ed51f6f22f
R=hpayer@chromium.org BUG=chromium:380068 LOG=N Review URL: https://codereview.chromium.org/310783003 git-svn-id: https://v8.googlecode.com/svn/branches/bleeding_edge@21655 ce2b1a6d-e550-0410-aec6-3dcde31c8c00
970 lines
35 KiB
C++
970 lines
35 KiB
C++
// Copyright 2012 the V8 project authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#ifndef V8_OBJECTS_VISITING_INL_H_
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#define V8_OBJECTS_VISITING_INL_H_
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namespace v8 {
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namespace internal {
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template<typename StaticVisitor>
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void StaticNewSpaceVisitor<StaticVisitor>::Initialize() {
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table_.Register(kVisitShortcutCandidate,
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&FixedBodyVisitor<StaticVisitor,
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ConsString::BodyDescriptor,
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int>::Visit);
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table_.Register(kVisitConsString,
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&FixedBodyVisitor<StaticVisitor,
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ConsString::BodyDescriptor,
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int>::Visit);
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table_.Register(kVisitSlicedString,
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&FixedBodyVisitor<StaticVisitor,
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SlicedString::BodyDescriptor,
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int>::Visit);
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table_.Register(kVisitSymbol,
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&FixedBodyVisitor<StaticVisitor,
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Symbol::BodyDescriptor,
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int>::Visit);
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table_.Register(kVisitFixedArray,
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&FlexibleBodyVisitor<StaticVisitor,
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FixedArray::BodyDescriptor,
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int>::Visit);
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table_.Register(kVisitFixedDoubleArray, &VisitFixedDoubleArray);
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table_.Register(kVisitFixedTypedArray, &VisitFixedTypedArray);
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table_.Register(kVisitFixedFloat64Array, &VisitFixedTypedArray);
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table_.Register(kVisitNativeContext,
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&FixedBodyVisitor<StaticVisitor,
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Context::ScavengeBodyDescriptor,
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int>::Visit);
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table_.Register(kVisitByteArray, &VisitByteArray);
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table_.Register(kVisitSharedFunctionInfo,
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&FixedBodyVisitor<StaticVisitor,
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SharedFunctionInfo::BodyDescriptor,
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int>::Visit);
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table_.Register(kVisitSeqOneByteString, &VisitSeqOneByteString);
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table_.Register(kVisitSeqTwoByteString, &VisitSeqTwoByteString);
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table_.Register(kVisitJSFunction, &VisitJSFunction);
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table_.Register(kVisitJSArrayBuffer, &VisitJSArrayBuffer);
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table_.Register(kVisitJSTypedArray, &VisitJSTypedArray);
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table_.Register(kVisitJSDataView, &VisitJSDataView);
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table_.Register(kVisitFreeSpace, &VisitFreeSpace);
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table_.Register(kVisitJSWeakCollection, &JSObjectVisitor::Visit);
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table_.Register(kVisitJSRegExp, &JSObjectVisitor::Visit);
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table_.template RegisterSpecializations<DataObjectVisitor,
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kVisitDataObject,
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kVisitDataObjectGeneric>();
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table_.template RegisterSpecializations<JSObjectVisitor,
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kVisitJSObject,
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kVisitJSObjectGeneric>();
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table_.template RegisterSpecializations<StructVisitor,
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kVisitStruct,
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kVisitStructGeneric>();
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}
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template<typename StaticVisitor>
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int StaticNewSpaceVisitor<StaticVisitor>::VisitJSArrayBuffer(
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Map* map, HeapObject* object) {
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Heap* heap = map->GetHeap();
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STATIC_ASSERT(
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JSArrayBuffer::kWeakFirstViewOffset ==
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JSArrayBuffer::kWeakNextOffset + kPointerSize);
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VisitPointers(
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heap,
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HeapObject::RawField(object, JSArrayBuffer::BodyDescriptor::kStartOffset),
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HeapObject::RawField(object, JSArrayBuffer::kWeakNextOffset));
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VisitPointers(
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heap,
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HeapObject::RawField(object,
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JSArrayBuffer::kWeakNextOffset + 2 * kPointerSize),
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HeapObject::RawField(object, JSArrayBuffer::kSizeWithInternalFields));
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return JSArrayBuffer::kSizeWithInternalFields;
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}
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template<typename StaticVisitor>
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int StaticNewSpaceVisitor<StaticVisitor>::VisitJSTypedArray(
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Map* map, HeapObject* object) {
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VisitPointers(
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map->GetHeap(),
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HeapObject::RawField(object, JSTypedArray::BodyDescriptor::kStartOffset),
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HeapObject::RawField(object, JSTypedArray::kWeakNextOffset));
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VisitPointers(
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map->GetHeap(),
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HeapObject::RawField(object,
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JSTypedArray::kWeakNextOffset + kPointerSize),
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HeapObject::RawField(object, JSTypedArray::kSizeWithInternalFields));
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return JSTypedArray::kSizeWithInternalFields;
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}
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template<typename StaticVisitor>
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int StaticNewSpaceVisitor<StaticVisitor>::VisitJSDataView(
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Map* map, HeapObject* object) {
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VisitPointers(
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map->GetHeap(),
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HeapObject::RawField(object, JSDataView::BodyDescriptor::kStartOffset),
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HeapObject::RawField(object, JSDataView::kWeakNextOffset));
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VisitPointers(
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map->GetHeap(),
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HeapObject::RawField(object,
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JSDataView::kWeakNextOffset + kPointerSize),
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HeapObject::RawField(object, JSDataView::kSizeWithInternalFields));
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return JSDataView::kSizeWithInternalFields;
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}
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template<typename StaticVisitor>
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void StaticMarkingVisitor<StaticVisitor>::Initialize() {
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table_.Register(kVisitShortcutCandidate,
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&FixedBodyVisitor<StaticVisitor,
