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Issue 2160613002: [heap] Remove black pages and use black areas instead. (Closed) Base URL: https://chromium.googlesource.com/v8/v8.git@master
Patch Set: perform cast after writing map Created 4 years, 5 months ago
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1 // Copyright 2012 the V8 project authors. All rights reserved. 1 // Copyright 2012 the V8 project authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be 2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file. 3 // found in the LICENSE file.
4 4
5 #include "src/heap/mark-compact.h" 5 #include "src/heap/mark-compact.h"
6 6
7 #include "src/base/atomicops.h" 7 #include "src/base/atomicops.h"
8 #include "src/base/bits.h" 8 #include "src/base/bits.h"
9 #include "src/base/sys-info.h" 9 #include "src/base/sys-info.h"
10 #include "src/code-stubs.h" 10 #include "src/code-stubs.h"
(...skipping 86 matching lines...) Expand 10 before | Expand all | Expand 10 after
97 97
98 private: 98 private:
99 Heap* heap_; 99 Heap* heap_;
100 }; 100 };
101 101
102 102
103 static void VerifyMarking(Heap* heap, Address bottom, Address top) { 103 static void VerifyMarking(Heap* heap, Address bottom, Address top) {
104 VerifyMarkingVisitor visitor(heap); 104 VerifyMarkingVisitor visitor(heap);
105 HeapObject* object; 105 HeapObject* object;
106 Address next_object_must_be_here_or_later = bottom; 106 Address next_object_must_be_here_or_later = bottom;
107 107 for (Address current = bottom; current < top;) {
108 for (Address current = bottom; current < top; current += kPointerSize) {
109 object = HeapObject::FromAddress(current); 108 object = HeapObject::FromAddress(current);
110 if (MarkCompactCollector::IsMarked(object)) { 109 if (MarkCompactCollector::IsMarked(object)) {
111 CHECK(Marking::IsBlack(ObjectMarking::MarkBitFrom(object))); 110 CHECK(Marking::IsBlack(ObjectMarking::MarkBitFrom(object)));
112 CHECK(current >= next_object_must_be_here_or_later); 111 CHECK(current >= next_object_must_be_here_or_later);
113 object->Iterate(&visitor); 112 object->Iterate(&visitor);
114 next_object_must_be_here_or_later = current + object->Size(); 113 next_object_must_be_here_or_later = current + object->Size();
115 // The next word for sure belongs to the current object, jump over it. 114 // The object is either part of a black area of black allocation or a
115 // regular black object
116 Page* page = Page::FromAddress(current);
117 CHECK(
118 page->markbits()->AllBitsSetInRange(
119 page->AddressToMarkbitIndex(current),
120 page->AddressToMarkbitIndex(next_object_must_be_here_or_later)) ||
121 page->markbits()->AllBitsClearInRange(
122 page->AddressToMarkbitIndex(current + kPointerSize * 2),
123 page->AddressToMarkbitIndex(next_object_must_be_here_or_later)));
124 current = next_object_must_be_here_or_later;
125 } else {
116 current += kPointerSize; 126 current += kPointerSize;
117 } 127 }
118 } 128 }
119 } 129 }
120 130
121 static void VerifyMarkingBlackPage(Heap* heap, Page* page) {
122 CHECK(page->IsFlagSet(Page::BLACK_PAGE));
123 VerifyMarkingVisitor visitor(heap);
124 HeapObjectIterator it(page);
125 for (HeapObject* object = it.Next(); object != NULL; object = it.Next()) {
126 CHECK(Marking::IsBlack(ObjectMarking::MarkBitFrom(object)));
127 object->Iterate(&visitor);
128 }
129 }
130
131 static void VerifyMarking(NewSpace* space) { 131 static void VerifyMarking(NewSpace* space) {
132 Address end = space->top(); 132 Address end = space->top();
133 // The bottom position is at the start of its page. Allows us to use 133 // The bottom position is at the start of its page. Allows us to use
134 // page->area_start() as start of range on all pages. 134 // page->area_start() as start of range on all pages.
