2657e432e4
Adds string-valued name property to symbols, and uses it for pretty-printing. Requires allocating symbols in pointer space, with a custom iterator to skip the unboxed hash. R=mstarzinger@chromium.org BUG= Review URL: https://codereview.chromium.org/12459026 git-svn-id: http://v8.googlecode.com/svn/branches/bleeding_edge@14053 ce2b1a6d-e550-0410-aec6-3dcde31c8c00
464 lines
17 KiB
C++
464 lines
17 KiB
C++
// Copyright 2012 the V8 project authors. All rights reserved.
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// Redistribution and use in source and binary forms, with or without
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// modification, are permitted provided that the following conditions are
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// met:
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//
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// * Redistributions of source code must retain the above copyright
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// notice, this list of conditions and the following disclaimer.
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// * Redistributions in binary form must reproduce the above
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// copyright notice, this list of conditions and the following
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// disclaimer in the documentation and/or other materials provided
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// with the distribution.
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// * Neither the name of Google Inc. nor the names of its
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// contributors may be used to endorse or promote products derived
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// from this software without specific prior written permission.
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//
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// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
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// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
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// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
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// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
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// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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#ifndef V8_OBJECTS_VISITING_H_
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#define V8_OBJECTS_VISITING_H_
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#include "allocation.h"
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// This file provides base classes and auxiliary methods for defining
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// static object visitors used during GC.
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// Visiting HeapObject body with a normal ObjectVisitor requires performing
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// two switches on object's instance type to determine object size and layout
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// and one or more virtual method calls on visitor itself.
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// Static visitor is different: it provides a dispatch table which contains
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// pointers to specialized visit functions. Each map has the visitor_id
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// field which contains an index of specialized visitor to use.
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namespace v8 {
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namespace internal {
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// Base class for all static visitors.
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class StaticVisitorBase : public AllStatic {
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public:
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#define VISITOR_ID_LIST(V) \
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V(SeqOneByteString) \
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V(SeqTwoByteString) \
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V(ShortcutCandidate) \
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V(ByteArray) \
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V(FreeSpace) \
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V(FixedArray) \
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V(FixedDoubleArray) \
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V(NativeContext) \
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V(DataObject2) \
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V(DataObject3) \
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V(DataObject4) \
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V(DataObject5) \
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V(DataObject6) \
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V(DataObject7) \
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V(DataObject8) \
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V(DataObject9) \
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V(DataObjectGeneric) \
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V(JSObject2) \
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V(JSObject3) \
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V(JSObject4) \
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V(JSObject5) \
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V(JSObject6) \
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V(JSObject7) \
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V(JSObject8) \
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V(JSObject9) \
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V(JSObjectGeneric) \
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V(Struct2) \
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V(Struct3) \
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V(Struct4) \
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V(Struct5) \
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V(Struct6) \
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V(Struct7) \
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V(Struct8) \
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V(Struct9) \
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V(StructGeneric) \
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V(ConsString) \
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V(SlicedString) \
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V(Symbol) \
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V(Oddball) \
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V(Code) \
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V(Map) \
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V(PropertyCell) \
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V(SharedFunctionInfo) \
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V(JSFunction) \
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V(JSWeakMap) \
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V(JSRegExp)
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// For data objects, JS objects and structs along with generic visitor which
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// can visit object of any size we provide visitors specialized by
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// object size in words.
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// Ids of specialized visitors are declared in a linear order (without
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// holes) starting from the id of visitor specialized for 2 words objects
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// (base visitor id) and ending with the id of generic visitor.
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// Method GetVisitorIdForSize depends on this ordering to calculate visitor
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// id of specialized visitor from given instance size, base visitor id and
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// generic visitor's id.
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enum VisitorId {
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#define VISITOR_ID_ENUM_DECL(id) kVisit##id,
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VISITOR_ID_LIST(VISITOR_ID_ENUM_DECL)
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#undef VISITOR_ID_ENUM_DECL
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kVisitorIdCount,
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kVisitDataObject = kVisitDataObject2,
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kVisitJSObject = kVisitJSObject2,
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kVisitStruct = kVisitStruct2,
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kMinObjectSizeInWords = 2
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};
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// Visitor ID should fit in one byte.
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STATIC_ASSERT(kVisitorIdCount <= 256);
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// Determine which specialized visitor should be used for given instance type
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// and instance type.