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ConsString::BodyDescriptor,
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void>::Visit);
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table_.Register(kVisitConsString,
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&FixedBodyVisitor<StaticVisitor,
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ConsString::BodyDescriptor,
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void>::Visit);
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table_.Register(kVisitSlicedString,
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&FixedBodyVisitor<StaticVisitor,
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SlicedString::BodyDescriptor,
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void>::Visit);
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table_.Register(kVisitSymbol,
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&FixedBodyVisitor<StaticVisitor,
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Symbol::BodyDescriptor,
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void>::Visit);
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table_.Register(kVisitFixedArray, &FixedArrayVisitor::Visit);
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table_.Register(kVisitFixedDoubleArray, &DataObjectVisitor::Visit);
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table_.Register(kVisitFixedTypedArray, &DataObjectVisitor::Visit);
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table_.Register(kVisitFixedFloat64Array, &DataObjectVisitor::Visit);
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table_.Register(kVisitConstantPoolArray, &VisitConstantPoolArray);
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table_.Register(kVisitNativeContext, &VisitNativeContext);
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table_.Register(kVisitAllocationSite, &VisitAllocationSite);
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table_.Register(kVisitByteArray, &DataObjectVisitor::Visit);
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table_.Register(kVisitFreeSpace, &DataObjectVisitor::Visit);
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table_.Register(kVisitSeqOneByteString, &DataObjectVisitor::Visit);
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table_.Register(kVisitSeqTwoByteString, &DataObjectVisitor::Visit);
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table_.Register(kVisitJSWeakCollection, &VisitWeakCollection);
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table_.Register(kVisitOddball,
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&FixedBodyVisitor<StaticVisitor,
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Oddball::BodyDescriptor,
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void>::Visit);
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table_.Register(kVisitMap, &VisitMap);
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table_.Register(kVisitCode, &VisitCode);
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table_.Register(kVisitSharedFunctionInfo, &VisitSharedFunctionInfo);
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table_.Register(kVisitJSFunction, &VisitJSFunction);
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table_.Register(kVisitJSArrayBuffer, &VisitJSArrayBuffer);
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table_.Register(kVisitJSTypedArray, &VisitJSTypedArray);
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table_.Register(kVisitJSDataView, &VisitJSDataView);
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// Registration for kVisitJSRegExp is done by StaticVisitor.
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table_.Register(kVisitCell,
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&FixedBodyVisitor<StaticVisitor,
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Cell::BodyDescriptor,
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void>::Visit);
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table_.Register(kVisitPropertyCell, &VisitPropertyCell);
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table_.template RegisterSpecializations<DataObjectVisitor,
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kVisitDataObject,
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kVisitDataObjectGeneric>();
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table_.template RegisterSpecializations<JSObjectVisitor,
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kVisitJSObject,
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kVisitJSObjectGeneric>();
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table_.template RegisterSpecializations<StructObjectVisitor,
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kVisitStruct,
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kVisitStructGeneric>();
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}
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template<typename StaticVisitor>
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void StaticMarkingVisitor<StaticVisitor>::VisitCodeEntry(
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Heap* heap, Address entry_address) {
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Code* code = Code::cast(Code::GetObjectFromEntryAddress(entry_address));
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heap->mark_compact_collector()->RecordCodeEntrySlot(entry_address, code);
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StaticVisitor::MarkObject(heap, code);
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}
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template<typename StaticVisitor>
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void StaticMarkingVisitor<StaticVisitor>::VisitEmbeddedPointer(
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Heap* heap, RelocInfo* rinfo) {
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ASSERT(rinfo->rmode() == RelocInfo::EMBEDDED_OBJECT);
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ASSERT(!rinfo->target_object()->IsConsString());
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HeapObject* object = HeapObject::cast(rinfo->target_object());
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heap->mark_compact_collector()->RecordRelocSlot(rinfo, object);
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// TODO(ulan): It could be better to record slots only for strongly embedded
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// objects here and record slots for weakly embedded object during clearing
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// of non-live references in mark-compact.
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if (!rinfo->host()->IsWeakObject(object)) {
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StaticVisitor::MarkObject(heap, object);
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}
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}
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template<typename StaticVisitor>
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void StaticMarkingVisitor<StaticVisitor>::VisitCell(
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Heap* heap, RelocInfo* rinfo) {
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ASSERT(rinfo->rmode() == RelocInfo::CELL);
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Cell* cell = rinfo->target_cell();
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// No need to record slots because the cell space is not compacted during GC.
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if (!rinfo->host()->IsWeakObject(cell)) {
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StaticVisitor::MarkObject(heap, cell);
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}
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}
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template<typename StaticVisitor>
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void StaticMarkingVisitor<StaticVisitor>::VisitDebugTarget(
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Heap* heap, RelocInfo* rinfo) {
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ASSERT((RelocInfo::IsJSReturn(rinfo->rmode()) &&
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rinfo->IsPatchedReturnSequence()) ||
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(RelocInfo::IsDebugBreakSlot(rinfo->rmode()) &&
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rinfo->IsPatchedDebugBreakSlotSequence()));
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Code* target = Code::GetCodeFromTargetAddress(rinfo->call_address());
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heap->mark_compact_collector()->RecordRelocSlot(rinfo, target);
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StaticVisitor::MarkObject(heap, target);
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}
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template<typename StaticVisitor>
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void StaticMarkingVisitor<StaticVisitor>::VisitCodeTarget(
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Heap* heap, RelocInfo* rinfo) {
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ASSERT(RelocInfo::IsCodeTarget(rinfo->rmode()));
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Code* target = Code::GetCodeFromTargetAddress(rinfo->target_address());
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// Monomorphic ICs are preserved when possible, but need to be flushed
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// when they might be keeping a Context alive, or when the heap is about
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// to be serialized.
