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// Copyright 2016 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.
// Note 1: Any file that includes this one should include object-macros-undef.h
// at the bottom.
// Note 2: This file is deliberately missing the include guards (the undeffing
// approach wouldn't work otherwise).
//
// PRESUBMIT_INTENTIONALLY_MISSING_INCLUDE_GUARD
// The accessors with RELAXED_, ACQUIRE_, and RELEASE_ prefixes should be used
// for fields that can be written to and read from multiple threads at the same
// time. See comments in src/base/atomicops.h for the memory ordering sematics.
#include <src/v8memory.h>
#define DECL_PRIMITIVE_ACCESSORS(name, type) \
inline type name() const; \
inline void set_##name(type value);
#define DECL_BOOLEAN_ACCESSORS(name) DECL_PRIMITIVE_ACCESSORS(name, bool)
#define DECL_INT_ACCESSORS(name) DECL_PRIMITIVE_ACCESSORS(name, int)
#define DECL_INT32_ACCESSORS(name) DECL_PRIMITIVE_ACCESSORS(name, int32_t)
#define DECL_UINT16_ACCESSORS(name) \
inline uint16_t name() const; \
inline void set_##name(int value);
#define DECL_UINT8_ACCESSORS(name) \
inline uint8_t name() const; \
inline void set_##name(int value);
#define DECL_ACCESSORS(name, type) \
inline type* name() const; \
inline void set_##name(type* value, \
WriteBarrierMode mode = UPDATE_WRITE_BARRIER);
#define DECL_CAST(type) \
V8_INLINE static type* cast(Object* object); \
V8_INLINE static const type* cast(const Object* object);
#define CAST_ACCESSOR(type) \
type* type::cast(Object* object) { \
SLOW_DCHECK(object->Is##type()); \
return reinterpret_cast<type*>(object); \
} \
const type* type::cast(const Object* object) { \
SLOW_DCHECK(object->Is##type()); \
return reinterpret_cast<const type*>(object); \
}
#define INT_ACCESSORS(holder, name, offset) \
int holder::name() const { return READ_INT_FIELD(this, offset); } \
void holder::set_##name(int value) { WRITE_INT_FIELD(this, offset, value); }
#define INT32_ACCESSORS(holder, name, offset) \
int32_t holder::name() const { return READ_INT32_FIELD(this, offset); } \
void holder::set_##name(int32_t value) { \
WRITE_INT32_FIELD(this, offset, value); \
}
#define UINT16_ACCESSORS(holder, name, offset) \
uint16_t holder::name() const { return READ_UINT16_FIELD(this, offset); } \
void holder::set_##name(int value) { \
DCHECK_GE(value, 0); \
DCHECK_LE(value, static_cast<uint16_t>(-1)); \
WRITE_UINT16_FIELD(this, offset, value); \
}
#define UINT8_ACCESSORS(holder, name, offset) \
uint8_t holder::name() const { return READ_UINT8_FIELD(this, offset); } \
void holder::set_##name(int value) { \
DCHECK_GE(value, 0); \
DCHECK_LE(value, static_cast<uint8_t>(-1)); \
WRITE_UINT8_FIELD(this, offset, value); \
}
#define ACCESSORS_CHECKED2(holder, name, type, offset, get_condition, \
set_condition) \
type* holder::name() const { \
type* value = type::cast(READ_FIELD(this, offset)); \
DCHECK(get_condition); \
return value; \
} \
void holder::set_##name(type* value, WriteBarrierMode mode) { \
DCHECK(set_condition); \
WRITE_FIELD(this, offset, value); \
CONDITIONAL_WRITE_BARRIER(this, offset, value, mode); \
}
#define ACCESSORS_CHECKED(holder, name, type, offset, condition) \
ACCESSORS_CHECKED2(holder, name, type, offset, condition, condition)
#define ACCESSORS(holder, name, type, offset) \
ACCESSORS_CHECKED(holder, name, type, offset, true)
#define WEAK_ACCESSORS_CHECKED2(holder, name, offset, get_condition, \
set_condition) \
MaybeObject* holder::name() const { \
MaybeObject* value = READ_WEAK_FIELD(this, offset); \
DCHECK(get_condition); \
return value; \
} \
void holder::set_##name(MaybeObject* value, WriteBarrierMode mode) { \
DCHECK(set_condition); \
WRITE_WEAK_FIELD(this, offset, value); \
CONDITIONAL_WEAK_WRITE_BARRIER(this, offset, value, mode); \
}
#define WEAK_ACCESSORS_CHECKED(holder, name, offset, condition) \
WEAK_ACCESSORS_CHECKED2(holder, name, offset, condition, condition)
#define WEAK_ACCESSORS(holder, name, offset) \
WEAK_ACCESSORS_CHECKED(holder, name, offset, true)
// Getter that returns a Smi as an int and writes an int as a Smi.