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static VisitorId GetVisitorId(int instance_type, int instance_size);
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static VisitorId GetVisitorId(Map* map) {
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return GetVisitorId(map->instance_type(), map->instance_size());
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}
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// For visitors that allow specialization by size calculate VisitorId based
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// on size, base visitor id and generic visitor id.
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static VisitorId GetVisitorIdForSize(VisitorId base,
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VisitorId generic,
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int object_size) {
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ASSERT((base == kVisitDataObject) ||
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(base == kVisitStruct) ||
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(base == kVisitJSObject));
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ASSERT(IsAligned(object_size, kPointerSize));
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ASSERT(kMinObjectSizeInWords * kPointerSize <= object_size);
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ASSERT(object_size < Page::kMaxNonCodeHeapObjectSize);
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const VisitorId specialization = static_cast<VisitorId>(
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base + (object_size >> kPointerSizeLog2) - kMinObjectSizeInWords);
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return Min(specialization, generic);
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}
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};
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template<typename Callback>
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class VisitorDispatchTable {
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public:
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void CopyFrom(VisitorDispatchTable* other) {
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// We are not using memcpy to guarantee that during update
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// every element of callbacks_ array will remain correct
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// pointer (memcpy might be implemented as a byte copying loop).
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for (int i = 0; i < StaticVisitorBase::kVisitorIdCount; i++) {
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NoBarrier_Store(&callbacks_[i], other->callbacks_[i]);
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}
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}
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inline Callback GetVisitorById(StaticVisitorBase::VisitorId id) {
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return reinterpret_cast<Callback>(callbacks_[id]);
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}
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inline Callback GetVisitor(Map* map) {
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return reinterpret_cast<Callback>(callbacks_[map->visitor_id()]);
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}
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void Register(StaticVisitorBase::VisitorId id, Callback callback) {
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ASSERT(id < StaticVisitorBase::kVisitorIdCount); // id is unsigned.
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callbacks_[id] = reinterpret_cast<AtomicWord>(callback);
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}
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template<typename Visitor,
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StaticVisitorBase::VisitorId base,
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StaticVisitorBase::VisitorId generic,
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int object_size_in_words>
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void RegisterSpecialization() {
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static const int size = object_size_in_words * kPointerSize;
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Register(StaticVisitorBase::GetVisitorIdForSize(base, generic, size),
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&Visitor::template VisitSpecialized<size>);
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}
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template<typename Visitor,
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StaticVisitorBase::VisitorId base,
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StaticVisitorBase::VisitorId generic>
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void RegisterSpecializations() {
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STATIC_ASSERT(
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(generic - base + StaticVisitorBase::kMinObjectSizeInWords) == 10);
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RegisterSpecialization<Visitor, base, generic, 2>();
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RegisterSpecialization<Visitor, base, generic, 3>();
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RegisterSpecialization<Visitor, base, generic, 4>();
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RegisterSpecialization<Visitor, base, generic, 5>();
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RegisterSpecialization<Visitor, base, generic, 6>();
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RegisterSpecialization<Visitor, base, generic, 7>();
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RegisterSpecialization<Visitor, base, generic, 8>();
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RegisterSpecialization<Visitor, base, generic, 9>();
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Register(generic, &Visitor::Visit);
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}
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private:
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AtomicWord callbacks_[StaticVisitorBase::kVisitorIdCount];
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};
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template<typename StaticVisitor>
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class BodyVisitorBase : public AllStatic {
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public:
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INLINE(static void IteratePointers(Heap* heap,
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HeapObject* object,
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int start_offset,
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int end_offset)) {
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Object** start_slot = reinterpret_cast<Object**>(object->address() +
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start_offset);
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Object** end_slot = reinterpret_cast<Object**>(object->address() +
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end_offset);
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StaticVisitor::VisitPointers(heap, start_slot, end_slot);
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}
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};
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template<typename StaticVisitor, typename BodyDescriptor, typename ReturnType>
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class FlexibleBodyVisitor : public BodyVisitorBase<StaticVisitor> {
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public:
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INLINE(static ReturnType Visit(Map* map, HeapObject* object)) {
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int object_size = BodyDescriptor::SizeOf(map, object);
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BodyVisitorBase<StaticVisitor>::IteratePointers(
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map->GetHeap(),
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object,
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BodyDescriptor::kStartOffset,
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object_size);
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return static_cast<ReturnType>(object_size);
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}
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template<int object_size>
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static inline ReturnType VisitSpecialized(Map* map, HeapObject* object) {
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ASSERT(BodyDescriptor::SizeOf(map, object) == object_size);
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BodyVisitorBase<StaticVisitor>::IteratePointers(
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map->GetHeap(),
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object,
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BodyDescriptor::kStartOffset,
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object_size);
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return static_cast<ReturnType>(object_size);
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}
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};
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template<typename StaticVisitor, typename BodyDescriptor, typename ReturnType>
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class FixedBodyVisitor : public BodyVisitorBase<StaticVisitor> {
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public:
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INLINE(static ReturnType Visit(Map* map, HeapObject* object)) {
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BodyVisitorBase<StaticVisitor>::IteratePointers(
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map->GetHeap(),
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object,
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BodyDescriptor::kStartOffset,
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BodyDescriptor::kEndOffset);
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return static_cast<ReturnType>(BodyDescriptor::kSize);
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}
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};
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// Base class for visitors used for a linear new space iteration.
