vm/oo/ObjectInlines.h - platform/dalvik - Git at Google

 /*
  * Copyright (C) 2008 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.
  */

 /*
  * Helper functions to access data fields in Objects.
  */
 #ifndef DALVIK_OO_OBJECTINLINES_H_
 #define DALVIK_OO_OBJECTINLINES_H_

 /*
  * Store a single value in the array, and if the value isn't null,
  * note in the write barrier.
  */
 INLINE void dvmSetObjectArrayElement(const ArrayObject* obj, int index,
                                      Object* val) {
     ((Object **)(void *)(obj)->contents)[index] = val;
     if (val != NULL) {
         dvmWriteBarrierArray(obj, index, index + 1);
     }
 }


 /*
  * Field access functions.  Pass in the word offset from Field->byteOffset.
  *
  * We guarantee that long/double field data is 64-bit aligned, so it's safe
  * to access them with ldrd/strd on ARM.
  *
  * The VM treats all fields as 32 or 64 bits, so the field set functions
  * write 32 bits even if the underlying type is smaller.
  *
  * Setting Object types to non-null values includes a call to the
  * write barrier.
  */
 #define BYTE_OFFSET(_ptr, _offset)  ((void*) (((u1*)(_ptr)) + (_offset)))

 INLINE JValue* dvmFieldPtr(const Object* obj, int offset) {
     return ((JValue*)BYTE_OFFSET(obj, offset));
 }

 INLINE bool dvmGetFieldBoolean(const Object* obj, int offset) {
     return ((JValue*)BYTE_OFFSET(obj, offset))->z;
 }
 INLINE s1 dvmGetFieldByte(const Object* obj, int offset) {
     return ((JValue*)BYTE_OFFSET(obj, offset))->b;
 }
 INLINE s2 dvmGetFieldShort(const Object* obj, int offset) {
     return ((JValue*)BYTE_OFFSET(obj, offset))->s;
 }
 INLINE u2 dvmGetFieldChar(const Object* obj, int offset) {
     return ((JValue*)BYTE_OFFSET(obj, offset))->c;
 }
 INLINE s4 dvmGetFieldInt(const Object* obj, int offset) {
     return ((JValue*)BYTE_OFFSET(obj, offset))->i;
 }
 INLINE s8 dvmGetFieldLong(const Object* obj, int offset) {
     return ((JValue*)BYTE_OFFSET(obj, offset))->j;
 }
 INLINE float dvmGetFieldFloat(const Object* obj, int offset) {
     return ((JValue*)BYTE_OFFSET(obj, offset))->f;
 }
 INLINE double dvmGetFieldDouble(const Object* obj, int offset) {
     return ((JValue*)BYTE_OFFSET(obj, offset))->d;
 }
 INLINE Object* dvmGetFieldObject(const Object* obj, int offset) {
     return ((JValue*)BYTE_OFFSET(obj, offset))->l;
 }
 INLINE bool dvmGetFieldBooleanVolatile(const Object* obj, int offset) {
     s4* ptr = &((JValue*)BYTE_OFFSET(obj, offset))->i;
     return (bool)android_atomic_acquire_load(ptr);
 }
 INLINE s1 dvmGetFieldByteVolatile(const Object* obj, int offset) {
     s4* ptr = &((JValue*)BYTE_OFFSET(obj, offset))->i;
     return (s1)android_atomic_acquire_load(ptr);
 }
 INLINE s2 dvmGetFieldShortVolatile(const Object* obj, int offset) {
     s4* ptr = &((JValue*)BYTE_OFFSET(obj, offset))->i;
     return (s2)android_atomic_acquire_load(ptr);
 }
 INLINE u2 dvmGetFieldCharVolatile(const Object* obj, int offset) {
     s4* ptr = &((JValue*)BYTE_OFFSET(obj, offset))->i;
     return (u2)android_atomic_acquire_load(ptr);
 }
 INLINE s4 dvmGetFieldIntVolatile(const Object* obj, int offset) {
     s4* ptr = &((JValue*)BYTE_OFFSET(obj, offset))->i;
     return android_atomic_acquire_load(ptr);
 }
 INLINE float dvmGetFieldFloatVolatile(const Object* obj, int offset) {
     union { s4 ival; float fval; } alias;
     s4* ptr = &((JValue*)BYTE_OFFSET(obj, offset))->i;
     alias.ival = android_atomic_acquire_load(ptr);
     return alias.fval;
 }
 INLINE s8 dvmGetFieldLongVolatile(const Object* obj, int offset) {
     const s8* addr = (const s8*)BYTE_OFFSET(obj, offset);
     s8 val = dvmQuasiAtomicRead64(addr);
     ANDROID_MEMBAR_FULL();
     return val;
 }
 INLINE double dvmGetFieldDoubleVolatile(const Object* obj, int offset) {
     union { s8 lval; double dval; } alias;
     const s8* addr = (const s8*)BYTE_OFFSET(obj, offset);
     alias.lval = dvmQuasiAtomicRead64(addr);
     ANDROID_MEMBAR_FULL();
     return alias.dval;
 }
 INLINE Object* dvmGetFieldObjectVolatile(const Object* obj, int offset) {
     Object** ptr = &((JValue*)BYTE_OFFSET(obj, offset))->l;
     return (Object*)android_atomic_acquire_load((int32_t*)ptr);
 }