#define SMI_ACCESSORS_CHECKED(holder, name, offset, condition) \
int holder::name() const { \
DCHECK(condition); \
Object* value = READ_FIELD(this, offset); \
return Smi::ToInt(value); \
} \
void holder::set_##name(int value) { \
DCHECK(condition); \
WRITE_FIELD(this, offset, Smi::FromInt(value)); \
}
#define SMI_ACCESSORS(holder, name, offset) \
SMI_ACCESSORS_CHECKED(holder, name, offset, true)
#define SYNCHRONIZED_SMI_ACCESSORS(holder, name, offset) \
int holder::synchronized_##name() const { \
Object* value = ACQUIRE_READ_FIELD(this, offset); \
return Smi::ToInt(value); \
} \
void holder::synchronized_set_##name(int value) { \
RELEASE_WRITE_FIELD(this, offset, Smi::FromInt(value)); \
}
#define RELAXED_SMI_ACCESSORS(holder, name, offset) \
int holder::relaxed_read_##name() const { \
Object* value = RELAXED_READ_FIELD(this, offset); \
return Smi::ToInt(value); \
} \
void holder::relaxed_write_##name(int value) { \
RELAXED_WRITE_FIELD(this, offset, Smi::FromInt(value)); \
}
#define BOOL_GETTER(holder, field, name, offset) \
bool holder::name() const { return BooleanBit::get(field(), offset); }
#define BOOL_ACCESSORS(holder, field, name, offset) \
bool holder::name() const { return BooleanBit::get(field(), offset); } \
void holder::set_##name(bool value) { \
set_##field(BooleanBit::set(field(), offset, value)); \
}
#define BIT_FIELD_ACCESSORS(holder, field, name, BitField) \
typename BitField::FieldType holder::name() const { \
return BitField::decode(field()); \
} \
void holder::set_##name(typename BitField::FieldType value) { \
set_##field(BitField::update(field(), value)); \
}
#define INSTANCE_TYPE_CHECKER(type, forinstancetype) \
V8_INLINE bool Is##type(InstanceType instance_type) { \
return instance_type == forinstancetype; \
}
#define TYPE_CHECKER(type, ...) \
bool HeapObject::Is##type() const { \
return InstanceTypeChecker::Is##type(map()->instance_type()); \
}
#define FIELD_ADDR(p, offset) \
(reinterpret_cast<Address>(p) + offset - kHeapObjectTag)
#define READ_FIELD(p, offset) \
(*reinterpret_cast<Object* const*>(FIELD_ADDR(p, offset)))
#define READ_WEAK_FIELD(p, offset) \
(*reinterpret_cast<MaybeObject* const*>(FIELD_ADDR(p, offset)))
#define ACQUIRE_READ_FIELD(p, offset) \
reinterpret_cast<Object*>(base::Acquire_Load( \
reinterpret_cast<const base::AtomicWord*>(FIELD_ADDR(p, offset))))
#define RELAXED_READ_FIELD(p, offset) \
reinterpret_cast<Object*>(base::Relaxed_Load( \
reinterpret_cast<const base::AtomicWord*>(FIELD_ADDR(p, offset))))
#define RELAXED_READ_WEAK_FIELD(p, offset) \
reinterpret_cast<MaybeObject*>(base::Relaxed_Load( \
reinterpret_cast<const base::AtomicWord*>(FIELD_ADDR(p, offset))))
#ifdef V8_CONCURRENT_MARKING
#define WRITE_FIELD(p, offset, value) \
base::Relaxed_Store( \
reinterpret_cast<base::AtomicWord*>(FIELD_ADDR(p, offset)), \
reinterpret_cast<base::AtomicWord>(value));
#define WRITE_WEAK_FIELD(p, offset, value) \
base::Relaxed_Store( \
reinterpret_cast<base::AtomicWord*>(FIELD_ADDR(p, offset)), \
reinterpret_cast<base::AtomicWord>(value));
#else
#define WRITE_FIELD(p, offset, value) \
