// 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/base/memory.h" // Since this changes visibility, it should always be last in a class // definition. #define OBJECT_CONSTRUCTORS(Type, ...) \ public: \ constexpr Type() : __VA_ARGS__() {} \ \ protected: \ template \ friend class TaggedField; \ \ explicit inline Type(Address ptr) #define OBJECT_CONSTRUCTORS_IMPL(Type, Super) \ inline Type::Type(Address ptr) : Super(ptr) { SLOW_DCHECK(Is##Type()); } // In these cases, we don't have our own instance type to check, so check the // supertype instead. This happens for types denoting a NativeContext-dependent // set of maps. #define OBJECT_CONSTRUCTORS_IMPL_CHECK_SUPER(Type, Super) \ inline Type::Type(Address ptr) : Super(ptr) { SLOW_DCHECK(Is##Super()); } #define NEVER_READ_ONLY_SPACE \ inline Heap* GetHeap() const; \ inline Isolate* GetIsolate() const; // TODO(leszeks): Add checks in the factory that we never allocate these // objects in RO space. #define NEVER_READ_ONLY_SPACE_IMPL(Type) \ Heap* Type::GetHeap() const { return GetHeapFromWritableObject(*this); } \ Isolate* Type::GetIsolate() const { \ return GetIsolateFromWritableObject(*this); \ } #define DECL_PRIMITIVE_GETTER(name, type) inline type name() const; #define DECL_PRIMITIVE_SETTER(name, type) inline void set_##name(type value); #define DECL_PRIMITIVE_ACCESSORS(name, type) \ DECL_PRIMITIVE_GETTER(name, type) \ DECL_PRIMITIVE_SETTER(name, type) #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_INT16_ACCESSORS(name) \ inline int16_t name() const; \ inline void set_##name(int16_t value); #define DECL_UINT8_ACCESSORS(name) \ inline uint8_t name() const; \ inline void set_##name(int value); // TODO(ishell): eventually isolate-less getters should not be used anymore. // For full pointer-mode the C++ compiler should optimize away unused isolate // parameter. #define DECL_GETTER(name, type) \ inline type name() const; \ inline type name(PtrComprCageBase cage_base) const; #define DEF_GETTER(holder, name, type) \ type holder::name() const { \ PtrComprCageBase cage_base = GetPtrComprCageBase(*this); \ return holder::name(cage_base); \ } \ type holder::name(PtrComprCageBase cage_base) const #define DECL_SETTER(name, type) \ inline void set_##name(type value, \ WriteBarrierMode mode = UPDATE_WRITE_BARRIER); #define DECL_ACCESSORS(name, type) \ DECL_GETTER(name, type) \ DECL_SETTER(name, type) #define DECL_ACCESSORS_LOAD_TAG(name, type, tag_type) \ inline type name(tag_type tag) const; \ inline type name(PtrComprCageBase cage_base, tag_type) const; #define DECL_ACCESSORS_STORE_TAG(name, type, tag_type) \ inline void set_##name(type value, tag_type, \ WriteBarrierMode mode = UPDATE_WRITE_BARRIER); #define DECL_RELAXED_GETTER(name, type) \ DECL_ACCESSORS_LOAD_TAG(name, type, RelaxedLoadTag) #define DECL_RELAXED_SETTER(name, type) \ DECL_ACCESSORS_STORE_TAG(name, type, RelaxedStoreTag) #define DECL_RELAXED_ACCESSORS(name, type) \ DECL_RELAXED_GETTER(name, type) \ DECL_RELAXED_SETTER(name, type) #define DECL_ACQUIRE_GETTER(name, type) \ DECL_ACCESSORS_LOAD_TAG(name, type, AcquireLoadTag) #define DECL_RELEASE_SETTER(name, type) \ DECL_ACCESSORS_STORE_TAG(name, type, ReleaseStoreTag) #define DECL_RELEASE_ACQUIRE_ACCESSORS(name, type) \ DECL_ACQUIRE_GETTER(name, type) \ DECL_RELEASE_SETTER(name, type) #define DECL_RELEASE_ACQUIRE_WEAK_ACCESSORS(name) \ DECL_ACQUIRE_GETTER(name, MaybeObject) \ DECL_RELEASE_SETTER(name, MaybeObject) #define DECL_CAST(Type) \ V8_INLINE static Type cast(Object object); \ V8_INLINE static Type unchecked_cast(Object object) { \ return bit_cast(object); \ } #define CAST_ACCESSOR(Type) \ Type Type::cast(Object object) { return Type(object.ptr()); } #define INT_ACCESSORS(holder, name, offset) \ int holder::name() const { return ReadField(offset); } \ void holder::set_##name(int value) { WriteField(offset, value); } #define INT32_ACCESSORS(holder, name, offset) \ int32_t holder::name() const { return ReadField(offset); } \ void holder::set_##name(int32_t value) { WriteField(offset, value); } #define RELAXED_INT32_ACCESSORS(holder, name, offset) \ int32_t holder::name() const { \ return RELAXED_READ_INT32_FIELD(*this, offset); \ } \ void holder::set_##name(int32_t value) { \ RELAXED_WRITE_INT32_FIELD(*this, offset, value); \ } #define UINT16_ACCESSORS(holder, name, offset) \ uint16_t holder::name() const { return ReadField(offset); } \ void holder::set_##name(int value) { \ DCHECK_GE(value, 0); \ DCHECK_LE(value, static_cast(-1)); \ WriteField(offset, value); \ } #define UINT8_ACCESSORS(holder, name, offset) \ uint8_t holder::name() const { return ReadField(offset); } \ void holder::set_##name(int value) { \ DCHECK_GE(value, 0); \ DCHECK_LE(value, static_cast(-1)); \ WriteField(offset, value); \ } #define ACCESSORS_CHECKED2(holder, name, type, offset, get_condition, \ set_condition) \ DEF_GETTER(holder, name, type) { \ type value = TaggedField::load(cage_base, *this); \ DCHECK(get_condition); \ return value; \ } \ void holder::set_##name(type value, WriteBarrierMode mode) { \ DCHECK(set_condition); \ TaggedField::store(*this, 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 RENAME_TORQUE_ACCESSORS(holder, name, torque_name, type) \ inline type holder::name() const { \ return TorqueGeneratedClass::torque_name(); \ } \ inline void holder::set_##name(type value, WriteBarrierMode mode) { \ TorqueGeneratedClass::set_##torque_name(value, mode); \ } #define RENAME_UINT16_TORQUE_ACCESSORS(holder, name, torque_name) \ uint16_t holder::name() const { \ return TorqueGeneratedClass::torque_name(); \ } \ void holder::set_##name(int value) { \ DCHECK_EQ(value, static_cast(value)); \ TorqueGeneratedClass::set_##torque_name(value); \ } #define RELAXED_ACCESSORS_CHECKED2(holder, name, type, offset, get_condition, \ set_condition) \ type holder::name(RelaxedLoadTag tag) const { \ PtrComprCageBase cage_base = GetPtrComprCageBase(*this); \ return holder::name(cage_base, tag); \ } \ type holder::name(PtrComprCageBase cage_base, RelaxedLoadTag) const { \ type value = TaggedField::Relaxed_Load(cage_base, *this); \ DCHECK(get_condition); \ return value; \ } \ void holder::set_##name(type value, RelaxedStoreTag, \ WriteBarrierMode mode) { \ DCHECK(set_condition); \ TaggedField::Relaxed_Store(*this, value); \ CONDITIONAL_WRITE_BARRIER(*this, offset, value, mode); \ } #define RELAXED_ACCESSORS_CHECKED(holder, name, type, offset, condition) \ RELAXED_ACCESSORS_CHECKED2(holder, name, type, offset, condition, condition) #define