 INLINE void dvmSetFieldBoolean(Object* obj, int offset, bool val) {
     ((JValue*)BYTE_OFFSET(obj, offset))->i = val;
 }
 INLINE void dvmSetFieldByte(Object* obj, int offset, s1 val) {
     ((JValue*)BYTE_OFFSET(obj, offset))->i = val;
 }
 INLINE void dvmSetFieldShort(Object* obj, int offset, s2 val) {
     ((JValue*)BYTE_OFFSET(obj, offset))->i = val;
 }
 INLINE void dvmSetFieldChar(Object* obj, int offset, u2 val) {
     ((JValue*)BYTE_OFFSET(obj, offset))->i = val;
 }
 INLINE void dvmSetFieldInt(Object* obj, int offset, s4 val) {
     ((JValue*)BYTE_OFFSET(obj, offset))->i = val;
 }
 INLINE void dvmSetFieldFloat(Object* obj, int offset, float val) {
     ((JValue*)BYTE_OFFSET(obj, offset))->f = val;
 }
 INLINE void dvmSetFieldLong(Object* obj, int offset, s8 val) {
     ((JValue*)BYTE_OFFSET(obj, offset))->j = val;
 }
 INLINE void dvmSetFieldDouble(Object* obj, int offset, double val) {
     ((JValue*)BYTE_OFFSET(obj, offset))->d = val;
 }
 INLINE void dvmSetFieldObject(Object* obj, int offset, Object* val) {
     JValue* lhs = (JValue*)BYTE_OFFSET(obj, offset);
     lhs->l = val;
     if (val != NULL) {
         dvmWriteBarrierField(obj, &lhs->l);
     }
 }
 INLINE void dvmSetFieldIntVolatile(Object* obj, int offset, s4 val) {
     s4* ptr = &((JValue*)BYTE_OFFSET(obj, offset))->i;
     /*
      * TODO: add an android_atomic_synchronization_store() function and
      * use it in the 32-bit volatile set handlers.  On some platforms we
      * can use a fast atomic instruction and avoid the barriers.
      */
     ANDROID_MEMBAR_STORE();
     *ptr = val;
     ANDROID_MEMBAR_FULL();
 }
 INLINE void dvmSetFieldBooleanVolatile(Object* obj, int offset, bool val) {
     dvmSetFieldIntVolatile(obj, offset, val);
 }
 INLINE void dvmSetFieldByteVolatile(Object* obj, int offset, s1 val) {
     dvmSetFieldIntVolatile(obj, offset, val);
 }
 INLINE void dvmSetFieldShortVolatile(Object* obj, int offset, s2 val) {
     dvmSetFieldIntVolatile(obj, offset, val);
 }
 INLINE void dvmSetFieldCharVolatile(Object* obj, int offset, u2 val) {
     dvmSetFieldIntVolatile(obj, offset, val);
 }
 INLINE void dvmSetFieldFloatVolatile(Object* obj, int offset, float val) {
     union { s4 ival; float fval; } alias;
     alias.fval = val;
     dvmSetFieldIntVolatile(obj, offset, alias.ival);
 }
 INLINE void dvmSetFieldLongVolatile(Object* obj, int offset, s8 val) {
     s8* addr = (s8*)BYTE_OFFSET(obj, offset);
     dvmQuasiAtomicSwap64Sync(val, addr);
 }
 INLINE void dvmSetFieldDoubleVolatile(Object* obj, int offset, double val) {
     union { s8 lval; double dval; } alias;
     alias.dval = val;
     dvmSetFieldLongVolatile(obj, offset, alias.lval);
 }
 INLINE void dvmSetFieldObjectVolatile(Object* obj, int offset, Object* val) {
     Object** ptr = &((JValue*)BYTE_OFFSET(obj, offset))->l;
     ANDROID_MEMBAR_STORE();
     *ptr = val;
     ANDROID_MEMBAR_FULL();
     if (val != NULL) {
         dvmWriteBarrierField(obj, ptr);
     }
 }