(*reinterpret_cast<Object**>(FIELD_ADDR(p, offset)) = value)
#define WRITE_WEAK_FIELD(p, offset, value) \
(*reinterpret_cast<MaybeObject**>(FIELD_ADDR(p, offset)) = value)
#endif
#define RELEASE_WRITE_FIELD(p, offset, value) \
base::Release_Store( \
reinterpret_cast<base::AtomicWord*>(FIELD_ADDR(p, offset)), \
reinterpret_cast<base::AtomicWord>(value));
#define RELAXED_WRITE_FIELD(p, offset, value) \
base::Relaxed_Store( \
reinterpret_cast<base::AtomicWord*>(FIELD_ADDR(p, offset)), \
reinterpret_cast<base::AtomicWord>(value));
#define WRITE_BARRIER(object, offset, value) \
do { \
DCHECK_NOT_NULL(Heap::FromWritableHeapObject(object)); \
MarkingBarrier(object, HeapObject::RawField(object, offset), value); \
GenerationalBarrier(object, HeapObject::RawField(object, offset), value); \
} while (false)
#define WEAK_WRITE_BARRIER(object, offset, value) \
do { \
DCHECK_NOT_NULL(Heap::FromWritableHeapObject(object)); \
MarkingBarrier(object, HeapObject::RawMaybeWeakField(object, offset), \
value); \
GenerationalBarrier(object, HeapObject::RawMaybeWeakField(object, offset), \
value); \
} while (false)
#define CONDITIONAL_WRITE_BARRIER(object, offset, value, mode) \
do { \
DCHECK_NOT_NULL(Heap::FromWritableHeapObject(object)); \
if (mode != SKIP_WRITE_BARRIER) { \
if (mode == UPDATE_WRITE_BARRIER) { \
MarkingBarrier(object, HeapObject::RawField(object, offset), value); \
} \
GenerationalBarrier(object, HeapObject::RawField(object, offset), \
value); \
} \
} while (false)
#define CONDITIONAL_WEAK_WRITE_BARRIER(object, offset, value, mode) \
do { \
DCHECK_NOT_NULL(Heap::FromWritableHeapObject(object)); \
if (mode != SKIP_WRITE_BARRIER) { \
if (mode == UPDATE_WRITE_BARRIER) { \
MarkingBarrier(object, HeapObject::RawMaybeWeakField(object, offset), \
value); \
} \
GenerationalBarrier( \
object, HeapObject::RawMaybeWeakField(object, offset), value); \
} \
} while (false)
#define READ_DOUBLE_FIELD(p, offset) ReadDoubleValue(FIELD_ADDR(p, offset))
#define WRITE_DOUBLE_FIELD(p, offset, value) \
WriteDoubleValue(FIELD_ADDR(p, offset), value)
#define READ_INT_FIELD(p, offset) \
(*reinterpret_cast<const int*>(FIELD_ADDR(p, offset)))
#define WRITE_INT_FIELD(p, offset, value) \
(*reinterpret_cast<int*>(FIELD_ADDR(p, offset)) = value)
#define RELAXED_READ_INTPTR_FIELD(p, offset) \
static_cast<intptr_t>(base::Relaxed_Load( \
reinterpret_cast<const base::AtomicWord*>(FIELD_ADDR(p, offset))))
#define READ_INTPTR_FIELD(p, offset) \
(*reinterpret_cast<const intptr_t*>(FIELD_ADDR(p, offset)))
#define RELAXED_WRITE_INTPTR_FIELD(p, offset, value) \
base::Relaxed_Store( \
reinterpret_cast<base::AtomicWord*>(FIELD_ADDR(p, offset)), \
static_cast<base::AtomicWord>(value));
#define WRITE_INTPTR_FIELD(p, offset, value) \
(*reinterpret_cast<intptr_t*>(FIELD_ADDR(p, offset)) = value)
#define READ_UINT8_FIELD(p, offset) \
(*reinterpret_cast<const uint8_t*>(FIELD_ADDR(p, offset)))
#define WRITE_UINT8_FIELD(p, offset, value) \
(*reinterpret_cast<uint8_t*>(FIELD_ADDR(p, offset)) = value)
#define RELAXED_WRITE_INT8_FIELD(p, offset, value) \