135 CHECK_EQ(space->bottom(), Page::FromAddress(space->bottom())->area_start()); 135 CHECK_EQ(space->bottom(), Page::FromAddress(space->bottom())->area_start());
136 136
137 NewSpacePageRange range(space->bottom(), end); 137 NewSpacePageRange range(space->bottom(), end);
138 for (auto it = range.begin(); it != range.end();) { 138 for (auto it = range.begin(); it != range.end();) {
139 Page* page = *(it++); 139 Page* page = *(it++);
140 Address limit = it != range.end() ? page->area_end() : end; 140 Address limit = it != range.end() ? page->area_end() : end;
141 CHECK(limit == end || !page->Contains(end)); 141 CHECK(limit == end || !page->Contains(end));
142 VerifyMarking(space->heap(), page->area_start(), limit); 142 VerifyMarking(space->heap(), page->area_start(), limit);
143 } 143 }
144 } 144 }
145 145
146 146
147 static void VerifyMarking(PagedSpace* space) { 147 static void VerifyMarking(PagedSpace* space) {
148 for (Page* p : *space) { 148 for (Page* p : *space) {
149 if (p->IsFlagSet(Page::BLACK_PAGE)) { 149 VerifyMarking(space->heap(), p->area_start(), p->area_end());
150 VerifyMarkingBlackPage(space->heap(), p);
151 } else {
152 VerifyMarking(space->heap(), p->area_start(), p->area_end());
153 }
154 } 150 }
155 } 151 }
156 152
157 153
158 static void VerifyMarking(Heap* heap) { 154 static void VerifyMarking(Heap* heap) {
159 VerifyMarking(heap->old_space()); 155 VerifyMarking(heap->old_space());
160 VerifyMarking(heap->code_space()); 156 VerifyMarking(heap->code_space());
161 VerifyMarking(heap->map_space()); 157 VerifyMarking(heap->map_space());
162 VerifyMarking(heap->new_space()); 158 VerifyMarking(heap->new_space());
163 159
(...skipping 238 matching lines...) Expand 10 before | Expand all | Expand 10 after
402 Map* map = Map::cast(obj); 398 Map* map = Map::cast(obj);
403 map->VerifyOmittedMapChecks(); 399 map->VerifyOmittedMapChecks();
404 } 400 }
405 } 401 }
406 #endif // VERIFY_HEAP 402 #endif // VERIFY_HEAP
407 403
408 404
409 static void ClearMarkbitsInPagedSpace(PagedSpace* space) { 405 static void ClearMarkbitsInPagedSpace(PagedSpace* space) {
410 for (Page* p : *space) { 406 for (Page* p : *space) {
411 p->ClearLiveness(); 407 p->ClearLiveness();
412 if (p->IsFlagSet(Page::BLACK_PAGE)) {
413 p->ClearFlag(Page::BLACK_PAGE);
414 }
415 } 408 }
416 } 409 }
417 410
418 411
419 static void ClearMarkbitsInNewSpace(NewSpace* space) { 412 static void ClearMarkbitsInNewSpace(NewSpace* space) {
420 for (Page* page : *space) { 413 for (Page* page : *space) {
421 page->ClearLiveness(); 414 page->ClearLiveness();
422 } 415 }
423 } 416 }
424 417
425 418
426 void MarkCompactCollector::ClearMarkbits() { 419 void MarkCompactCollector::ClearMarkbits() {
427 ClearMarkbitsInPagedSpace(heap_->code_space()); 420 ClearMarkbitsInPagedSpace(heap_->code_space());
428 ClearMarkbitsInPagedSpace(heap_->map_space()); 421 ClearMarkbitsInPagedSpace(heap_->map_space());
429 ClearMarkbitsInPagedSpace(heap_->old_space()); 422 ClearMarkbitsInPagedSpace(heap_->old_space());
430 ClearMarkbitsInNewSpace(heap_->new_space()); 423 ClearMarkbitsInNewSpace(heap_->new_space());
431 424
432 LargeObjectIterator it(heap_->lo_space()); 425 LargeObjectIterator it(heap_->lo_space());
433 for (HeapObject* obj = it.Next(); obj != NULL; obj = it.Next()) { 426 for (HeapObject* obj = it.Next(); obj != NULL; obj = it.Next()) {
434 Marking::MarkWhite(ObjectMarking::MarkBitFrom(obj)); 427 Marking::MarkWhite(ObjectMarking::MarkBitFrom(obj));
435 MemoryChunk* chunk = MemoryChunk::FromAddress(obj->address()); 428 MemoryChunk* chunk = MemoryChunk::FromAddress(obj->address());
436 chunk->ResetProgressBar(); 429 chunk->ResetProgressBar();
437 chunk->ResetLiveBytes(); 430 chunk->ResetLiveBytes();
438 if (chunk->IsFlagSet(Page::BLACK_PAGE)) {
439 chunk->ClearFlag(Page::BLACK_PAGE);
440 }
441 } 431 }