 /*
  * Static field access functions.
  */
 INLINE JValue* dvmStaticFieldPtr(const StaticField* sfield) {
     return (JValue*)&sfield->value;
 }

 INLINE bool dvmGetStaticFieldBoolean(const StaticField* sfield) {
     return sfield->value.z;
 }
 INLINE s1 dvmGetStaticFieldByte(const StaticField* sfield) {
     return sfield->value.b;
 }
 INLINE s2 dvmGetStaticFieldShort(const StaticField* sfield) {
     return sfield->value.s;
 }
 INLINE u2 dvmGetStaticFieldChar(const StaticField* sfield) {
     return sfield->value.c;
 }
 INLINE s4 dvmGetStaticFieldInt(const StaticField* sfield) {
     return sfield->value.i;
 }
 INLINE float dvmGetStaticFieldFloat(const StaticField* sfield) {
     return sfield->value.f;
 }
 INLINE s8 dvmGetStaticFieldLong(const StaticField* sfield) {
     return sfield->value.j;
 }
 INLINE double dvmGetStaticFieldDouble(const StaticField* sfield) {
     return sfield->value.d;
 }
 INLINE Object* dvmGetStaticFieldObject(const StaticField* sfield) {
     return sfield->value.l;
 }
 INLINE bool dvmGetStaticFieldBooleanVolatile(const StaticField* sfield) {
     const s4* ptr = &(sfield->value.i);
     return (bool)android_atomic_acquire_load((s4*)ptr);
 }
 INLINE s1 dvmGetStaticFieldByteVolatile(const StaticField* sfield) {
     const s4* ptr = &(sfield->value.i);
     return (s1)android_atomic_acquire_load((s4*)ptr);
 }
 INLINE s2 dvmGetStaticFieldShortVolatile(const StaticField* sfield) {
     const s4* ptr = &(sfield->value.i);
     return (s2)android_atomic_acquire_load((s4*)ptr);
 }
 INLINE u2 dvmGetStaticFieldCharVolatile(const StaticField* sfield) {
     const s4* ptr = &(sfield->value.i);
     return (u2)android_atomic_acquire_load((s4*)ptr);
 }
 INLINE s4 dvmGetStaticFieldIntVolatile(const StaticField* sfield) {
     const s4* ptr = &(sfield->value.i);
     return android_atomic_acquire_load((s4*)ptr);
 }
 INLINE float dvmGetStaticFieldFloatVolatile(const StaticField* sfield) {
     union { s4 ival; float fval; } alias;
     const s4* ptr = &(sfield->value.i);
     alias.ival = android_atomic_acquire_load((s4*)ptr);
     return alias.fval;
 }
 INLINE s8 dvmGetStaticFieldLongVolatile(const StaticField* sfield) {
     const s8* addr = &sfield->value.j;
     s8 val = dvmQuasiAtomicRead64(addr);
     ANDROID_MEMBAR_FULL();
     return val;
 }
 INLINE double dvmGetStaticFieldDoubleVolatile(const StaticField* sfield) {
     union { s8 lval; double dval; } alias;
     const s8* addr = &sfield->value.j;
     alias.lval = dvmQuasiAtomicRead64(addr);
     ANDROID_MEMBAR_FULL();
     return alias.dval;
 }
 INLINE Object* dvmGetStaticFieldObjectVolatile(const StaticField* sfield) {
     Object* const* ptr = &(sfield->value.l);
     return (Object*)android_atomic_acquire_load((int32_t*)ptr);
 }