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if (FLAG_cleanup_code_caches_at_gc && target->is_inline_cache_stub()
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&& (target->ic_state() == MEGAMORPHIC || target->ic_state() == GENERIC ||
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target->ic_state() == POLYMORPHIC || heap->flush_monomorphic_ics() ||
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heap->isolate()->serializer_enabled() ||
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target->ic_age() != heap->global_ic_age() ||
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target->is_invalidated_weak_stub())) {
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IC::Clear(heap->isolate(), rinfo->pc(), rinfo->host()->constant_pool());
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target = Code::GetCodeFromTargetAddress(rinfo->target_address());
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}
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heap->mark_compact_collector()->RecordRelocSlot(rinfo, target);
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StaticVisitor::MarkObject(heap, target);
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}
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template<typename StaticVisitor>
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void StaticMarkingVisitor<StaticVisitor>::VisitCodeAgeSequence(
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Heap* heap, RelocInfo* rinfo) {
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ASSERT(RelocInfo::IsCodeAgeSequence(rinfo->rmode()));
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Code* target = rinfo->code_age_stub();
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ASSERT(target != NULL);
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heap->mark_compact_collector()->RecordRelocSlot(rinfo, target);
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StaticVisitor::MarkObject(heap, target);
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}
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template<typename StaticVisitor>
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void StaticMarkingVisitor<StaticVisitor>::VisitNativeContext(
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Map* map, HeapObject* object) {
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FixedBodyVisitor<StaticVisitor,
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Context::MarkCompactBodyDescriptor,
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void>::Visit(map, object);
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MarkCompactCollector* collector = map->GetHeap()->mark_compact_collector();
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for (int idx = Context::FIRST_WEAK_SLOT;
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idx < Context::NATIVE_CONTEXT_SLOTS;
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++idx) {
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Object** slot = Context::cast(object)->RawFieldOfElementAt(idx);
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collector->RecordSlot(slot, slot, *slot);
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}
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}
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template<typename StaticVisitor>
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void StaticMarkingVisitor<StaticVisitor>::VisitMap(
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Map* map, HeapObject* object) {
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Heap* heap = map->GetHeap();
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Map* map_object = Map::cast(object);
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// Clears the cache of ICs related to this map.
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if (FLAG_cleanup_code_caches_at_gc) {
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map_object->ClearCodeCache(heap);
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}
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// When map collection is enabled we have to mark through map's transitions
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// and back pointers in a special way to make these links weak.
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if (FLAG_collect_maps && map_object->CanTransition()) {
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MarkMapContents(heap, map_object);
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} else {
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StaticVisitor::VisitPointers(heap,
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HeapObject::RawField(object, Map::kPointerFieldsBeginOffset),
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HeapObject::RawField(object, Map::kPointerFieldsEndOffset));
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}
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}
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template<typename StaticVisitor>
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void StaticMarkingVisitor<StaticVisitor>::VisitPropertyCell(
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Map* map, HeapObject* object) {
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Heap* heap = map->GetHeap();
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Object** slot =
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HeapObject::RawField(object, PropertyCell::kDependentCodeOffset);
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if (FLAG_collect_maps) {
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// Mark property cell dependent codes array but do not push it onto marking
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// stack, this will make references from it weak. We will clean dead
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// codes when we iterate over property cells in ClearNonLiveReferences.
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HeapObject* obj = HeapObject::cast(*slot);
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heap->mark_compact_collector()->RecordSlot(slot, slot, obj);
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StaticVisitor::MarkObjectWithoutPush(heap, obj);
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} else {
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StaticVisitor::VisitPointer(heap, slot);
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}
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StaticVisitor::VisitPointers(heap,
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HeapObject::RawField(object, PropertyCell::kPointerFieldsBeginOffset),
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HeapObject::RawField(object, PropertyCell::kPointerFieldsEndOffset));
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}
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template<typename StaticVisitor>
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void StaticMarkingVisitor<StaticVisitor>::VisitAllocationSite(
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Map* map, HeapObject* object) {
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Heap* heap = map->GetHeap();
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Object** slot =
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HeapObject::RawField(object, AllocationSite::kDependentCodeOffset);
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if (FLAG_collect_maps) {
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// Mark allocation site dependent codes array but do not push it onto
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// marking stack, this will make references from it weak. We will clean
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// dead codes when we iterate over allocation sites in
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// ClearNonLiveReferences.
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HeapObject* obj = HeapObject::cast(*slot);
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heap->mark_compact_collector()->RecordSlot(slot, slot, obj);
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StaticVisitor::MarkObjectWithoutPush(heap, obj);
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} else {
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StaticVisitor::VisitPointer(heap, slot);
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}
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StaticVisitor::VisitPointers(heap,
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HeapObject::RawField(object, AllocationSite::kPointerFieldsBeginOffset),
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HeapObject::RawField(object, AllocationSite::kPointerFieldsEndOffset));
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}
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template<typename StaticVisitor>
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void StaticMarkingVisitor<StaticVisitor>::VisitWeakCollection(
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Map* map, HeapObject* object) {
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Heap* heap = map->GetHeap();
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JSWeakCollection* weak_collection =
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reinterpret_cast<JSWeakCollection*>(object);
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// Enqueue weak collection in linked list of encountered weak collections.