442 } 432 }
443 433
444 class MarkCompactCollector::Sweeper::SweeperTask : public v8::Task { 434 class MarkCompactCollector::Sweeper::SweeperTask : public v8::Task {
445 public: 435 public:
446 SweeperTask(Sweeper* sweeper, base::Semaphore* pending_sweeper_tasks, 436 SweeperTask(Sweeper* sweeper, base::Semaphore* pending_sweeper_tasks,
447 AllocationSpace space_to_start) 437 AllocationSpace space_to_start)
448 : sweeper_(sweeper), 438 : sweeper_(sweeper),
449 pending_sweeper_tasks_(pending_sweeper_tasks), 439 pending_sweeper_tasks_(pending_sweeper_tasks),
450 space_to_start_(space_to_start) {} 440 space_to_start_(space_to_start) {}
(...skipping 201 matching lines...) Expand 10 before | Expand all | Expand 10 after
652 int number_of_pages = space->CountTotalPages(); 642 int number_of_pages = space->CountTotalPages();
653 int area_size = space->AreaSize(); 643 int area_size = space->AreaSize();
654 644
655 // Pairs of (live_bytes_in_page, page). 645 // Pairs of (live_bytes_in_page, page).
656 typedef std::pair<int, Page*> LiveBytesPagePair; 646 typedef std::pair<int, Page*> LiveBytesPagePair;
657 std::vector<LiveBytesPagePair> pages; 647 std::vector<LiveBytesPagePair> pages;
658 pages.reserve(number_of_pages); 648 pages.reserve(number_of_pages);
659 649
660 for (Page* p : *space) { 650 for (Page* p : *space) {
661 if (p->NeverEvacuate()) continue; 651 if (p->NeverEvacuate()) continue;
662 if (p->IsFlagSet(Page::BLACK_PAGE)) continue;
663 // Invariant: Evacuation candidates are just created when marking is 652 // Invariant: Evacuation candidates are just created when marking is
664 // started. This means that sweeping has finished. Furthermore, at the end 653 // started. This means that sweeping has finished. Furthermore, at the end
665 // of a GC all evacuation candidates are cleared and their slot buffers are 654 // of a GC all evacuation candidates are cleared and their slot buffers are
666 // released. 655 // released.
667 CHECK(!p->IsEvacuationCandidate()); 656 CHECK(!p->IsEvacuationCandidate());
668 CHECK_NULL(p->old_to_old_slots()); 657 CHECK_NULL(p->old_to_old_slots());
669 CHECK_NULL(p->typed_old_to_old_slots()); 658 CHECK_NULL(p->typed_old_to_old_slots());
670 CHECK(p->SweepingDone()); 659 CHECK(p->SweepingDone());
671 DCHECK(p->area_size() == area_size); 660 DCHECK(p->area_size() == area_size);
672 pages.push_back(std::make_pair(p->LiveBytesFromFreeList(), p)); 661 pages.push_back(std::make_pair(p->LiveBytesFromFreeList(), p));
(...skipping 1233 matching lines...) Expand 10 before | Expand all | Expand 10 after
1906 object->IterateBody(&visitor); 1895 object->IterateBody(&visitor);
1907 return true; 1896 return true;
1908 } 1897 }
1909 1898
1910 private: 1899 private:
1911 Heap* heap_; 1900 Heap* heap_;
1912 }; 1901 };
1913 1902
1914 void MarkCompactCollector::DiscoverGreyObjectsInSpace(PagedSpace* space) { 1903 void MarkCompactCollector::DiscoverGreyObjectsInSpace(PagedSpace* space) {
1915 for (Page* p : *space) { 1904 for (Page* p : *space) {
1916 if (!p->IsFlagSet(Page::BLACK_PAGE)) { 1905 DiscoverGreyObjectsOnPage(p);
1917 DiscoverGreyObjectsOnPage(p);
1918 }
1919 if (marking_deque()->IsFull()) return; 1906 if (marking_deque()->IsFull()) return;
1920 } 1907 }
1921 } 1908 }
1922 1909
1923 1910
1924 void MarkCompactCollector::DiscoverGreyObjectsInNewSpace() { 1911 void MarkCompactCollector::DiscoverGreyObjectsInNewSpace() {
1925 NewSpace* space = heap()->new_space(); 1912 NewSpace* space = heap()->new_space();
1926 for (Page* page : NewSpacePageRange(space->bottom(), space->top())) { 1913 for (Page* page : NewSpacePageRange(space->bottom(), space->top())) {
1927 DiscoverGreyObjectsOnPage(page); 1914 DiscoverGreyObjectsOnPage(page);
1928 if (marking_deque()->IsFull()) return; 1915 if (marking_deque()->IsFull()) return;