 INLINE void dvmSetStaticFieldBoolean(StaticField* sfield, bool val) {
     sfield->value.i = val;
 }
 INLINE void dvmSetStaticFieldByte(StaticField* sfield, s1 val) {
     sfield->value.i = val;
 }
 INLINE void dvmSetStaticFieldShort(StaticField* sfield, s2 val) {
     sfield->value.i = val;
 }
 INLINE void dvmSetStaticFieldChar(StaticField* sfield, u2 val) {
     sfield->value.i = val;
 }
 INLINE void dvmSetStaticFieldInt(StaticField* sfield, s4 val) {
     sfield->value.i = val;
 }
 INLINE void dvmSetStaticFieldFloat(StaticField* sfield, float val) {
     sfield->value.f = val;
 }
 INLINE void dvmSetStaticFieldLong(StaticField* sfield, s8 val) {
     sfield->value.j = val;
 }
 INLINE void dvmSetStaticFieldDouble(StaticField* sfield, double val) {
     sfield->value.d = val;
 }
 INLINE void dvmSetStaticFieldObject(StaticField* sfield, Object* val) {
     sfield->value.l = val;
     if (val != NULL) {
         dvmWriteBarrierField(sfield->clazz, &sfield->value.l);
     }
 }
 INLINE void dvmSetStaticFieldIntVolatile(StaticField* sfield, s4 val) {
     s4* ptr = &sfield->value.i;
     ANDROID_MEMBAR_STORE();
     *ptr = val;
     ANDROID_MEMBAR_FULL();
 }
 INLINE void dvmSetStaticFieldBooleanVolatile(StaticField* sfield, bool val) {
     dvmSetStaticFieldIntVolatile(sfield, val);
 }
 INLINE void dvmSetStaticFieldByteVolatile(StaticField* sfield, s1 val) {
     dvmSetStaticFieldIntVolatile(sfield, val);
 }
 INLINE void dvmSetStaticFieldShortVolatile(StaticField* sfield, s2 val) {
     dvmSetStaticFieldIntVolatile(sfield, val);
 }
 INLINE void dvmSetStaticFieldCharVolatile(StaticField* sfield, u2 val) {
     dvmSetStaticFieldIntVolatile(sfield, val);
 }
 INLINE void dvmSetStaticFieldFloatVolatile(StaticField* sfield, float val) {
     union { s4 ival; float fval; } alias;
     alias.fval = val;
     dvmSetStaticFieldIntVolatile(sfield, alias.ival);
 }
 INLINE void dvmSetStaticFieldLongVolatile(StaticField* sfield, s8 val) {
     s8* addr = &sfield->value.j;
     dvmQuasiAtomicSwap64Sync(val, addr);
 }
 INLINE void dvmSetStaticFieldDoubleVolatile(StaticField* sfield, double val) {
     union { s8 lval; double dval; } alias;
     alias.dval = val;
     dvmSetStaticFieldLongVolatile(sfield, alias.lval);
 }
 INLINE void dvmSetStaticFieldObjectVolatile(StaticField* sfield, Object* val) {
     Object** ptr = &(sfield->value.l);
     ANDROID_MEMBAR_STORE();
     *ptr = val;
     ANDROID_MEMBAR_FULL();
     if (val != NULL) {
         dvmWriteBarrierField(sfield->clazz, &sfield->value.l);
     }
 }

