// 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::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 = (length + kNumberOfBits - 1) / kNumberOfBits; DCHECK(length > 0); 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 Handle::cast( isolate->factory()->NewFixedTypedArray(length, kExternalUint32Array)); } 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(field_index) >= static_cast(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::SetTagged(int field_index, bool tagged) { int layout_word_index; int layout_bit_index; if (!GetIndexes(field_index, &layout_word_index, &layout_bit_index)) { CHECK(false); return this; } uint32_t layout_mask = static_cast(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(Smi::cast(this)->value()); if (tagged) { value &= ~layout_mask; } else { value |= layout_mask; } return LayoutDescriptor::FromSmi(Smi::FromInt(static_cast(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(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(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(object); } // This is a mixed descriptor which is a fixed typed array. MapWord map_word = reinterpret_cast(object)->map_word(); if (map_word.IsForwardingAddress()) { // Mark-compact has already moved layout descriptor. object = map_word.ToForwardingAddress(); } return LayoutDescriptor::cast(object); } // InobjectPropertiesHelper 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->inobject_properties(); 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 v8::internal #endif // V8_LAYOUT_DESCRIPTOR_INL_H_