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// IterateBody returns size of visited object.
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// Certain types of objects (i.e. Code objects) are not handled
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// by dispatch table of this visitor because they cannot appear
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// in the new space.
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//
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// This class is intended to be used in the following way:
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//
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// class SomeVisitor : public StaticNewSpaceVisitor<SomeVisitor> {
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// ...
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// }
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//
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// This is an example of Curiously recurring template pattern
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// (see http://en.wikipedia.org/wiki/Curiously_recurring_template_pattern).
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// We use CRTP to guarantee aggressive compile time optimizations (i.e.
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// inlining and specialization of StaticVisitor::VisitPointers methods).
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template<typename StaticVisitor>
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class StaticNewSpaceVisitor : public StaticVisitorBase {
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public:
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static void Initialize();
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INLINE(static int IterateBody(Map* map, HeapObject* obj)) {
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return table_.GetVisitor(map)(map, obj);
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}
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INLINE(static void VisitPointers(Heap* heap, Object** start, Object** end)) {
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for (Object** p = start; p < end; p++) StaticVisitor::VisitPointer(heap, p);
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}
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private:
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INLINE(static int VisitJSFunction(Map* map, HeapObject* object)) {
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Heap* heap = map->GetHeap();
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VisitPointers(heap,
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HeapObject::RawField(object, JSFunction::kPropertiesOffset),
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HeapObject::RawField(object, JSFunction::kCodeEntryOffset));
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// Don't visit code entry. We are using this visitor only during scavenges.
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VisitPointers(
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heap,
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HeapObject::RawField(object,
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JSFunction::kCodeEntryOffset + kPointerSize),
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HeapObject::RawField(object,
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JSFunction::kNonWeakFieldsEndOffset));
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return JSFunction::kSize;
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}
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INLINE(static int VisitByteArray(Map* map, HeapObject* object)) {
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return reinterpret_cast<ByteArray*>(object)->ByteArraySize();
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}
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INLINE(static int VisitFixedDoubleArray(Map* map, HeapObject* object)) {
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int length = reinterpret_cast<FixedDoubleArray*>(object)->length();
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return FixedDoubleArray::SizeFor(length);
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}
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INLINE(static int VisitJSObject(Map* map, HeapObject* object)) {
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return JSObjectVisitor::Visit(map, object);
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}
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INLINE(static int VisitSeqOneByteString(Map* map, HeapObject* object)) {
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return SeqOneByteString::cast(object)->
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SeqOneByteStringSize(map->instance_type());
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}
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INLINE(static int VisitSeqTwoByteString(Map* map, HeapObject* object)) {
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return SeqTwoByteString::cast(object)->
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SeqTwoByteStringSize(map->instance_type());
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}
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INLINE(static int VisitFreeSpace(Map* map, HeapObject* object)) {
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return FreeSpace::cast(object)->Size();
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}
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class DataObjectVisitor {
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public:
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template<int object_size>
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static inline int VisitSpecialized(Map* map, HeapObject* object) {
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return object_size;
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}
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INLINE(static int Visit(Map* map, HeapObject* object)) {
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return map->instance_size();
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}
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};
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typedef FlexibleBodyVisitor<StaticVisitor,
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StructBodyDescriptor,
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int> StructVisitor;
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typedef FlexibleBodyVisitor<StaticVisitor,
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JSObject::BodyDescriptor,
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int> JSObjectVisitor;
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typedef int (*Callback)(Map* map, HeapObject* object);
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static VisitorDispatchTable<Callback> table_;
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};
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template<typename StaticVisitor>
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VisitorDispatchTable<typename StaticNewSpaceVisitor<StaticVisitor>::Callback>
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StaticNewSpaceVisitor<StaticVisitor>::table_;
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// Base class for visitors used to transitively mark the entire heap.