 #endif  // DALVIK_OO_OBJECTINLINES_H_
	/*
	* Copyright (C) 2008 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.
	*/

	/*
	* Helper functions to access data fields in Objects.
	*/
	#ifndef DALVIK_OO_OBJECTINLINES_H_
	#define DALVIK_OO_OBJECTINLINES_H_

	/*
	* Store a single value in the array, and if the value isn't null,
	* note in the write barrier.
	*/
	INLINE void dvmSetObjectArrayElement(const ArrayObject* obj, int index,
	Object* val) {
	((Object *)(void )(obj)->contents)[index] = val;
	if (val != NULL) {
	dvmWriteBarrierArray(obj, index, index + 1);
	}
	}


	/*
	* Field access functions. Pass in the word offset from Field->byteOffset.
	*
	* We guarantee that long/double field data is 64-bit aligned, so it's safe
	* to access them with ldrd/strd on ARM.
	*
	* The VM treats all fields as 32 or 64 bits, so the field set functions
	* write 32 bits even if the underlying type is smaller.
	*
	* Setting Object types to non-null values includes a call to the
	* write barrier.
	*/
	#define BYTE_OFFSET(_ptr, _offset) ((void) (((u1)(_ptr)) + (_offset)))

	INLINE JValue* dvmFieldPtr(const Object* obj, int offset) {
	return ((JValue*)BYTE_OFFSET(obj, offset));
	}

	INLINE bool dvmGetFieldBoolean(const Object* obj, int offset) {
	return ((JValue*)BYTE_OFFSET(obj, offset))->z;
	}
	INLINE s1 dvmGetFieldByte(const Object* obj, int offset) {
	return ((JValue*)BYTE_OFFSET(obj, offset))->b;
	}
	INLINE s2 dvmGetFieldShort(const Object* obj, int offset) {
	return ((JValue*)BYTE_OFFSET(obj, offset))->s;
	}
	INLINE u2 dvmGetFieldChar(const Object* obj, int offset) {
	return ((JValue*)BYTE_OFFSET(obj, offset))->c;
	}
	INLINE s4 dvmGetFieldInt(const Object* obj, int offset) {
	return ((JValue*)BYTE_OFFSET(obj, offset))->i;
	}
	INLINE s8 dvmGetFieldLong(const Object* obj, int offset) {
	return ((JValue*)BYTE_OFFSET(obj, offset))->j;
	}
	INLINE float dvmGetFieldFloat(const Object* obj, int offset) {
	return ((JValue*)BYTE_OFFSET(obj, offset))->f;
	}
	INLINE double dvmGetFieldDouble(const Object* obj, int offset) {
	return ((JValue*)BYTE_OFFSET(obj, offset))->d;
	}
	INLINE Object* dvmGetFieldObject(const Object* obj, int offset) {
	return ((JValue*)BYTE_OFFSET(obj, offset))->l;
	}
	INLINE bool dvmGetFieldBooleanVolatile(const Object* obj, int offset) {
	s4* ptr = &((JValue*)BYTE_OFFSET(obj, offset))->i;
	return (bool)android_atomic_acquire_load(ptr);
	}
	INLINE s1 dvmGetFieldByteVolatile(const Object* obj, int offset) {
	s4* ptr = &((JValue*)BYTE_OFFSET(obj, offset))->i;
	return (s1)android_atomic_acquire_load(ptr);
	}
	INLINE s2 dvmGetFieldShortVolatile(const Object* obj, int offset) {
	s4* ptr = &((JValue*)BYTE_OFFSET(obj, offset))->i;
	return (s2)android_atomic_acquire_load(ptr);
	}
	INLINE u2 dvmGetFieldCharVolatile(const Object* obj, int offset) {
	s4* ptr = &((JValue*)BYTE_OFFSET(obj, offset))->i;
	return (u2)android_atomic_acquire_load(ptr);
	}
	INLINE s4 dvmGetFieldIntVolatile(const Object* obj, int offset) {
	s4* ptr = &((JValue*)BYTE_OFFSET(obj, offset))->i;
	return android_atomic_acquire_load(ptr);
	}
	INLINE float dvmGetFieldFloatVolatile(const Object* obj, int offset) {
	union { s4 ival; float fval; } alias;
	s4* ptr = &((JValue*)BYTE_OFFSET(obj, offset))->i;
	alias.ival = android_atomic_acquire_load(ptr);
	return alias.fval;
	}
	INLINE s8 dvmGetFieldLongVolatile(const Object* obj, int offset) {
	const s8* addr = (const s8*)BYTE_OFFSET(obj, offset);
	s8 val = dvmQuasiAtomicRead64(addr);
	ANDROID_MEMBAR_FULL();
	return val;
	}
	INLINE double dvmGetFieldDoubleVolatile(const Object* obj, int offset) {
	union { s8 lval; double dval; } alias;
	const s8* addr = (const s8*)BYTE_OFFSET(obj, offset);
	alias.lval = dvmQuasiAtomicRead64(addr);
	ANDROID_MEMBAR_FULL();
	return alias.dval;
	}
	INLINE Object* dvmGetFieldObjectVolatile(const Object* obj, int offset) {
	Object** ptr = &((JValue*)BYTE_OFFSET(obj, offset))->l;
	return (Object)android_atomic_acquire_load((int32_t)ptr);
	}