(...skipping 993 matching lines...) Expand 10 before | Expand all | Expand 10 after
2922 } 2909 }
2923 2910
2924 return String::cast(*p); 2911 return String::cast(*p);
2925 } 2912 }
2926 2913
2927 bool MarkCompactCollector::IsSlotInBlackObject(MemoryChunk* p, Address slot) { 2914 bool MarkCompactCollector::IsSlotInBlackObject(MemoryChunk* p, Address slot) {
2928 Space* owner = p->owner(); 2915 Space* owner = p->owner();
2929 DCHECK(owner != heap_->lo_space() && owner != nullptr); 2916 DCHECK(owner != heap_->lo_space() && owner != nullptr);
2930 USE(owner); 2917 USE(owner);
2931 2918
2932 // If we are on a black page, we cannot find the actual object start 2919 // We may be part of a black area.
2933 // easiliy. We just return true but do not set the out_object. 2920 if (Marking::IsBlackOrGrey(ObjectMarking::MarkBitFrom(slot))) {
2934 if (p->IsFlagSet(Page::BLACK_PAGE)) {
2935 return true; 2921 return true;
2936 } 2922 }
2937 2923
2938 uint32_t mark_bit_index = p->AddressToMarkbitIndex(slot); 2924 uint32_t mark_bit_index = p->AddressToMarkbitIndex(slot);
2939 unsigned int cell_index = mark_bit_index >> Bitmap::kBitsPerCellLog2; 2925 unsigned int cell_index = mark_bit_index >> Bitmap::kBitsPerCellLog2;
2940 MarkBit::CellType index_mask = 1u << Bitmap::IndexInCell(mark_bit_index); 2926 MarkBit::CellType index_mask = 1u << Bitmap::IndexInCell(mark_bit_index);
2941 MarkBit::CellType* cells = p->markbits()->cells(); 2927 MarkBit::CellType* cells = p->markbits()->cells();
2942 Address base_address = p->area_start(); 2928 Address base_address = p->area_start();
2943 unsigned int base_address_cell_index = Bitmap::IndexToCell( 2929 unsigned int base_address_cell_index = Bitmap::IndexToCell(
2944 Bitmap::CellAlignIndex(p->AddressToMarkbitIndex(base_address))); 2930 Bitmap::CellAlignIndex(p->AddressToMarkbitIndex(base_address)));
(...skipping 76 matching lines...) Expand 10 before | Expand all | Expand 10 after
3021 // for it. 3007 // for it.
3022 CHECK(large_object->IsHeapObject()); 3008 CHECK(large_object->IsHeapObject());
3023 HeapObject* large_heap_object = HeapObject::cast(large_object); 3009 HeapObject* large_heap_object = HeapObject::cast(large_object);
3024 3010
3025 if (IsMarked(large_heap_object)) { 3011 if (IsMarked(large_heap_object)) {
3026 return large_heap_object; 3012 return large_heap_object;
3027 } 3013 }
3028 return nullptr; 3014 return nullptr;
3029 } 3015 }
3030 3016
3031 if (p->IsFlagSet(Page::BLACK_PAGE)) { 3017 LiveObjectIterator<kBlackObjects> it(p);
3032 HeapObjectIterator it(p); 3018 HeapObject* object = nullptr;
3033 HeapObject* object = nullptr; 3019 while ((object = it.Next()) != nullptr) {
3034 while ((object = it.Next()) != nullptr) { 3020 int size = object->Size();
3035 int size = object->Size(); 3021 if (object->address() > slot) return nullptr;
3036 if (object->address() > slot) return nullptr; 3022 if (object->address() <= slot && slot < (object->address() + size)) {
3037 if (object->address() <= slot && slot < (object->address() + size)) { 3023 return object;
3038 return object;
3039 }
3040 }
3041 } else {
3042 LiveObjectIterator<kBlackObjects> it(p);
3043 HeapObject* object = nullptr;
3044 while ((object = it.Next()) != nullptr) {
3045 int size = object->Size();
3046 if (object->address() > slot) return nullptr;
3047 if (object->address() <= slot && slot < (object->address() + size)) {
3048 return object;
3049 }
3050 } 3024 }
3051 } 3025 }
3026
3052 return nullptr; 3027 return nullptr;
3053 } 3028 }
3054 3029
3055 3030
3056 void MarkCompactCollector::EvacuateNewSpacePrologue() { 3031 void MarkCompactCollector::EvacuateNewSpacePrologue() {
3057 NewSpace* new_space = heap()->new_space(); 3032 NewSpace* new_space = heap()->new_space();
3058 // Append the list of new space pages to be processed. 3033 // Append the list of new space pages to be processed.
