reinterpret_cast<byte*>(this) + field_offset.Int32Value();
   int64_t* addr = reinterpret_cast<int64_t*>(raw_addr);
   if (UNLIKELY(is_volatile)) {
     ANDROID_MEMBAR_STORE();
     QuasiAtomic::Write64(addr, new_value);
     // Post-store barrier not required due to use of atomic op or mutex.
   } else {
     *addr = new_value;
   }
 }

 inline void Object::WriteBarrierField(const Object* dst, MemberOffset field_offset,
                                       const Object* new_value) {
   Runtime::Current()->GetHeap()->WriteBarrierField(dst, field_offset, new_value);
 }

 inline void Object::VerifyObject(const Object* obj) {
   if (kIsDebugBuild) {
     Runtime::Current()->GetHeap()->VerifyObject(obj);
   }
 }

 }  // namespace mirror
 }  // namespace art

 #endif  // ART_RUNTIME_MIRROR_OBJECT_INL_H_
	/*
	* Copyright (C) 2011 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#ifndef ART_RUNTIME_MIRROR_OBJECT_INL_H_
	#define ART_RUNTIME_MIRROR_OBJECT_INL_H_

	#include "object.h"

	#include "abstract_method.h"
	#include "atomic.h"
	#include "array-inl.h"
	#include "field.h"
	#include "class.h"
	#include "monitor.h"
	#include "runtime.h"
	#include "throwable.h"

	namespace art {
	namespace mirror {

	inline Class* Object::GetClass() const {
	return GetFieldObject<Class*>(OFFSET_OF_OBJECT_MEMBER(Object, klass_), false);
	}

	inline void Object::SetClass(Class* new_klass) {
	// new_klass may be NULL prior to class linker initialization
	// We don't mark the card since the class is guaranteed to be referenced from another location.
	// Proxy classes are held live by the class loader, and other classes are roots of the class
	// linker.
	SetFieldPtr(OFFSET_OF_OBJECT_MEMBER(Object, klass_), new_klass, false, false);
	}

	inline uint32_t Object::GetThinLockId() {
	return Monitor::GetThinLockId(monitor_);
	}

	inline void Object::MonitorEnter(Thread* self) {
	Monitor::MonitorEnter(self, this);
	}

	inline bool Object::MonitorExit(Thread* self) {
	return Monitor::MonitorExit(self, this);
	}

	inline void Object::Notify(Thread* self) {
	Monitor::Notify(self, this);
	}

	inline void Object::NotifyAll(Thread* self) {
	Monitor::NotifyAll(self, this);
	}

	inline void Object::Wait(Thread* self) {
	Monitor::Wait(self, this, 0, 0, true, kWaiting);
	}

	inline void Object::Wait(Thread* self, int64_t ms, int32_t ns) {
	Monitor::Wait(self, this, ms, ns, true, kTimedWaiting);
	}

	inline bool Object::InstanceOf(const Class* klass) const {
	DCHECK(klass != NULL);
	DCHECK(GetClass() != NULL);
	return klass->IsAssignableFrom(GetClass());
	}

	inline bool Object::IsClass() const {
	Class* java_lang_Class = GetClass()->GetClass();
	return GetClass() == java_lang_Class;
	}

	inline Class* Object::AsClass() {
	DCHECK(IsClass());
	return down_cast<Class*>(this);
	}

	inline const Class* Object::AsClass() const {
	DCHECK(IsClass());
	return down_cast<const Class*>(this);
	}

	inline bool Object::IsObjectArray() const {
	return IsArrayInstance() && !GetClass()->GetComponentType()->IsPrimitive();
	}

	template<class T>
	inline ObjectArray<T>* Object::AsObjectArray() {
	DCHECK(IsObjectArray());
	return down_cast<ObjectArray<T>*>(this);
	}

	template<class T>
	inline const ObjectArray<T>* Object::AsObjectArray() const {
	DCHECK(IsObjectArray());
	return down_cast<const ObjectArray<T>*>(this);
	}

	inline bool Object::IsArrayInstance() const {
	return GetClass()->IsArrayClass();
	}

	inline bool Object::IsField() const {
	return GetClass()->IsFieldClass();
	}

	inline Field* Object::AsField() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_) {
	DCHECK(IsField());
	return down_cast<Field*>(this);
	}

	inline const Field* Object::AsField() const SHARED_LOCKS_REQUIRED(Locks::mutator_lock_) {
	DCHECK(IsField());
	return down_cast<const Field*>(this);
	}

	inline bool Object::IsMethod() const {
	return GetClass()->IsMethodClass();
	}

	inline AbstractMethod* Object::AsMethod() {
	DCHECK(IsMethod());
	return down_cast<AbstractMethod*>(this);
	}

	inline const AbstractMethod* Object::AsMethod() const {
	DCHECK(IsMethod());
	return down_cast<const AbstractMethod*>(this);
	}