	INLINE void dvmSetFieldBoolean(Object* obj, int offset, bool val) {
	((JValue*)BYTE_OFFSET(obj, offset))->i = val;
	}
	INLINE void dvmSetFieldByte(Object* obj, int offset, s1 val) {
	((JValue*)BYTE_OFFSET(obj, offset))->i = val;
	}
	INLINE void dvmSetFieldShort(Object* obj, int offset, s2 val) {
	((JValue*)BYTE_OFFSET(obj, offset))->i = val;
	}
	INLINE void dvmSetFieldChar(Object* obj, int offset, u2 val) {
	((JValue*)BYTE_OFFSET(obj, offset))->i = val;
	}
	INLINE void dvmSetFieldInt(Object* obj, int offset, s4 val) {
	((JValue*)BYTE_OFFSET(obj, offset))->i = val;
	}
	INLINE void dvmSetFieldFloat(Object* obj, int offset, float val) {
	((JValue*)BYTE_OFFSET(obj, offset))->f = val;
	}
	INLINE void dvmSetFieldLong(Object* obj, int offset, s8 val) {
	((JValue*)BYTE_OFFSET(obj, offset))->j = val;
	}
	INLINE void dvmSetFieldDouble(Object* obj, int offset, double val) {
	((JValue*)BYTE_OFFSET(obj, offset))->d = val;
	}
	INLINE void dvmSetFieldObject(Object* obj, int offset, Object* val) {
	JValue* lhs = (JValue*)BYTE_OFFSET(obj, offset);
	lhs->l = val;
	if (val != NULL) {
	dvmWriteBarrierField(obj, &lhs->l);
	}
	}
	INLINE void dvmSetFieldIntVolatile(Object* obj, int offset, s4 val) {
	s4* ptr = &((JValue*)BYTE_OFFSET(obj, offset))->i;
	/*
	* TODO: add an android_atomic_synchronization_store() function and
	* use it in the 32-bit volatile set handlers. On some platforms we
	* can use a fast atomic instruction and avoid the barriers.
	*/
	ANDROID_MEMBAR_STORE();
	*ptr = val;
	ANDROID_MEMBAR_FULL();
	}
	INLINE void dvmSetFieldBooleanVolatile(Object* obj, int offset, bool val) {
	dvmSetFieldIntVolatile(obj, offset, val);
	}
	INLINE void dvmSetFieldByteVolatile(Object* obj, int offset, s1 val) {
	dvmSetFieldIntVolatile(obj, offset, val);
	}
	INLINE void dvmSetFieldShortVolatile(Object* obj, int offset, s2 val) {
	dvmSetFieldIntVolatile(obj, offset, val);
	}
	INLINE void dvmSetFieldCharVolatile(Object* obj, int offset, u2 val) {
	dvmSetFieldIntVolatile(obj, offset, val);
	}
	INLINE void dvmSetFieldFloatVolatile(Object* obj, int offset, float val) {
	union { s4 ival; float fval; } alias;
	alias.fval = val;
	dvmSetFieldIntVolatile(obj, offset, alias.ival);
	}
	INLINE void dvmSetFieldLongVolatile(Object* obj, int offset, s8 val) {
	s8* addr = (s8*)BYTE_OFFSET(obj, offset);
	dvmQuasiAtomicSwap64Sync(val, addr);
	}
	INLINE void dvmSetFieldDoubleVolatile(Object* obj, int offset, double val) {
	union { s8 lval; double dval; } alias;
	alias.dval = val;
	dvmSetFieldLongVolatile(obj, offset, alias.lval);
	}
	INLINE void dvmSetFieldObjectVolatile(Object* obj, int offset, Object* val) {
	Object** ptr = &((JValue*)BYTE_OFFSET(obj, offset))->l;
	ANDROID_MEMBAR_STORE();
	*ptr = val;
	ANDROID_MEMBAR_FULL();
	if (val != NULL) {
	dvmWriteBarrierField(obj, ptr);
	}
	}

