v8/src/address-map.h
lpy 2fd55667a6 Move hashmap into src/base.
We ported hashmap.h into libsampler as a workaround before, so the main focus of
this patch is to reduce code duplication. This patch moves the hashmap into
src/base as well as creates DefaultAllocationPolicy using malloc and free.

BUG=v8:5050
LOG=n

Review-Url: https://codereview.chromium.org/2010243003
Cr-Commit-Position: refs/heads/master@{#36873}
2016-06-09 18:00:31 +00:00

217 lines
6.7 KiB
C++

// Copyright 2015 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_ADDRESS_MAP_H_
#define V8_ADDRESS_MAP_H_
#include "src/assert-scope.h"
#include "src/base/hashmap.h"
#include "src/objects.h"
namespace v8 {
namespace internal {
class AddressMapBase {
protected:
static void SetValue(base::HashMap::Entry* entry, uint32_t v) {
entry->value = reinterpret_cast<void*>(v);
}
static uint32_t GetValue(base::HashMap::Entry* entry) {
return static_cast<uint32_t>(reinterpret_cast<intptr_t>(entry->value));
}
inline static base::HashMap::Entry* LookupEntry(base::HashMap* map,
HeapObject* obj,
bool insert) {
if (insert) {
map->LookupOrInsert(Key(obj), Hash(obj));
}
return map->Lookup(Key(obj), Hash(obj));
}
private:
static uint32_t Hash(HeapObject* obj) {
return static_cast<int32_t>(reinterpret_cast<intptr_t>(obj->address()));
}
static void* Key(HeapObject* obj) {
return reinterpret_cast<void*>(obj->address());
}
};
class RootIndexMap : public AddressMapBase {
public:
explicit RootIndexMap(Isolate* isolate);
static const int kInvalidRootIndex = -1;
int Lookup(HeapObject* obj) {
base::HashMap::Entry* entry = LookupEntry(map_, obj, false);
if (entry) return GetValue(entry);
return kInvalidRootIndex;
}
private:
base::HashMap* map_;
DISALLOW_COPY_AND_ASSIGN(RootIndexMap);
};
class SerializerReference {
public:
SerializerReference() : bitfield_(Special(kInvalidValue)) {}
static SerializerReference FromBitfield(uint32_t bitfield) {
return SerializerReference(bitfield);
}
static SerializerReference BackReference(AllocationSpace space,
uint32_t chunk_index,
uint32_t chunk_offset) {
DCHECK(IsAligned(chunk_offset, kObjectAlignment));
DCHECK_NE(LO_SPACE, space);
return SerializerReference(
SpaceBits::encode(space) | ChunkIndexBits::encode(chunk_index) |
ChunkOffsetBits::encode(chunk_offset >> kObjectAlignmentBits));
}
static SerializerReference LargeObjectReference(uint32_t index) {
return SerializerReference(SpaceBits::encode(LO_SPACE) |
ValueIndexBits::encode(index));
}
static SerializerReference AttachedReference(uint32_t index) {
return SerializerReference(SpaceBits::encode(kAttachedReferenceSpace) |
ValueIndexBits::encode(index));
}
static SerializerReference DummyReference() {
return SerializerReference(Special(kDummyValue));
}
bool is_valid() const { return bitfield_ != Special(kInvalidValue); }
bool is_back_reference() const {
return SpaceBits::decode(bitfield_) <= LAST_SPACE;
}
AllocationSpace space() const {
DCHECK(is_back_reference());
return static_cast<AllocationSpace>(SpaceBits::decode(bitfield_));
}
uint32_t chunk_offset() const {
DCHECK(is_back_reference());
return ChunkOffsetBits::decode(bitfield_) << kObjectAlignmentBits;
}
uint32_t large_object_index() const {
DCHECK(is_back_reference());
DCHECK(chunk_index() == 0);
return ChunkOffsetBits::decode(bitfield_);
}
uint32_t chunk_index() const {
DCHECK(is_back_reference());
return ChunkIndexBits::decode(bitfield_);
}
uint32_t back_reference() const {
DCHECK(is_back_reference());
return bitfield_ & (ChunkOffsetBits::kMask | ChunkIndexBits::kMask);
}
bool is_attached_reference() const {
return SpaceBits::decode(bitfield_) == kAttachedReferenceSpace;
}
int attached_reference_index() const {
DCHECK(is_attached_reference());
return ValueIndexBits::decode(bitfield_);
}
private:
explicit SerializerReference(uint32_t bitfield) : bitfield_(bitfield) {}
inline static uint32_t Special(int value) {
return SpaceBits::encode(kSpecialValueSpace) |
ValueIndexBits::encode(value);
}
// We use the 32-bit bitfield to encode either a back reference, a special
// value, or an attached reference index.
// Back reference:
// [ Space index ] [ Chunk index ] [ Chunk offset ]
// [ LO_SPACE ] [ large object index ]
// Special value
// [ kSpecialValueSpace ] [ Special value index ]
// Attached reference
// [ kAttachedReferenceSpace ] [ Attached reference index ]
static const int kChunkOffsetSize = kPageSizeBits - kObjectAlignmentBits;
static const int kChunkIndexSize = 32 - kChunkOffsetSize - kSpaceTagSize;
static const int kValueIndexSize = kChunkOffsetSize + kChunkIndexSize;
static const int kSpecialValueSpace = LAST_SPACE + 1;
static const int kAttachedReferenceSpace = kSpecialValueSpace + 1;
STATIC_ASSERT(kAttachedReferenceSpace < (1 << kSpaceTagSize));
static const int kInvalidValue = 0;
static const int kDummyValue = 1;
// The chunk offset can also be used to encode the index of special values.
class ChunkOffsetBits : public BitField<uint32_t, 0, kChunkOffsetSize> {};
class ChunkIndexBits
: public BitField<uint32_t, ChunkOffsetBits::kNext, kChunkIndexSize> {};
class ValueIndexBits : public BitField<uint32_t, 0, kValueIndexSize> {};
STATIC_ASSERT(ChunkIndexBits::kNext == ValueIndexBits::kNext);
class SpaceBits : public BitField<int, kValueIndexSize, kSpaceTagSize> {};
STATIC_ASSERT(SpaceBits::kNext == 32);
uint32_t bitfield_;
friend class SerializerReferenceMap;
};
// Mapping objects to their location after deserialization.
// This is used during building, but not at runtime by V8.
class SerializerReferenceMap : public AddressMapBase {
public:
SerializerReferenceMap()
: no_allocation_(),
map_(base::HashMap::PointersMatch),
attached_reference_index_(0) {}
SerializerReference Lookup(HeapObject* obj) {
base::HashMap::Entry* entry = LookupEntry(&map_, obj, false);
return entry ? SerializerReference(GetValue(entry)) : SerializerReference();
}
void Add(HeapObject* obj, SerializerReference b) {
DCHECK(b.is_valid());
DCHECK_NULL(LookupEntry(&map_, obj, false));
base::HashMap::Entry* entry = LookupEntry(&map_, obj, true);
SetValue(entry, b.bitfield_);
}
SerializerReference AddAttachedReference(HeapObject* attached_reference) {
SerializerReference reference =
SerializerReference::AttachedReference(attached_reference_index_++);
Add(attached_reference, reference);
return reference;
}
private:
DisallowHeapAllocation no_allocation_;
base::HashMap map_;
int attached_reference_index_;
DISALLOW_COPY_AND_ASSIGN(SerializerReferenceMap);
};
} // namespace internal
} // namespace v8
#endif // V8_ADDRESS_MAP_H_