3059 for (Page* p : NewSpacePageRange(new_space->bottom(), new_space->top())) { 3034 for (Page* p : NewSpacePageRange(new_space->bottom(), new_space->top())) {
3060 newspace_evacuation_candidates_.Add(p); 3035 newspace_evacuation_candidates_.Add(p);
3061 } 3036 }
(...skipping 316 matching lines...) Expand 10 before | Expand all | Expand 10 after
3378 }; 3353 };
3379 3354
3380 int MarkCompactCollector::Sweeper::RawSweep( 3355 int MarkCompactCollector::Sweeper::RawSweep(
3381 Page* p, FreeListRebuildingMode free_list_mode, 3356 Page* p, FreeListRebuildingMode free_list_mode,
3382 FreeSpaceTreatmentMode free_space_mode) { 3357 FreeSpaceTreatmentMode free_space_mode) {
3383 Space* space = p->owner(); 3358 Space* space = p->owner();
3384 DCHECK_NOT_NULL(space); 3359 DCHECK_NOT_NULL(space);
3385 DCHECK(free_list_mode == IGNORE_FREE_LIST || space->identity() == OLD_SPACE || 3360 DCHECK(free_list_mode == IGNORE_FREE_LIST || space->identity() == OLD_SPACE ||
3386 space->identity() == CODE_SPACE || space->identity() == MAP_SPACE); 3361 space->identity() == CODE_SPACE || space->identity() == MAP_SPACE);
3387 DCHECK(!p->IsEvacuationCandidate() && !p->SweepingDone()); 3362 DCHECK(!p->IsEvacuationCandidate() && !p->SweepingDone());
3388 DCHECK(!p->IsFlagSet(Page::BLACK_PAGE));
3389 3363
3390 // Before we sweep objects on the page, we free dead array buffers which 3364 // Before we sweep objects on the page, we free dead array buffers which
3391 // requires valid mark bits. 3365 // requires valid mark bits.
3392 ArrayBufferTracker::FreeDead(p); 3366 ArrayBufferTracker::FreeDead(p);
3393 3367
3394 Address free_start = p->area_start(); 3368 Address free_start = p->area_start();
3395 DCHECK(reinterpret_cast<intptr_t>(free_start) % (32 * kPointerSize) == 0); 3369 DCHECK(reinterpret_cast<intptr_t>(free_start) % (32 * kPointerSize) == 0);
3396 3370
3397 // If we use the skip list for code space pages, we have to lock the skip 3371 // If we use the skip list for code space pages, we have to lock the skip
3398 // list because it could be accessed concurrently by the runtime or the 3372 // list because it could be accessed concurrently by the runtime or the
(...skipping 532 matching lines...) Expand 10 before | Expand all | Expand 10 after
3931 return page; 3905 return page;
3932 } 3906 }
3933 3907
3934 void MarkCompactCollector::Sweeper::AddSweepingPageSafe(AllocationSpace space, 3908 void MarkCompactCollector::Sweeper::AddSweepingPageSafe(AllocationSpace space,
3935 Page* page) { 3909 Page* page) {
3936 base::LockGuard<base::Mutex> guard(&mutex_); 3910 base::LockGuard<base::Mutex> guard(&mutex_);
3937 sweeping_list_[space].push_back(page); 3911 sweeping_list_[space].push_back(page);
3938 } 3912 }
3939 3913
3940 void MarkCompactCollector::StartSweepSpace(PagedSpace* space) { 3914 void MarkCompactCollector::StartSweepSpace(PagedSpace* space) {
3941 Address space_top = space->top();
3942 space->ClearStats(); 3915 space->ClearStats();
3943 3916
3944 int will_be_swept = 0; 3917 int will_be_swept = 0;
3945 bool unused_page_present = false; 3918 bool unused_page_present = false;
3946 3919
3947 // Loop needs to support deletion if live bytes == 0 for a page. 3920 // Loop needs to support deletion if live bytes == 0 for a page.
