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// Copyright 2014 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.
#ifndef V8_LAYOUT_DESCRIPTOR_INL_H_
#define V8_LAYOUT_DESCRIPTOR_INL_H_
#include "src/layout-descriptor.h"
namespace v8 {
namespace internal {
LayoutDescriptor* LayoutDescriptor::FromSmi(Smi* smi) {
return LayoutDescriptor::cast(smi);
}
Handle<LayoutDescriptor> LayoutDescriptor::New(Isolate* isolate, int length) {
if (length <= kSmiValueSize) {
// The whole bit vector fits into a smi.
return handle(LayoutDescriptor::FromSmi(Smi::FromInt(0)), isolate);
}
length = GetSlowModeBackingStoreLength(length);
return Handle<LayoutDescriptor>::cast(isolate->factory()->NewFixedTypedArray(
length, kExternalUint32Array, true));
}
bool LayoutDescriptor::InobjectUnboxedField(int inobject_properties,
PropertyDetails details) {
if (details.type() != DATA || !details.representation().IsDouble()) {
return false;
}
// We care only about in-object properties.
return details.field_index() < inobject_properties;
}
LayoutDescriptor* LayoutDescriptor::FastPointerLayout() {
return LayoutDescriptor::FromSmi(Smi::FromInt(0));
}
bool LayoutDescriptor::GetIndexes(int field_index, int* layout_word_index,
int* layout_bit_index) {
if (static_cast<unsigned>(field_index) >= static_cast<unsigned>(capacity())) {
return false;
}
*layout_word_index = field_index / kNumberOfBits;
CHECK((!IsSmi() && (*layout_word_index < length())) ||
(IsSmi() && (*layout_word_index < 1)));
*layout_bit_index = field_index % kNumberOfBits;
return true;
}
LayoutDescriptor* LayoutDescriptor::SetRawData(int field_index) {
return SetTagged(field_index, false);
}
LayoutDescriptor* LayoutDescriptor::SetTagged(int field_index, bool tagged) {
int layout_word_index = 0;
int layout_bit_index = 0;
if (!GetIndexes(field_index, &layout_word_index, &layout_bit_index)) {
CHECK(false);
return this;
}
uint32_t layout_mask = static_cast<uint32_t>(1) << layout_bit_index;
if (IsSlowLayout()) {
uint32_t value = get_scalar(layout_word_index);
if (tagged) {
value &= ~layout_mask;
} else {
value |= layout_mask;
}
set(layout_word_index, value);
return this;
} else {
uint32_t value = static_cast<uint32_t>(Smi::cast(this)->value());
if (tagged) {
value &= ~layout_mask;
} else {
value |= layout_mask;
}
return LayoutDescriptor::FromSmi(Smi::FromInt(static_cast<int>(value)));
}
}
bool LayoutDescriptor::IsTagged(int field_index) {
if (IsFastPointerLayout()) return true;
int layout_word_index;
int layout_bit_index;
if (!GetIndexes(field_index, &layout_word_index, &layout_bit_index)) {
// All bits after Out of bounds queries
return true;
}
uint32_t layout_mask = static_cast<uint32_t>(1) << layout_bit_index;
if (IsSlowLayout()) {
uint32_t value = get_scalar(layout_word_index);
return (value & layout_mask) == 0;
} else {
uint32_t value = static_cast<uint32_t>(Smi::cast(this)->value());
return (value & layout_mask) == 0;
}
}
bool LayoutDescriptor::IsFastPointerLayout() {
return this == FastPointerLayout();
}
bool LayoutDescriptor::IsFastPointerLayout(Object* layout_descriptor) {
return layout_descriptor == FastPointerLayout();
}
bool LayoutDescriptor::IsSlowLayout() { return !IsSmi(); }
int LayoutDescriptor::capacity() {
return IsSlowLayout() ? (length() * kNumberOfBits) : kSmiValueSize;
}
LayoutDescriptor* LayoutDescriptor::cast_gc_safe(Object* object) {
if (object->IsSmi()) {
// Fast mode layout descriptor.
return reinterpret_cast<LayoutDescriptor*>(object);
}
// This is a mixed descriptor which is a fixed typed array.