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if (weak_collection->next() == heap->undefined_value()) {
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weak_collection->set_next(heap->encountered_weak_collections());
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heap->set_encountered_weak_collections(weak_collection);
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}
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// Skip visiting the backing hash table containing the mappings and the
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// pointer to the other enqueued weak collections, both are post-processed.
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StaticVisitor::VisitPointers(heap,
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HeapObject::RawField(object, JSWeakCollection::kPropertiesOffset),
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HeapObject::RawField(object, JSWeakCollection::kTableOffset));
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STATIC_ASSERT(JSWeakCollection::kTableOffset + kPointerSize ==
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JSWeakCollection::kNextOffset);
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STATIC_ASSERT(JSWeakCollection::kNextOffset + kPointerSize ==
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JSWeakCollection::kSize);
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// Partially initialized weak collection is enqueued, but table is ignored.
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if (!weak_collection->table()->IsHashTable()) return;
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// Mark the backing hash table without pushing it on the marking stack.
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Object** slot = HeapObject::RawField(object, JSWeakCollection::kTableOffset);
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HeapObject* obj = HeapObject::cast(*slot);
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heap->mark_compact_collector()->RecordSlot(slot, slot, obj);
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StaticVisitor::MarkObjectWithoutPush(heap, obj);
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}
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template<typename StaticVisitor>
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void StaticMarkingVisitor<StaticVisitor>::VisitCode(
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Map* map, HeapObject* object) {
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Heap* heap = map->GetHeap();
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Code* code = Code::cast(object);
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if (FLAG_age_code && !heap->isolate()->serializer_enabled()) {
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code->MakeOlder(heap->mark_compact_collector()->marking_parity());
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}
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code->CodeIterateBody<StaticVisitor>(heap);
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}
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template<typename StaticVisitor>
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void StaticMarkingVisitor<StaticVisitor>::VisitSharedFunctionInfo(
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Map* map, HeapObject* object) {
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Heap* heap = map->GetHeap();
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SharedFunctionInfo* shared = SharedFunctionInfo::cast(object);
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if (shared->ic_age() != heap->global_ic_age()) {
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shared->ResetForNewContext(heap->global_ic_age());
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}
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if (FLAG_cleanup_code_caches_at_gc) {
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shared->ClearTypeFeedbackInfo();
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}
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if (FLAG_cache_optimized_code &&
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FLAG_flush_optimized_code_cache &&
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!shared->optimized_code_map()->IsSmi()) {
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// Always flush the optimized code map if requested by flag.
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shared->ClearOptimizedCodeMap();
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}
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MarkCompactCollector* collector = heap->mark_compact_collector();
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if (collector->is_code_flushing_enabled()) {
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if (FLAG_cache_optimized_code && !shared->optimized_code_map()->IsSmi()) {
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// Add the shared function info holding an optimized code map to
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// the code flusher for processing of code maps after marking.
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collector->code_flusher()->AddOptimizedCodeMap(shared);
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// Treat all references within the code map weakly by marking the
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// code map itself but not pushing it onto the marking deque.
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FixedArray* code_map = FixedArray::cast(shared->optimized_code_map());
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StaticVisitor::MarkObjectWithoutPush(heap, code_map);
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}
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if (IsFlushable(heap, shared)) {
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// This function's code looks flushable. But we have to postpone
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// the decision until we see all functions that point to the same
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// SharedFunctionInfo because some of them might be optimized.
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// That would also make the non-optimized version of the code
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// non-flushable, because it is required for bailing out from
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// optimized code.
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collector->code_flusher()->AddCandidate(shared);
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// Treat the reference to the code object weakly.
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VisitSharedFunctionInfoWeakCode(heap, object);
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return;
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}
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} else {
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if (FLAG_cache_optimized_code && !shared->optimized_code_map()->IsSmi()) {
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// Flush optimized code map on major GCs without code flushing,
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// needed because cached code doesn't contain breakpoints.
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shared->ClearOptimizedCodeMap();
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}
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}
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VisitSharedFunctionInfoStrongCode(heap, object);
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}
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template<typename StaticVisitor>
|
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void StaticMarkingVisitor<StaticVisitor>::VisitConstantPoolArray(
|
|
Map* map, HeapObject* object) {
|
|
Heap* heap = map->GetHeap();
|
|
ConstantPoolArray* array = ConstantPoolArray::cast(object);
|
|
ConstantPoolArray::Iterator code_iter(array, ConstantPoolArray::CODE_PTR);
|
|
while (!code_iter.is_finished()) {
|
|
Address code_entry = reinterpret_cast<Address>(
|
|
array->RawFieldOfElementAt(code_iter.next_index()));
|
|
StaticVisitor::VisitCodeEntry(heap, code_entry);
|
|
}
|
|
|
|
ConstantPoolArray::Iterator heap_iter(array, ConstantPoolArray::HEAP_PTR);
|
|
while (!heap_iter.is_finished()) {
|
|
Object** slot = array->RawFieldOfElementAt(heap_iter.next_index());
|
|
HeapObject* object = HeapObject::cast(*slot);
|
|
heap->mark_compact_collector()->RecordSlot(slot, slot, object);
|
|
bool is_weak_object =
|
|
(array->get_weak_object_state() ==
|
|
ConstantPoolArray::WEAK_OBJECTS_IN_OPTIMIZED_CODE &&
|
|
Code::IsWeakObjectInOptimizedCode(object)) ||
|
|
(array->get_weak_object_state() ==
|
|
ConstantPoolArray::WEAK_OBJECTS_IN_IC &&
|
|
Code::IsWeakObjectInIC(object));
|
|
if (!is_weak_object) {
|
|
StaticVisitor::MarkObject(heap, object);
|
|
}
|
|
}
|
|
}
|
|
|
|
|
|
template<typename StaticVisitor>
|
|
void StaticMarkingVisitor<StaticVisitor>::VisitJSFunction(
|
|
Map* map, HeapObject* object) {
|
|
Heap* heap = map->GetHeap();
|
|
JSFunction* function = JSFunction::cast(object);
|
|
MarkCompactCollector* collector = heap->mark_compact_collector();
|
|
if (collector->is_code_flushing_enabled()) {
|
|
if (IsFlushable(heap, function)) {
|
|
// This function's code looks flushable. But we have to postpone
|
|
// the decision until we see all functions that point to the same
|
|
// SharedFunctionInfo because some of them might be optimized.