	/*
	* Static field access functions.
	*/
	INLINE JValue* dvmStaticFieldPtr(const StaticField* sfield) {
	return (JValue*)&sfield->value;
	}

	INLINE bool dvmGetStaticFieldBoolean(const StaticField* sfield) {
	return sfield->value.z;
	}
	INLINE s1 dvmGetStaticFieldByte(const StaticField* sfield) {
	return sfield->value.b;
	}
	INLINE s2 dvmGetStaticFieldShort(const StaticField* sfield) {
	return sfield->value.s;
	}
	INLINE u2 dvmGetStaticFieldChar(const StaticField* sfield) {
	return sfield->value.c;
	}
	INLINE s4 dvmGetStaticFieldInt(const StaticField* sfield) {
	return sfield->value.i;
	}
	INLINE float dvmGetStaticFieldFloat(const StaticField* sfield) {
	return sfield->value.f;
	}
	INLINE s8 dvmGetStaticFieldLong(const StaticField* sfield) {
	return sfield->value.j;
	}
	INLINE double dvmGetStaticFieldDouble(const StaticField* sfield) {
	return sfield->value.d;
	}
	INLINE Object* dvmGetStaticFieldObject(const StaticField* sfield) {
	return sfield->value.l;
	}
	INLINE bool dvmGetStaticFieldBooleanVolatile(const StaticField* sfield) {
	const s4* ptr = &(sfield->value.i);
	return (bool)android_atomic_acquire_load((s4*)ptr);
	}
	INLINE s1 dvmGetStaticFieldByteVolatile(const StaticField* sfield) {
	const s4* ptr = &(sfield->value.i);
	return (s1)android_atomic_acquire_load((s4*)ptr);
	}
	INLINE s2 dvmGetStaticFieldShortVolatile(const StaticField* sfield) {
	const s4* ptr = &(sfield->value.i);
	return (s2)android_atomic_acquire_load((s4*)ptr);
	}
	INLINE u2 dvmGetStaticFieldCharVolatile(const StaticField* sfield) {
	const s4* ptr = &(sfield->value.i);
	return (u2)android_atomic_acquire_load((s4*)ptr);
	}
	INLINE s4 dvmGetStaticFieldIntVolatile(const StaticField* sfield) {
	const s4* ptr = &(sfield->value.i);
	return android_atomic_acquire_load((s4*)ptr);
	}
	INLINE float dvmGetStaticFieldFloatVolatile(const StaticField* sfield) {
	union { s4 ival; float fval; } alias;
	const s4* ptr = &(sfield->value.i);
	alias.ival = android_atomic_acquire_load((s4*)ptr);
	return alias.fval;
	}
	INLINE s8 dvmGetStaticFieldLongVolatile(const StaticField* sfield) {
	const s8* addr = &sfield->value.j;
	s8 val = dvmQuasiAtomicRead64(addr);
	ANDROID_MEMBAR_FULL();
	return val;
	}
	INLINE double dvmGetStaticFieldDoubleVolatile(const StaticField* sfield) {
	union { s8 lval; double dval; } alias;
	const s8* addr = &sfield->value.j;
	alias.lval = dvmQuasiAtomicRead64(addr);
	ANDROID_MEMBAR_FULL();
	return alias.dval;
	}
	INLINE Object* dvmGetStaticFieldObjectVolatile(const StaticField* sfield) {
	Object* const* ptr = &(sfield->value.l);
	return (Object)android_atomic_acquire_load((int32_t)ptr);
	}