	inline bool Object::IsReferenceInstance() const {
	return GetClass()->IsReferenceClass();
	}

	inline Array* Object::AsArray() {
	DCHECK(IsArrayInstance());
	return down_cast<Array*>(this);
	}

	inline const Array* Object::AsArray() const {
	DCHECK(IsArrayInstance());
	return down_cast<const Array*>(this);
	}

	inline BooleanArray* Object::AsBooleanArray() {
	DCHECK(GetClass()->IsArrayClass());
	DCHECK(GetClass()->GetComponentType()->IsPrimitiveBoolean());
	return down_cast<BooleanArray*>(this);
	}

	inline ByteArray* Object::AsByteArray() {
	DCHECK(GetClass()->IsArrayClass());
	DCHECK(GetClass()->GetComponentType()->IsPrimitiveByte());
	return down_cast<ByteArray*>(this);
	}

	inline CharArray* Object::AsCharArray() {
	DCHECK(GetClass()->IsArrayClass());
	DCHECK(GetClass()->GetComponentType()->IsPrimitiveChar());
	return down_cast<CharArray*>(this);
	}

	inline ShortArray* Object::AsShortArray() {
	DCHECK(GetClass()->IsArrayClass());
	DCHECK(GetClass()->GetComponentType()->IsPrimitiveShort());
	return down_cast<ShortArray*>(this);
	}

	inline IntArray* Object::AsIntArray() {
	DCHECK(GetClass()->IsArrayClass());
	DCHECK(GetClass()->GetComponentType()->IsPrimitiveInt() \|\|
	GetClass()->GetComponentType()->IsPrimitiveFloat());
	return down_cast<IntArray*>(this);
	}

	inline LongArray* Object::AsLongArray() {
	DCHECK(GetClass()->IsArrayClass());
	DCHECK(GetClass()->GetComponentType()->IsPrimitiveLong() \|\|
	GetClass()->GetComponentType()->IsPrimitiveDouble());
	return down_cast<LongArray*>(this);
	}

	inline String* Object::AsString() {
	DCHECK(GetClass()->IsStringClass());
	return down_cast<String*>(this);
	}

	inline Throwable* Object::AsThrowable() {
	DCHECK(GetClass()->IsThrowableClass());
	return down_cast<Throwable*>(this);
	}

	inline bool Object::IsWeakReferenceInstance() const {
	return GetClass()->IsWeakReferenceClass();
	}

	inline bool Object::IsSoftReferenceInstance() const {
	return GetClass()->IsSoftReferenceClass();
	}

	inline bool Object::IsFinalizerReferenceInstance() const {
	return GetClass()->IsFinalizerReferenceClass();
	}

	inline bool Object::IsPhantomReferenceInstance() const {
	return GetClass()->IsPhantomReferenceClass();
	}

	inline size_t Object::SizeOf() const {
	size_t result;
	if (IsArrayInstance()) {
	result = AsArray()->SizeOf();
	} else if (IsClass()) {
	result = AsClass()->SizeOf();
	} else {
	result = GetClass()->GetObjectSize();
	}
	DCHECK(!IsField() \|\| result == sizeof(Field));
	DCHECK(!IsMethod() \|\| result == sizeof(AbstractMethod));
	return result;
	}

	inline uint64_t Object::GetField64(MemberOffset field_offset, bool is_volatile) const {
	VerifyObject(this);
	const byte* raw_addr = reinterpret_cast<const byte*>(this) + field_offset.Int32Value();
	const int64_t* addr = reinterpret_cast<const int64_t*>(raw_addr);
	if (UNLIKELY(is_volatile)) {
	uint64_t result = QuasiAtomic::Read64(addr);
	ANDROID_MEMBAR_FULL();
	return result;
	} else {
	return *addr;
	}
	}

	inline void Object::SetField64(MemberOffset field_offset, uint64_t new_value, bool is_volatile) {
	VerifyObject(this);
	byte* raw_addr = reinterpret_cast<byte*>(this) + field_offset.Int32Value();
	int64_t* addr = reinterpret_cast<int64_t*>(raw_addr);
	if (UNLIKELY(is_volatile)) {
	ANDROID_MEMBAR_STORE();
	QuasiAtomic::Write64(addr, new_value);
	// Post-store barrier not required due to use of atomic op or mutex.
	} else {
	*addr = new_value;
	}
	}

	inline void Object::WriteBarrierField(const Object* dst, MemberOffset field_offset,
	const Object* new_value) {
	Runtime::Current()->GetHeap()->WriteBarrierField(dst, field_offset, new_value);
	}

	inline void Object::VerifyObject(const Object* obj) {
	if (kIsDebugBuild) {
	Runtime::Current()->GetHeap()->VerifyObject(obj);
	}
	}

	} // namespace mirror
	} // namespace art

	#endif // ART_RUNTIME_MIRROR_OBJECT_INL_H_