|
|
// That would also make the non-optimized version of the code
|
|
// non-flushable, because it is required for bailing out from
|
|
// optimized code.
|
|
collector->code_flusher()->AddCandidate(function);
|
|
// Visit shared function info immediately to avoid double checking
|
|
// of its flushability later. This is just an optimization because
|
|
// the shared function info would eventually be visited.
|
|
SharedFunctionInfo* shared = function->shared();
|
|
if (StaticVisitor::MarkObjectWithoutPush(heap, shared)) {
|
|
StaticVisitor::MarkObject(heap, shared->map());
|
|
VisitSharedFunctionInfoWeakCode(heap, shared);
|
|
}
|
|
// Treat the reference to the code object weakly.
|
|
VisitJSFunctionWeakCode(heap, object);
|
|
return;
|
|
} else {
|
|
// Visit all unoptimized code objects to prevent flushing them.
|
|
StaticVisitor::MarkObject(heap, function->shared()->code());
|
|
if (function->code()->kind() == Code::OPTIMIZED_FUNCTION) {
|
|
MarkInlinedFunctionsCode(heap, function->code());
|
|
}
|
|
}
|
|
}
|
|
VisitJSFunctionStrongCode(heap, object);
|
|
}
|
|
|
|
|
|
template<typename StaticVisitor>
|
|
void StaticMarkingVisitor<StaticVisitor>::VisitJSRegExp(
|
|
Map* map, HeapObject* object) {
|
|
int last_property_offset =
|
|
JSRegExp::kSize + kPointerSize * map->inobject_properties();
|
|
StaticVisitor::VisitPointers(map->GetHeap(),
|
|
HeapObject::RawField(object, JSRegExp::kPropertiesOffset),
|
|
HeapObject::RawField(object, last_property_offset));
|
|
}
|
|
|
|
|
|
template<typename StaticVisitor>
|
|
void StaticMarkingVisitor<StaticVisitor>::VisitJSArrayBuffer(
|
|
Map* map, HeapObject* object) {
|
|
Heap* heap = map->GetHeap();
|
|
|
|
STATIC_ASSERT(
|
|
JSArrayBuffer::kWeakFirstViewOffset ==
|
|
JSArrayBuffer::kWeakNextOffset + kPointerSize);
|
|
StaticVisitor::VisitPointers(
|
|
heap,
|
|
HeapObject::RawField(object, JSArrayBuffer::BodyDescriptor::kStartOffset),
|
|
HeapObject::RawField(object, JSArrayBuffer::kWeakNextOffset));
|
|
StaticVisitor::VisitPointers(
|
|
heap,
|
|
HeapObject::RawField(object,
|
|
JSArrayBuffer::kWeakNextOffset + 2 * kPointerSize),
|
|
HeapObject::RawField(object, JSArrayBuffer::kSizeWithInternalFields));
|
|
}
|
|
|
|
|
|
template<typename StaticVisitor>
|
|
void StaticMarkingVisitor<StaticVisitor>::VisitJSTypedArray(
|
|
Map* map, HeapObject* object) {
|
|
StaticVisitor::VisitPointers(
|
|
map->GetHeap(),
|
|
HeapObject::RawField(object, JSTypedArray::BodyDescriptor::kStartOffset),
|
|
HeapObject::RawField(object, JSTypedArray::kWeakNextOffset));
|
|
StaticVisitor::VisitPointers(
|
|
map->GetHeap(),
|
|
HeapObject::RawField(object,
|
|
JSTypedArray::kWeakNextOffset + kPointerSize),
|
|
HeapObject::RawField(object, JSTypedArray::kSizeWithInternalFields));
|
|
}
|
|
|
|
|
|
template<typename StaticVisitor>
|
|
void StaticMarkingVisitor<StaticVisitor>::VisitJSDataView(
|
|
Map* map, HeapObject* object) {
|
|
StaticVisitor::VisitPointers(
|
|
map->GetHeap(),
|
|
HeapObject::RawField(object, JSDataView::BodyDescriptor::kStartOffset),
|
|
HeapObject::RawField(object, JSDataView::kWeakNextOffset));
|
|
StaticVisitor::VisitPointers(
|
|
map->GetHeap(),
|
|
HeapObject::RawField(object,
|
|
JSDataView::kWeakNextOffset + kPointerSize),
|
|
HeapObject::RawField(object, JSDataView::kSizeWithInternalFields));
|
|
}
|
|
|
|
|
|
template<typename StaticVisitor>
|
|
void StaticMarkingVisitor<StaticVisitor>::MarkMapContents(
|
|
Heap* heap, Map* map) {
|
|
// Make sure that the back pointer stored either in the map itself or
|
|
// inside its transitions array is marked. Skip recording the back
|
|
// pointer slot since map space is not compacted.