	INLINE void dvmSetStaticFieldBoolean(StaticField* sfield, bool val) {
	sfield->value.i = val;
	}
	INLINE void dvmSetStaticFieldByte(StaticField* sfield, s1 val) {
	sfield->value.i = val;
	}
	INLINE void dvmSetStaticFieldShort(StaticField* sfield, s2 val) {
	sfield->value.i = val;
	}
	INLINE void dvmSetStaticFieldChar(StaticField* sfield, u2 val) {
	sfield->value.i = val;
	}
	INLINE void dvmSetStaticFieldInt(StaticField* sfield, s4 val) {
	sfield->value.i = val;
	}
	INLINE void dvmSetStaticFieldFloat(StaticField* sfield, float val) {
	sfield->value.f = val;
	}
	INLINE void dvmSetStaticFieldLong(StaticField* sfield, s8 val) {
	sfield->value.j = val;
	}
	INLINE void dvmSetStaticFieldDouble(StaticField* sfield, double val) {
	sfield->value.d = val;
	}
	INLINE void dvmSetStaticFieldObject(StaticField* sfield, Object* val) {
	sfield->value.l = val;
	if (val != NULL) {
	dvmWriteBarrierField(sfield->clazz, &sfield->value.l);
	}
	}
	INLINE void dvmSetStaticFieldIntVolatile(StaticField* sfield, s4 val) {
	s4* ptr = &sfield->value.i;
	ANDROID_MEMBAR_STORE();
	*ptr = val;
	ANDROID_MEMBAR_FULL();
	}
	INLINE void dvmSetStaticFieldBooleanVolatile(StaticField* sfield, bool val) {
	dvmSetStaticFieldIntVolatile(sfield, val);
	}
	INLINE void dvmSetStaticFieldByteVolatile(StaticField* sfield, s1 val) {
	dvmSetStaticFieldIntVolatile(sfield, val);
	}
	INLINE void dvmSetStaticFieldShortVolatile(StaticField* sfield, s2 val) {
	dvmSetStaticFieldIntVolatile(sfield, val);
	}
	INLINE void dvmSetStaticFieldCharVolatile(StaticField* sfield, u2 val) {
	dvmSetStaticFieldIntVolatile(sfield, val);
	}
	INLINE void dvmSetStaticFieldFloatVolatile(StaticField* sfield, float val) {
	union { s4 ival; float fval; } alias;
	alias.fval = val;
	dvmSetStaticFieldIntVolatile(sfield, alias.ival);
	}
	INLINE void dvmSetStaticFieldLongVolatile(StaticField* sfield, s8 val) {
	s8* addr = &sfield->value.j;
	dvmQuasiAtomicSwap64Sync(val, addr);
	}
	INLINE void dvmSetStaticFieldDoubleVolatile(StaticField* sfield, double val) {
	union { s8 lval; double dval; } alias;
	alias.dval = val;
	dvmSetStaticFieldLongVolatile(sfield, alias.lval);
	}
	INLINE void dvmSetStaticFieldObjectVolatile(StaticField* sfield, Object* val) {
	Object** ptr = &(sfield->value.l);
	ANDROID_MEMBAR_STORE();
	*ptr = val;
	ANDROID_MEMBAR_FULL();
	if (val != NULL) {
	dvmWriteBarrierField(sfield->clazz, &sfield->value.l);
	}
	}

	#endif // DALVIK_OO_OBJECTINLINES_H_