base::Relaxed_Store(reinterpret_cast<base::Atomic8*>(FIELD_ADDR(p, offset)), \
static_cast<base::Atomic8>(value));
#define READ_INT8_FIELD(p, offset) \
(*reinterpret_cast<const int8_t*>(FIELD_ADDR(p, offset)))
#define RELAXED_READ_INT8_FIELD(p, offset) \
static_cast<int8_t>(base::Relaxed_Load( \
reinterpret_cast<const base::Atomic8*>(FIELD_ADDR(p, offset))))
#define WRITE_INT8_FIELD(p, offset, value) \
(*reinterpret_cast<int8_t*>(FIELD_ADDR(p, offset)) = value)
#define READ_UINT16_FIELD(p, offset) \
(*reinterpret_cast<const uint16_t*>(FIELD_ADDR(p, offset)))
#define WRITE_UINT16_FIELD(p, offset, value) \
(*reinterpret_cast<uint16_t*>(FIELD_ADDR(p, offset)) = value)
#define READ_INT16_FIELD(p, offset) \
(*reinterpret_cast<const int16_t*>(FIELD_ADDR(p, offset)))
#define WRITE_INT16_FIELD(p, offset, value) \
(*reinterpret_cast<int16_t*>(FIELD_ADDR(p, offset)) = value)
#define READ_UINT32_FIELD(p, offset) \
(*reinterpret_cast<const uint32_t*>(FIELD_ADDR(p, offset)))
#define WRITE_UINT32_FIELD(p, offset, value) \
(*reinterpret_cast<uint32_t*>(FIELD_ADDR(p, offset)) = value)
#define READ_INT32_FIELD(p, offset) \
(*reinterpret_cast<const int32_t*>(FIELD_ADDR(p, offset)))
#define WRITE_INT32_FIELD(p, offset, value) \
(*reinterpret_cast<int32_t*>(FIELD_ADDR(p, offset)) = value)
#define READ_FLOAT_FIELD(p, offset) \
(*reinterpret_cast<const float*>(FIELD_ADDR(p, offset)))
#define WRITE_FLOAT_FIELD(p, offset, value) \
(*reinterpret_cast<float*>(FIELD_ADDR(p, offset)) = value)
#define READ_UINT64_FIELD(p, offset) \
(*reinterpret_cast<const uint64_t*>(FIELD_ADDR(p, offset)))
#define WRITE_UINT64_FIELD(p, offset, value) \
(*reinterpret_cast<uint64_t*>(FIELD_ADDR(p, offset)) = value)
#define READ_INT64_FIELD(p, offset) \
(*reinterpret_cast<const int64_t*>(FIELD_ADDR(p, offset)))
#define WRITE_INT64_FIELD(p, offset, value) \
(*reinterpret_cast<int64_t*>(FIELD_ADDR(p, offset)) = value)
#define READ_BYTE_FIELD(p, offset) \
(*reinterpret_cast<const byte*>(FIELD_ADDR(p, offset)))
#define RELAXED_READ_BYTE_FIELD(p, offset) \
static_cast<byte>(base::Relaxed_Load( \
reinterpret_cast<const base::Atomic8*>(FIELD_ADDR(p, offset))))
#define WRITE_BYTE_FIELD(p, offset, value) \
(*reinterpret_cast<byte*>(FIELD_ADDR(p, offset)) = value)
#define RELAXED_WRITE_BYTE_FIELD(p, offset, value) \
base::Relaxed_Store(reinterpret_cast<base::Atomic8*>(FIELD_ADDR(p, offset)), \
static_cast<base::Atomic8>(value));
#ifdef VERIFY_HEAP
#define DECL_VERIFIER(Name) void Name##Verify(Isolate* isolate);
#else
#define DECL_VERIFIER(Name)
#endif
#define DEFINE_DEOPT_ELEMENT_ACCESSORS(name, type) \
type* DeoptimizationData::name() { return type::cast(get(k##name##Index)); } \
void DeoptimizationData::Set##name(type* value) { \
set(k##name##Index, value); \
}
#define DEFINE_DEOPT_ENTRY_ACCESSORS(name, type) \
type* DeoptimizationData::name(int i) { \
return type::cast(get(IndexForEntry(i) + k##name##Offset)); \
} \
void DeoptimizationData::Set##name(int i, type* value) { \
set(IndexForEntry(i) + k##name##Offset, value); \
}
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