|
|
StaticVisitor::MarkObject(heap, HeapObject::cast(map->GetBackPointer()));
|
|
|
|
// Treat pointers in the transitions array as weak and also mark that
|
|
// array to prevent visiting it later. Skip recording the transition
|
|
// array slot, since it will be implicitly recorded when the pointer
|
|
// fields of this map are visited.
|
|
if (map->HasTransitionArray()) {
|
|
TransitionArray* transitions = map->transitions();
|
|
MarkTransitionArray(heap, transitions);
|
|
}
|
|
|
|
// Since descriptor arrays are potentially shared, ensure that only the
|
|
// descriptors that belong to this map are marked. The first time a
|
|
// non-empty descriptor array is marked, its header is also visited. The slot
|
|
// holding the descriptor array will be implicitly recorded when the pointer
|
|
// fields of this map are visited.
|
|
DescriptorArray* descriptors = map->instance_descriptors();
|
|
if (StaticVisitor::MarkObjectWithoutPush(heap, descriptors) &&
|
|
descriptors->length() > 0) {
|
|
StaticVisitor::VisitPointers(heap,
|
|
descriptors->GetFirstElementAddress(),
|
|
descriptors->GetDescriptorEndSlot(0));
|
|
}
|
|
int start = 0;
|
|
int end = map->NumberOfOwnDescriptors();
|
|
if (start < end) {
|
|
StaticVisitor::VisitPointers(heap,
|
|
descriptors->GetDescriptorStartSlot(start),
|
|
descriptors->GetDescriptorEndSlot(end));
|
|
}
|
|
|
|
// Mark prototype dependent codes array but do not push it onto marking
|
|
// stack, this will make references from it weak. We will clean dead
|
|
// codes when we iterate over maps in ClearNonLiveTransitions.
|
|
Object** slot = HeapObject::RawField(map, Map::kDependentCodeOffset);
|
|
HeapObject* obj = HeapObject::cast(*slot);
|
|
heap->mark_compact_collector()->RecordSlot(slot, slot, obj);
|
|
StaticVisitor::MarkObjectWithoutPush(heap, obj);
|
|
|
|
// Mark the pointer fields of the Map. Since the transitions array has
|
|
// been marked already, it is fine that one of these fields contains a
|
|
// pointer to it.
|
|
StaticVisitor::VisitPointers(heap,
|
|
HeapObject::RawField(map, Map::kPointerFieldsBeginOffset),
|
|
HeapObject::RawField(map, Map::kPointerFieldsEndOffset));
|
|
}
|
|
|
|
|
|
template<typename StaticVisitor>
|
|
void StaticMarkingVisitor<StaticVisitor>::MarkTransitionArray(
|
|
Heap* heap, TransitionArray* transitions) {
|
|
if (!StaticVisitor::MarkObjectWithoutPush(heap, transitions)) return;
|
|
|
|
// Simple transitions do not have keys nor prototype transitions.
|
|
if (transitions->IsSimpleTransition()) return;
|
|
|
|
if (transitions->HasPrototypeTransitions()) {
|
|
// Mark prototype transitions array but do not push it onto marking
|
|
// stack, this will make references from it weak. We will clean dead
|
|
// prototype transitions in ClearNonLiveTransitions.
|
|
Object** slot = transitions->GetPrototypeTransitionsSlot();
|
|
HeapObject* obj = HeapObject::cast(*slot);
|
|
heap->mark_compact_collector()->RecordSlot(slot, slot, obj);
|
|
StaticVisitor::MarkObjectWithoutPush(heap, obj);
|
|
}
|
|
|
|
for (int i = 0; i < transitions->number_of_transitions(); ++i) {
|
|
StaticVisitor::VisitPointer(heap, transitions->GetKeySlot(i));
|
|
}
|
|
}
|
|
|
|
|
|
template<typename StaticVisitor>
|
|
void StaticMarkingVisitor<StaticVisitor>::MarkInlinedFunctionsCode(
|
|
Heap* heap, Code* code) {
|
|
// For optimized functions we should retain both non-optimized version
|
|
// of its code and non-optimized version of all inlined functions.
|
|
// This is required to support bailing out from inlined code.
|
|
DeoptimizationInputData* data =
|
|
DeoptimizationInputData::cast(code->deoptimization_data());
|
|
FixedArray* literals = data->LiteralArray();
|
|
for (int i = 0, count = data->InlinedFunctionCount()->value();
|
|
i < count;
|
|
i++) {
|
|
JSFunction* inlined = JSFunction::cast(literals->get(i));
|
|
StaticVisitor::MarkObject(heap, inlined->shared()->code());
|
|
}
|
|
}
|
|
|
|
|
|
inline static bool IsValidNonBuiltinContext(Object* context) {
|
|
return context->IsContext() &&
|
|
!Context::cast(context)->global_object()->IsJSBuiltinsObject();
|
|
}
|
|
|
|
|
|
inline static bool HasSourceCode(Heap* heap, SharedFunctionInfo* info) {
|
|
Object* undefined = heap->undefined_value();
|
|
return (info->script() != undefined) &&
|
|
(reinterpret_cast<Script*>(info->script())->source() != undefined);
|
|
}
|
|
|
|
|
|
template<typename StaticVisitor>
|
|
bool StaticMarkingVisitor<StaticVisitor>::IsFlushable(
|
|
Heap* heap, JSFunction* function) {
|
|
SharedFunctionInfo* shared_info = function->shared();
|
|
|
|
// Code is either on stack, in compilation cache or referenced
|
|
// by optimized version of function.