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// IterateBody returns nothing.
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// Certain types of objects might not be handled by this base class and
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// no visitor function is registered by the generic initialization. A
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// specialized visitor function needs to be provided by the inheriting
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// class itself for those cases.
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//
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// This class is intended to be used in the following way:
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//
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// class SomeVisitor : public StaticMarkingVisitor<SomeVisitor> {
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// ...
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// }
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//
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// This is an example of Curiously recurring template pattern.
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template<typename StaticVisitor>
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class StaticMarkingVisitor : public StaticVisitorBase {
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public:
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static void Initialize();
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INLINE(static void IterateBody(Map* map, HeapObject* obj)) {
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table_.GetVisitor(map)(map, obj);
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}
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INLINE(static void VisitCodeEntry(Heap* heap, Address entry_address));
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INLINE(static void VisitEmbeddedPointer(Heap* heap, RelocInfo* rinfo));
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INLINE(static void VisitGlobalPropertyCell(Heap* heap, RelocInfo* rinfo));
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INLINE(static void VisitDebugTarget(Heap* heap, RelocInfo* rinfo));
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INLINE(static void VisitCodeTarget(Heap* heap, RelocInfo* rinfo));
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INLINE(static void VisitCodeAgeSequence(Heap* heap, RelocInfo* rinfo));
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INLINE(static void VisitExternalReference(RelocInfo* rinfo)) { }
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INLINE(static void VisitRuntimeEntry(RelocInfo* rinfo)) { }
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// TODO(mstarzinger): This should be made protected once refactoring is done.
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// Mark non-optimize code for functions inlined into the given optimized
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// code. This will prevent it from being flushed.
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static void MarkInlinedFunctionsCode(Heap* heap, Code* code);
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protected:
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INLINE(static void VisitMap(Map* map, HeapObject* object));
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INLINE(static void VisitCode(Map* map, HeapObject* object));
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INLINE(static void VisitSharedFunctionInfo(Map* map, HeapObject* object));
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INLINE(static void VisitJSFunction(Map* map, HeapObject* object));
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INLINE(static void VisitJSRegExp(Map* map, HeapObject* object));
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INLINE(static void VisitNativeContext(Map* map, HeapObject* object));
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// Mark pointers in a Map and its TransitionArray together, possibly
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// treating transitions or back pointers weak.
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static void MarkMapContents(Heap* heap, Map* map);
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static void MarkTransitionArray(Heap* heap, TransitionArray* transitions);
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// Code flushing support.
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INLINE(static bool IsFlushable(Heap* heap, JSFunction* function));
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INLINE(static bool IsFlushable(Heap* heap, SharedFunctionInfo* shared_info));
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// Helpers used by code flushing support that visit pointer fields and treat
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// references to code objects either strongly or weakly.
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static void VisitSharedFunctionInfoStrongCode(Heap* heap, HeapObject* object);
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static void VisitSharedFunctionInfoWeakCode(Heap* heap, HeapObject* object);
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static void VisitJSFunctionStrongCode(Heap* heap, HeapObject* object);
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static void VisitJSFunctionWeakCode(Heap* heap, HeapObject* object);
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class DataObjectVisitor {
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public:
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template<int size>
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static inline void VisitSpecialized(Map* map, HeapObject* object) {
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}
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INLINE(static void Visit(Map* map, HeapObject* object)) {
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}
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};
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typedef FlexibleBodyVisitor<StaticVisitor,
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FixedArray::BodyDescriptor,
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void> FixedArrayVisitor;
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typedef FlexibleBodyVisitor<StaticVisitor,
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JSObject::BodyDescriptor,
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void> JSObjectVisitor;
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typedef FlexibleBodyVisitor<StaticVisitor,
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StructBodyDescriptor,
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void> StructObjectVisitor;
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typedef void (*Callback)(Map* map, HeapObject* object);
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static VisitorDispatchTable<Callback> table_;
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};
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template<typename StaticVisitor>
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VisitorDispatchTable<typename StaticMarkingVisitor<StaticVisitor>::Callback>
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StaticMarkingVisitor<StaticVisitor>::table_;
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} } // namespace v8::internal
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#endif // V8_OBJECTS_VISITING_H_
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