MapWord map_word = reinterpret_cast<HeapObject*>(object)->map_word();
if (map_word.IsForwardingAddress()) {
// Mark-compact has already moved layout descriptor.
object = map_word.ToForwardingAddress();
}
return LayoutDescriptor::cast(object);
}
int LayoutDescriptor::GetSlowModeBackingStoreLength(int length) {
length = (length + kNumberOfBits - 1) / kNumberOfBits;
DCHECK_LT(0, length);
if (SmiValuesAre32Bits() && (length & 1)) {
// On 64-bit systems if the length is odd then the half-word space would be
// lost anyway (due to alignment and the fact that we are allocating
// uint32-typed array), so we increase the length of allocated array
// to utilize that "lost" space which could also help to avoid layout
// descriptor reallocations.
++length;
}
return length;
}
int LayoutDescriptor::CalculateCapacity(Map* map, DescriptorArray* descriptors,
int num_descriptors) {
int inobject_properties = map->GetInObjectProperties();
if (inobject_properties == 0) return 0;
DCHECK_LE(num_descriptors, descriptors->number_of_descriptors());
int layout_descriptor_length;
const int kMaxWordsPerField = kDoubleSize / kPointerSize;
if (num_descriptors <= kSmiValueSize / kMaxWordsPerField) {
// Even in the "worst" case (all fields are doubles) it would fit into
// a Smi, so no need to calculate length.
layout_descriptor_length = kSmiValueSize;
} else {
layout_descriptor_length = 0;
for (int i = 0; i < num_descriptors; i++) {
PropertyDetails details = descriptors->GetDetails(i);
if (!InobjectUnboxedField(inobject_properties, details)) continue;
int field_index = details.field_index();
int field_width_in_words = details.field_width_in_words();
layout_descriptor_length =
Max(layout_descriptor_length, field_index + field_width_in_words);
}
}
layout_descriptor_length = Min(layout_descriptor_length, inobject_properties);
return layout_descriptor_length;
}
LayoutDescriptor* LayoutDescriptor::Initialize(
LayoutDescriptor* layout_descriptor, Map* map, DescriptorArray* descriptors,
int num_descriptors) {
DisallowHeapAllocation no_allocation;
int inobject_properties = map->GetInObjectProperties();
for (int i = 0; i < num_descriptors; i++) {
PropertyDetails details = descriptors->GetDetails(i);
if (!InobjectUnboxedField(inobject_properties, details)) {
DCHECK(details.location() != kField ||
layout_descriptor->IsTagged(details.field_index()));
continue;
}
int field_index = details.field_index();
layout_descriptor = layout_descriptor->SetRawData(field_index);
if (details.field_width_in_words() > 1) {
layout_descriptor = layout_descriptor->SetRawData(field_index + 1);
}
}
return layout_descriptor;
}
// LayoutDescriptorHelper is a helper class for querying whether inobject
// property at offset is Double or not.
LayoutDescriptorHelper::LayoutDescriptorHelper(Map* map)
: all_fields_tagged_(true),
header_size_(0),
layout_descriptor_(LayoutDescriptor::FastPointerLayout()) {
if (!FLAG_unbox_double_fields) return;
layout_descriptor_ = map->layout_descriptor_gc_safe();
if (layout_descriptor_->IsFastPointerLayout()) {
return;
}
int inobject_properties = map->GetInObjectProperties();
DCHECK(inobject_properties > 0);
header_size_ = map->instance_size() - (inobject_properties * kPointerSize);
DCHECK(header_size_ >= 0);
all_fields_tagged_ = false;
}
bool LayoutDescriptorHelper::IsTagged(int offset_in_bytes) {
DCHECK(IsAligned(offset_in_bytes, kPointerSize));
if (all_fields_tagged_) return true;
// Object headers do not contain non-tagged fields.
if (offset_in_bytes < header_size_) return true;
int field_index = (offset_in_bytes - header_size_) / kPointerSize;
return layout_descriptor_->IsTagged(field_index);
}
} // namespace internal
} // namespace v8
#endif // V8_LAYOUT_DESCRIPTOR_INL_H_