|
|
MarkBit code_mark = Marking::MarkBitFrom(function->code());
|
|
if (code_mark.Get()) {
|
|
return false;
|
|
}
|
|
|
|
// The function must have a valid context and not be a builtin.
|
|
if (!IsValidNonBuiltinContext(function->context())) {
|
|
return false;
|
|
}
|
|
|
|
// We do not (yet) flush code for optimized functions.
|
|
if (function->code() != shared_info->code()) {
|
|
return false;
|
|
}
|
|
|
|
// Check age of optimized code.
|
|
if (FLAG_age_code && !function->code()->IsOld()) {
|
|
return false;
|
|
}
|
|
|
|
return IsFlushable(heap, shared_info);
|
|
}
|
|
|
|
|
|
template<typename StaticVisitor>
|
|
bool StaticMarkingVisitor<StaticVisitor>::IsFlushable(
|
|
Heap* heap, SharedFunctionInfo* shared_info) {
|
|
// Code is either on stack, in compilation cache or referenced
|
|
// by optimized version of function.
|
|
MarkBit code_mark = Marking::MarkBitFrom(shared_info->code());
|
|
if (code_mark.Get()) {
|
|
return false;
|
|
}
|
|
|
|
// The function must be compiled and have the source code available,
|
|
// to be able to recompile it in case we need the function again.
|
|
if (!(shared_info->is_compiled() && HasSourceCode(heap, shared_info))) {
|
|
return false;
|
|
}
|
|
|
|
// We never flush code for API functions.
|
|
Object* function_data = shared_info->function_data();
|
|
if (function_data->IsFunctionTemplateInfo()) {
|
|
return false;
|
|
}
|
|
|
|
// Only flush code for functions.
|
|
if (shared_info->code()->kind() != Code::FUNCTION) {
|
|
return false;
|
|
}
|
|
|
|
// Function must be lazy compilable.
|
|
if (!shared_info->allows_lazy_compilation()) {
|
|
return false;
|
|
}
|
|
|
|
// We do not (yet?) flush code for generator functions, because we don't know
|
|
// if there are still live activations (generator objects) on the heap.
|
|
if (shared_info->is_generator()) {
|
|
return false;
|
|
}
|
|
|
|
// If this is a full script wrapped in a function we do not flush the code.
|
|
if (shared_info->is_toplevel()) {
|
|
return false;
|
|
}
|
|
|
|
// If this is a function initialized with %SetCode then the one-to-one
|
|
// relation between SharedFunctionInfo and Code is broken.
|
|
if (shared_info->dont_flush()) {
|
|
return false;
|
|
}
|
|
|
|
// Check age of code. If code aging is disabled we never flush.
|
|
if (!FLAG_age_code || !shared_info->code()->IsOld()) {
|
|
return false;
|
|
}
|
|
|
|
return true;
|
|
}
|
|
|
|
|
|
template<typename StaticVisitor>
|
|
void StaticMarkingVisitor<StaticVisitor>::VisitSharedFunctionInfoStrongCode(
|
|
Heap* heap, HeapObject* object) {
|
|
Object** start_slot =
|
|
HeapObject::RawField(object,
|
|
SharedFunctionInfo::BodyDescriptor::kStartOffset);
|
|
Object** end_slot =
|
|
HeapObject::RawField(object,
|
|
SharedFunctionInfo::BodyDescriptor::kEndOffset);
|
|
StaticVisitor::VisitPointers(heap, start_slot, end_slot);
|
|
}
|
|
|
|
|
|
template<typename StaticVisitor>
|
|
void StaticMarkingVisitor<StaticVisitor>::VisitSharedFunctionInfoWeakCode(
|
|
Heap* heap, HeapObject* object) {
|
|
Object** name_slot =
|
|
HeapObject::RawField(object, SharedFunctionInfo::kNameOffset);
|
|
StaticVisitor::VisitPointer(heap, name_slot);
|
|
|
|
// Skip visiting kCodeOffset as it is treated weakly here.
|
|
STATIC_ASSERT(SharedFunctionInfo::kNameOffset + kPointerSize ==
|
|
SharedFunctionInfo::kCodeOffset);
|
|
STATIC_ASSERT(SharedFunctionInfo::kCodeOffset + kPointerSize ==
|
|
SharedFunctionInfo::kOptimizedCodeMapOffset);
|
|
|
|
Object** start_slot =
|
|
HeapObject::RawField(object,
|
|
SharedFunctionInfo::kOptimizedCodeMapOffset);
|
|
Object** end_slot =
|
|
HeapObject::RawField(object,
|
|
SharedFunctionInfo::BodyDescriptor::kEndOffset);
|
|
StaticVisitor::VisitPointers(heap, start_slot, end_slot);
|
|
}
|
|
|
|
|
|
template<typename StaticVisitor>
|
|
void StaticMarkingVisitor<StaticVisitor>::VisitJSFunctionStrongCode(
|
|
Heap* heap, HeapObject* object) {
|
|
Object** start_slot =
|
|
HeapObject::RawField(object, JSFunction::kPropertiesOffset);
|
|
Object** end_slot =
|
|
HeapObject::RawField(object, JSFunction::kCodeEntryOffset);
|
|
StaticVisitor::VisitPointers(heap, start_slot, end_slot);
|
|
|
|
VisitCodeEntry(heap, object->address() + JSFunction::kCodeEntryOffset);
|
|
STATIC_ASSERT(JSFunction::kCodeEntryOffset + kPointerSize ==
|
|
JSFunction::kPrototypeOrInitialMapOffset);
|
|
|
|
start_slot =
|
|
HeapObject::RawField(object, JSFunction::kPrototypeOrInitialMapOffset);
|
|
end_slot =
|
|
HeapObject::RawField(object, JSFunction::kNonWeakFieldsEndOffset);
|
|
StaticVisitor::VisitPointers(heap, start_slot, end_slot);
|
|
}
|
|
|
|
|
|
template<typename StaticVisitor>
|
|
void StaticMarkingVisitor<StaticVisitor>::VisitJSFunctionWeakCode(
|
|
Heap* heap, HeapObject* object) {
|
|
Object** start_slot =
|
|
HeapObject::RawField(object, JSFunction::kPropertiesOffset);
|
|
Object** end_slot =
|
|
HeapObject::RawField(object, JSFunction::kCodeEntryOffset);
|
|
StaticVisitor::VisitPointers(heap, start_slot, end_slot);
|
|
|
|
// Skip visiting kCodeEntryOffset as it is treated weakly here.