3948 for (auto it = space->begin(); it != space->end();) { 3921 for (auto it = space->begin(); it != space->end();) {
3949 Page* p = *(it++); 3922 Page* p = *(it++);
3950 DCHECK(p->SweepingDone()); 3923 DCHECK(p->SweepingDone());
3951 3924
3952 if (p->IsEvacuationCandidate()) { 3925 if (p->IsEvacuationCandidate()) {
3953 // Will be processed in EvacuateNewSpaceAndCandidates. 3926 // Will be processed in EvacuateNewSpaceAndCandidates.
3954 DCHECK(evacuation_candidates_.length() > 0); 3927 DCHECK(evacuation_candidates_.length() > 0);
3955 continue; 3928 continue;
3956 } 3929 }
3957 3930
3958 // We can not sweep black pages, since all mark bits are set for these
3959 // pages.
3960 if (p->IsFlagSet(Page::BLACK_PAGE)) {
3961 p->ClearLiveness();
3962 p->concurrent_sweeping_state().SetValue(Page::kSweepingDone);
3963 p->ClearFlag(Page::BLACK_PAGE);
3964 // Area above the high watermark is free.
3965 Address free_start = p->HighWaterMark();
3966 // Check if the space top was in this page, which means that the
3967 // high watermark is not up-to-date.
3968 if (free_start < space_top && space_top <= p->area_end()) {
3969 free_start = space_top;
3970 }
3971 int size = static_cast<int>(p->area_end() - free_start);
3972 space->Free(free_start, size);
3973 continue;
3974 }
3975
3976 if (p->IsFlagSet(Page::NEVER_ALLOCATE_ON_PAGE)) { 3931 if (p->IsFlagSet(Page::NEVER_ALLOCATE_ON_PAGE)) {
3977 // We need to sweep the page to get it into an iterable state again. Note 3932 // We need to sweep the page to get it into an iterable state again. Note
3978 // that this adds unusable memory into the free list that is later on 3933 // that this adds unusable memory into the free list that is later on
3979 // (in the free list) dropped again. Since we only use the flag for 3934 // (in the free list) dropped again. Since we only use the flag for
3980 // testing this is fine. 3935 // testing this is fine.
3981 p->concurrent_sweeping_state().SetValue(Page::kSweepingInProgress); 3936 p->concurrent_sweeping_state().SetValue(Page::kSweepingInProgress);
3982 Sweeper::RawSweep(p, Sweeper::IGNORE_FREE_LIST, 3937 Sweeper::RawSweep(p, Sweeper::IGNORE_FREE_LIST,
3983 Heap::ShouldZapGarbage() ? Sweeper::ZAP_FREE_SPACE 3938 Heap::ShouldZapGarbage() ? Sweeper::ZAP_FREE_SPACE
3984 : Sweeper::IGNORE_FREE_SPACE); 3939 : Sweeper::IGNORE_FREE_SPACE);
3985 continue; 3940 continue;
(...skipping 97 matching lines...) Expand 10 before | Expand all | Expand 10 after
4083 // The target is always in old space, we don't have to record the slot in 4038 // The target is always in old space, we don't have to record the slot in
4084 // the old-to-new remembered set. 4039 // the old-to-new remembered set.
4085 DCHECK(!heap()->InNewSpace(target)); 4040 DCHECK(!heap()->InNewSpace(target));
4086 RecordRelocSlot(host, &rinfo, target); 4041 RecordRelocSlot(host, &rinfo, target);
4087 } 4042 }
4088 } 4043 }
4089 } 4044 }
4090 4045
4091 } // namespace internal 4046 } // namespace internal
4092 } // namespace v8 4047 } // namespace v8
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