RELAXED_ACCESSORS(holder, name, type, offset) \ RELAXED_ACCESSORS_CHECKED(holder, name, type, offset, true) #define RELEASE_ACQUIRE_ACCESSORS_CHECKED2(holder, name, type, offset, \ get_condition, set_condition) \ type holder::name(AcquireLoadTag tag) const { \ PtrComprCageBase cage_base = GetPtrComprCageBase(*this); \ return holder::name(cage_base, tag); \ } \ type holder::name(PtrComprCageBase cage_base, AcquireLoadTag) const { \ type value = TaggedField::Acquire_Load(cage_base, *this); \ DCHECK(get_condition); \ return value; \ } \ void holder::set_##name(type value, ReleaseStoreTag, \ WriteBarrierMode mode) { \ DCHECK(set_condition); \ TaggedField::Release_Store(*this, value); \ CONDITIONAL_WRITE_BARRIER(*this, offset, value, mode); \ } #define RELEASE_ACQUIRE_ACCESSORS_CHECKED(holder, name, type, offset, \ condition) \ RELEASE_ACQUIRE_ACCESSORS_CHECKED2(holder, name, type, offset, condition, \ condition) #define RELEASE_ACQUIRE_ACCESSORS(holder, name, type, offset) \ RELEASE_ACQUIRE_ACCESSORS_CHECKED(holder, name, type, offset, true) #define WEAK_ACCESSORS_CHECKED2(holder, name, offset, get_condition, \ set_condition) \ DEF_GETTER(holder, name, MaybeObject) { \ MaybeObject value = \ TaggedField::load(cage_base, *this); \ DCHECK(get_condition); \ return value; \ } \ void holder::set_##name(MaybeObject value, WriteBarrierMode mode) { \ DCHECK(set_condition); \ TaggedField::store(*this, 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) #define RELEASE_ACQUIRE_WEAK_ACCESSORS_CHECKED2(holder, name, offset, \ get_condition, set_condition) \ MaybeObject holder::name(AcquireLoadTag tag) const { \ PtrComprCageBase cage_base = GetPtrComprCageBase(*this); \ return holder::name(cage_base, tag); \ } \ MaybeObject holder::name(PtrComprCageBase cage_base, AcquireLoadTag) const { \ MaybeObject value = \ TaggedField::Acquire_Load(cage_base, *this); \ DCHECK(get_condition); \ return value; \ } \ void holder::set_##name(MaybeObject value, ReleaseStoreTag, \ WriteBarrierMode mode) { \ DCHECK(set_condition); \ TaggedField::Release_Store(*this, value); \ CONDITIONAL_WEAK_WRITE_BARRIER(*this, offset, value, mode); \ } #define RELEASE_ACQUIRE_WEAK_ACCESSORS_CHECKED(holder, name, offset, \ condition) \ RELEASE_ACQUIRE_WEAK_ACCESSORS_CHECKED2(holder, name, offset, condition, \ condition) #define RELEASE_ACQUIRE_WEAK_ACCESSORS(holder, name, offset) \ RELEASE_ACQUIRE_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); \ Smi value = TaggedField::load(*this); \ return value.value(); \ } \ void holder::set_##name(int value) { \ DCHECK(condition); \ TaggedField::store(*this, Smi::FromInt(value)); \ } #define SMI_ACCESSORS(holder, name, offset) \ SMI_ACCESSORS_CHECKED(holder, name, offset, true) #define DECL_RELEASE_ACQUIRE_INT_ACCESSORS(name) \ inline int name(AcquireLoadTag) const; \ inline void set_##name(int value, ReleaseStoreTag); #define RELEASE_ACQUIRE_SMI_ACCESSORS(holder, name, offset) \ int holder::name(AcquireLoadTag) const { \ Smi value = TaggedField::Acquire_Load(*this); \ return value.value(); \ } \ void holder::set_##name(int value, ReleaseStoreTag) { \ TaggedField::Release_Store(*this, Smi::FromInt(value)); \ } #define DECL_RELAXED_SMI_ACCESSORS(name) \ inline int name(RelaxedLoadTag) const; \ inline void set_##name(int value, RelaxedStoreTag); #define RELAXED_SMI_ACCESSORS(holder, name, offset) \ int holder::name(RelaxedLoadTag) const { \ Smi value = TaggedField::Relaxed_Load(*this); \ return value.value(); \ } \ void holder::set_##name(int value, RelaxedStoreTag) { \ TaggedField::Relaxed_Store(*this, 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 DECL_RELAXED_BOOL_ACCESSORS(name) \ inline bool name(RelaxedLoadTag) const; \ inline void set_##name(bool value, RelaxedStoreTag); #define RELAXED_BOOL_ACCESSORS(holder, field, name, offset) \ bool holder::name(RelaxedLoadTag) const { \ return BooleanBit::get(field(kRelaxedLoad), offset); \ } \ void holder::set_##name(bool value, RelaxedStoreTag) { \ set_##field(BooleanBit::set(field(kRelaxedLoad), offset, value), \ kRelaxedStore); \ } #define BIT_FIELD_ACCESSORS2(holder, get_field, set_field, name, BitField) \ typename BitField::FieldType holder::name() const { \ return BitField::decode(get_field()); \ } \ void holder::set_##name(typename BitField::FieldType value) { \ set_##set_field(BitField::update(set_field(), value)); \ } #define BIT_FIELD_ACCESSORS(holder, field, name, BitField) \ BIT_FIELD_ACCESSORS2(holder, field, field, name, BitField) #define INSTANCE_TYPE_CHECKER(type, forinstancetype) \ V8_INLINE bool Is##type(InstanceType instance_type) { \ return instance_type == forinstancetype; \ } #define TYPE_CHECKER(type, ...) \ DEF_GETTER(HeapObject, Is##type, bool) { \ return InstanceTypeChecker::Is##type(map(cage_base).instance_type()); \ } #define RELAXED_INT16_ACCESSORS(holder, name, offset) \ int16_t holder::name() const { \ return RELAXED_READ_INT16_FIELD(*this, offset); \ } \ void holder::set_##name(int16_t value) { \ RELAXED_WRITE_INT16_FIELD(*this, offset, value); \ } #define FIELD_ADDR(p, offset) ((p).ptr() + offset - kHeapObjectTag) #define ACQUIRE_READ_FIELD(p, offset) \ TaggedField::Acquire_Load(p, offset) #define RELAXED_READ_FIELD(p, offset) \ TaggedField::Relaxed_Load(p, offset) #define RELAXED_READ_WEAK_FIELD(p, offset) \ TaggedField::Relaxed_Load(p, offset) #define WRITE_FIELD(p, offset, value) \ TaggedField::store(p, offset, value) #define RELEASE_WRITE_FIELD(p, offset, value) \ TaggedField::Release_Store(p, offset, value) #define RELAXED_WRITE_FIELD(p, offset, value) \ TaggedField::Relaxed_Store(p, offset, value) #define RELAXED_WRITE_WEAK_FIELD(p, offset, value) \ TaggedField::Relaxed_Store(p, offset, value) #ifdef V8_DISABLE_WRITE_BARRIERS #define WRITE_BARRIER(object, offset, value) #else #define WRITE_BARRIER(object, offset, value) \ do { \ DCHECK_NOT_NULL(GetHeapFromWritableObject(object)); \ WriteBarrier::Marking(object, (object).RawField(offset), value); \ GenerationalBarrier(object, (object).RawField(offset), value); \ } while (false) #endif #ifdef V8_DISABLE_WRITE_BARRIERS #define WEAK_WRITE_BARRIER(object, offset, value) #else #define WEAK_WRITE_BARRIER(object, offset, value) \ do { \ DCHECK_NOT_NULL(GetHeapFromWritableObject(object)); \ WriteBarrier::Marking(object, (object).RawMaybeWeakField(offset), value); \ GenerationalBarrier(object, (object).RawMaybeWeakField(offset), value); \ } while (false) #endif #ifdef V8_DISABLE_WRITE_BARRIERS #define EPHEMERON_KEY_WRITE_BARRIER(object, offset, value) #elif V8_ENABLE_UNCONDITIONAL_WRITE_BARRIERS #define EPHEMERON_KEY_WRITE_BARRIER(object, offset, value) \ WRITE_BARRIER(object, offset, value) #else #define EPHEMERON_KEY_WRITE_BARRIER(object, offset, value) \ do { \ DCHECK_NOT_NULL(GetHeapFromWritableObject(object)); \ EphemeronHashTable table = EphemeronHashTable::cast(object); \ WriteBarrier::Marking(object, (object).RawField(offset), value); \ GenerationalEphemeronKeyBarrier(table, (object).RawField(offset), value); \ } while (false) #endif #ifdef V8_DISABLE_WRITE_BARRIERS #define CONDITIONAL_WRITE_BARRIER(object, offset, value, mode) #elif V8_ENABLE_UNCONDITIONAL_WRITE_BARRIERS #define CONDITIONAL_WRITE_BARRIER(object, offset, value, mode) \ WRITE_BARRIER(object, offset, value) #else #define CONDITIONAL_WRITE_BARRIER(object, offset, value, mode) \ do { \ DCHECK_NOT_NULL(GetHeapFromWritableObject(object)); \ DCHECK_NE(mode, UPDATE_EPHEMERON_KEY_WRITE_BARRIER); \ if (mode != SKIP_WRITE_BARRIER) { \ if (mode == UPDATE_WRITE_BARRIER) { \ WriteBarrier::Marking(object, (object).RawField(offset), value); \ } \ GenerationalBarrier(object, (object).RawField(offset), value); \ } \ } while (false) #endif #ifdef V8_DISABLE_WRITE_BARRIERS #define CONDITIONAL_WEAK_WRITE_BARRIER(object, offset, value, mode) #elif V8_ENABLE_UNCONDITIONAL_WRITE_BARRIERS #define CONDITIONAL_WEAK_WRITE_BARRIER(object, offset, value, mode) \ WRITE_BARRIER(object, offset, value) #else #define CONDITIONAL_WEAK_WRITE_BARRIER(object, offset, value, mode) \ do { \ DCHECK_NOT_NULL(GetHeapFromWritableObject(object)); \ DCHECK_NE(mode, UPDATE_EPHEMERON_KEY_WRITE_BARRIER); \ if (mode != SKIP_WRITE_BARRIER) { \ if (mode == UPDATE_WRITE_BARRIER) { \ WriteBarrier::Marking(object, (object).RawMaybeWeakField(offset), \ value); \ } \ GenerationalBarrier(object, (object).RawMaybeWeakField(offset), value); \ } \ } while (false) #endif #ifdef V8_DISABLE_WRITE_BARRIERS #define CONDITIONAL_EPHEMERON_KEY_WRITE_BARRIER(object, offset, value, mode) #else #define CONDITIONAL_EPHEMERON_KEY_WRITE_BARRIER(object, offset, value, mode) \ do { \ DCHECK_NOT_NULL(GetHeapFromWritableObject(object)); \ DCHECK_NE(mode, UPDATE_EPHEMERON_KEY_WRITE_BARRIER); \ EphemeronHashTable table = EphemeronHashTable::cast(object); \ if (mode != SKIP_WRITE_BARRIER) { \ if (mode == UPDATE_WRITE_BARRIER) { \ WriteBarrier::Marking(object, (object).RawField(offset), value); \ } \ GenerationalEphemeronKeyBarrier(table, (object).RawField(offset), \ value); \ } \ } while (false) #endif #define ACQUIRE_READ_INT32_FIELD(p, offset) \ static_cast(base::Acquire_Load( \ reinterpret_cast(FIELD_ADDR(p, offset)))) #define RELAXED_WRITE_INT8_FIELD(p, offset, value) \ base::Relaxed_Store(reinterpret_cast(FIELD_ADDR(p, offset)), \ static_cast(value)); #define RELAXED_READ_INT8_FIELD(p, offset) \ static_cast(base::Relaxed_Load( \ reinterpret_cast(FIELD_ADDR(p, offset)))) #define RELAXED_READ_UINT16_FIELD(p, offset) \ static_cast(base::Relaxed_Load( \ reinterpret_cast(FIELD_ADDR(p, offset)))) #define RELAXED_WRITE_UINT16_FIELD(p, offset, value) \ base::Relaxed_Store( \ reinterpret_cast(FIELD_ADDR(p, offset)), \ static_cast(value)); #define RELAXED_READ_INT16_FIELD(p, offset) \ static_cast(base::Relaxed_Load( \ reinterpret_cast(FIELD_ADDR(p, offset)))) #define RELAXED_WRITE_INT16_FIELD(p, offset, value) \ base::Relaxed_Store( \ reinterpret_cast(FIELD_ADDR(p, offset)), \ static_cast(value)); #define RELAXED_READ_UINT32_FIELD(p, offset) \ static_cast(base::Relaxed_Load( \ reinterpret_cast(FIELD_ADDR(p, offset)))) #define ACQUIRE_READ_UINT32_FIELD(p, offset) \ static_cast(base::Acquire_Load( \ reinterpret_cast(FIELD_ADDR(p, offset)))) #define RELAXED_WRITE_UINT32_FIELD(p, offset, value) \ base::Relaxed_Store( \ reinterpret_cast(FIELD_ADDR(p, offset)), \ static_cast(value)); #define RELEASE_WRITE_UINT32_FIELD(p, offset, value) \ base::Release_Store( \ reinterpret_cast(FIELD_ADDR(p, offset)), \ static_cast(value)); #define RELAXED_READ_INT32_FIELD(p, offset) \ static_cast(base::Relaxed_Load( \ reinterpret_cast(FIELD_ADDR(p, offset)))) #define RELEASE_WRITE_INT32_FIELD(p, offset, value) \ base::Release_Store( \ reinterpret_cast(FIELD_ADDR(p, offset)), \ static_cast(value)) #define RELAXED_WRITE_INT32_FIELD(p, offset, value) \ base::Relaxed_Store( \ reinterpret_cast(FIELD_ADDR(p, offset)), \ static_cast(value)) static_assert(sizeof(int) == sizeof(int32_t), "sizeof int must match sizeof int32_t"); #define RELAXED_READ_INT_FIELD(p, offset) RELAXED_READ_INT32_FIELD(p, offset) #define RELAXED_WRITE_INT_FIELD(p, offset, value) \ RELAXED_WRITE_INT32_FIELD(p, offset, value) static_assert(sizeof(unsigned) == sizeof(uint32_t), "sizeof unsigned must match sizeof uint32_t"); #define RELAXED_READ_UINT_FIELD(p, offset) RELAXED_READ_UINT32_FIELD(p, offset) #define RELAXED_WRITE_UINT_FIELD(p, offset, value) \ RELAXED_WRITE_UINT32_FIELD(p, offset, value) #define RELAXED_READ_BYTE_FIELD(p, offset) \ static_cast(base::Relaxed_Load( \ reinterpret_cast(FIELD_ADDR(p, offset)))) #define ACQUIRE_READ_BYTE_FIELD(p, offset) \ static_cast(base::Acquire_Load( \ reinterpret_cast(FIELD_ADDR(p, offset)))) #define RELAXED_WRITE_BYTE_FIELD(p, offset, value) \ base::Relaxed_Store(reinterpret_cast(FIELD_ADDR(p, offset)), \ static_cast(value)); #define RELEASE_WRITE_BYTE_FIELD(p, offset, value) \ base::Release_Store(reinterpret_cast(FIELD_ADDR(p, offset)), \ static_cast(value)); #ifdef OBJECT_PRINT #define DECL_PRINTER(Name) void Name##Print(std::ostream& os); #else #define DECL_PRINTER(Name) #endif #ifdef VERIFY_HEAP #define DECL_VERIFIER(Name) void Name##Verify(Isolate* isolate); #define EXPORT_DECL_VERIFIER(Name) \ V8_EXPORT_PRIVATE void Name##Verify(Isolate* isolate); #else #define DECL_VERIFIER(Name) #define EXPORT_DECL_VERIFIER(Name) #endif #define DEFINE_DEOPT_ELEMENT_ACCESSORS(name, type) \ type DeoptimizationData::name() const { \ 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) const { \ return type::cast(get(IndexForEntry(i) + k##name##Offset)); \ } \ void DeoptimizationData::Set##name(int i, type value) { \ set(IndexForEntry(i) + k##name##Offset, value); \ } #define TQ_OBJECT_CONSTRUCTORS(Type) \ public: \ constexpr Type() = default; \ \ protected: \ template \ friend class TaggedField; \ \ inline explicit Type(Address ptr); \ friend class TorqueGenerated##Type; #define TQ_OBJECT_CONSTRUCTORS_IMPL(Type) \ inline Type::Type(Address ptr) \ : TorqueGenerated##Type(ptr) {}