|
|
STATIC_ASSERT(JSFunction::kCodeEntryOffset + kPointerSize ==
|
|
JSFunction::kPrototypeOrInitialMapOffset);
|
|
|
|
start_slot =
|
|
HeapObject::RawField(object, JSFunction::kPrototypeOrInitialMapOffset);
|
|
end_slot =
|
|
HeapObject::RawField(object, JSFunction::kNonWeakFieldsEndOffset);
|
|
StaticVisitor::VisitPointers(heap, start_slot, end_slot);
|
|
}
|
|
|
|
|
|
void Code::CodeIterateBody(ObjectVisitor* v) {
|
|
int mode_mask = RelocInfo::kCodeTargetMask |
|
|
RelocInfo::ModeMask(RelocInfo::EMBEDDED_OBJECT) |
|
|
RelocInfo::ModeMask(RelocInfo::CELL) |
|
|
RelocInfo::ModeMask(RelocInfo::EXTERNAL_REFERENCE) |
|
|
RelocInfo::ModeMask(RelocInfo::JS_RETURN) |
|
|
RelocInfo::ModeMask(RelocInfo::DEBUG_BREAK_SLOT) |
|
|
RelocInfo::ModeMask(RelocInfo::RUNTIME_ENTRY);
|
|
|
|
// There are two places where we iterate code bodies: here and the
|
|
// templated CodeIterateBody (below). They should be kept in sync.
|
|
IteratePointer(v, kRelocationInfoOffset);
|
|
IteratePointer(v, kHandlerTableOffset);
|
|
IteratePointer(v, kDeoptimizationDataOffset);
|
|
IteratePointer(v, kTypeFeedbackInfoOffset);
|
|
IterateNextCodeLink(v, kNextCodeLinkOffset);
|
|
IteratePointer(v, kConstantPoolOffset);
|
|
|
|
RelocIterator it(this, mode_mask);
|
|
Isolate* isolate = this->GetIsolate();
|
|
for (; !it.done(); it.next()) {
|
|
it.rinfo()->Visit(isolate, v);
|
|
}
|
|
}
|
|
|
|
|
|
template<typename StaticVisitor>
|
|
void Code::CodeIterateBody(Heap* heap) {
|
|
int mode_mask = RelocInfo::kCodeTargetMask |
|
|
RelocInfo::ModeMask(RelocInfo::EMBEDDED_OBJECT) |
|
|
RelocInfo::ModeMask(RelocInfo::CELL) |
|
|
RelocInfo::ModeMask(RelocInfo::EXTERNAL_REFERENCE) |
|
|
RelocInfo::ModeMask(RelocInfo::JS_RETURN) |
|
|
RelocInfo::ModeMask(RelocInfo::DEBUG_BREAK_SLOT) |
|
|
RelocInfo::ModeMask(RelocInfo::RUNTIME_ENTRY);
|
|
|
|
// There are two places where we iterate code bodies: here and the non-
|
|
// templated CodeIterateBody (above). They should be kept in sync.
|
|
StaticVisitor::VisitPointer(
|
|
heap,
|
|
reinterpret_cast<Object**>(this->address() + kRelocationInfoOffset));
|
|
StaticVisitor::VisitPointer(
|
|
heap,
|
|
reinterpret_cast<Object**>(this->address() + kHandlerTableOffset));
|
|
StaticVisitor::VisitPointer(
|
|
heap,
|
|
reinterpret_cast<Object**>(this->address() + kDeoptimizationDataOffset));
|
|
StaticVisitor::VisitPointer(
|
|
heap,
|
|
reinterpret_cast<Object**>(this->address() + kTypeFeedbackInfoOffset));
|
|
StaticVisitor::VisitNextCodeLink(
|
|
heap,
|
|
reinterpret_cast<Object**>(this->address() + kNextCodeLinkOffset));
|
|
StaticVisitor::VisitPointer(
|
|
heap,
|
|
reinterpret_cast<Object**>(this->address() + kConstantPoolOffset));
|
|
|
|
|
|
RelocIterator it(this, mode_mask);
|
|
for (; !it.done(); it.next()) {
|
|
it.rinfo()->template Visit<StaticVisitor>(heap);
|
|
}
|
|
}
|
|
|
|
|
|
} } // namespace v8::internal
|
|
|
|
#endif // V8_OBJECTS_VISITING_INL_H_
|