b13d5ac610
InvalidatedSlotsCleanup::Free assumed that the size of invalidated objects was updated after sweeping a page and before allowing allocations again. This is now not the case anymore, so remove those CHECKs. Bug: chromium:997901 Change-Id: Ic9af7136bb336464b8cc023c7c1022a233f4e887 Reviewed-on: https://chromium-review.googlesource.com/c/v8/v8/+/1771786 Commit-Queue: Dominik Inführ <dinfuehr@chromium.org> Reviewed-by: Ulan Degenbaev <ulan@chromium.org> Cr-Commit-Position: refs/heads/master@{#63412}
429 lines
16 KiB
C++
429 lines
16 KiB
C++
// Copyright 2017 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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#include <stdlib.h>
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#include "src/init/v8.h"
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#include "src/heap/heap-inl.h"
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#include "src/heap/heap.h"
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#include "src/heap/invalidated-slots-inl.h"
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#include "src/heap/invalidated-slots.h"
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#include "test/cctest/cctest.h"
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#include "test/cctest/heap/heap-tester.h"
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#include "test/cctest/heap/heap-utils.h"
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namespace v8 {
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namespace internal {
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namespace heap {
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Page* HeapTester::AllocateByteArraysOnPage(
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Heap* heap, std::vector<ByteArray>* byte_arrays) {
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PauseAllocationObserversScope pause_observers(heap);
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const int kLength = 256 - ByteArray::kHeaderSize;
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const int kSize = ByteArray::SizeFor(kLength);
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CHECK_EQ(kSize, 256);
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Isolate* isolate = heap->isolate();
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PagedSpace* old_space = heap->old_space();
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Page* page;
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// Fill a page with byte arrays.
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{
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AlwaysAllocateScope always_allocate(isolate);
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heap::SimulateFullSpace(old_space);
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ByteArray byte_array;
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CHECK(AllocateByteArrayForTest(heap, kLength, AllocationType::kOld)
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.To(&byte_array));
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byte_arrays->push_back(byte_array);
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page = Page::FromHeapObject(byte_array);
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size_t n = page->area_size() / kSize;
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for (size_t i = 1; i < n; i++) {
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CHECK(AllocateByteArrayForTest(heap, kLength, AllocationType::kOld)
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.To(&byte_array));
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byte_arrays->push_back(byte_array);
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CHECK_EQ(page, Page::FromHeapObject(byte_array));
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}
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}
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CHECK_NULL(page->invalidated_slots<OLD_TO_OLD>());
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return page;
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}
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HEAP_TEST(InvalidatedSlotsNoInvalidatedRanges) {
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CcTest::InitializeVM();
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Heap* heap = CcTest::heap();
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std::vector<ByteArray> byte_arrays;
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Page* page = AllocateByteArraysOnPage(heap, &byte_arrays);
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InvalidatedSlotsFilter filter = InvalidatedSlotsFilter::OldToOld(page);
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for (ByteArray byte_array : byte_arrays) {
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Address start = byte_array.address() + ByteArray::kHeaderSize;
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Address end = byte_array.address() + byte_array.Size();
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for (Address addr = start; addr < end; addr += kTaggedSize) {
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CHECK(filter.IsValid(addr));
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}
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}
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}
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HEAP_TEST(InvalidatedSlotsSomeInvalidatedRanges) {
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CcTest::InitializeVM();
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Heap* heap = CcTest::heap();
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std::vector<ByteArray> byte_arrays;
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Page* page = AllocateByteArraysOnPage(heap, &byte_arrays);
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// Register every second byte arrays as invalidated.
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for (size_t i = 0; i < byte_arrays.size(); i += 2) {
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page->RegisterObjectWithInvalidatedSlots<OLD_TO_OLD>(byte_arrays[i],
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byte_arrays[i].Size());
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}
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InvalidatedSlotsFilter filter = InvalidatedSlotsFilter::OldToOld(page);
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for (size_t i = 0; i < byte_arrays.size(); i++) {
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ByteArray byte_array = byte_arrays[i];
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Address start = byte_array.address() + ByteArray::kHeaderSize;
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Address end = byte_array.address() + byte_array.Size();
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for (Address addr = start; addr < end; addr += kTaggedSize) {
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if (i % 2 == 0) {
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CHECK(!filter.IsValid(addr));
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} else {
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CHECK(filter.IsValid(addr));
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}
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}
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}
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}
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HEAP_TEST(InvalidatedSlotsAllInvalidatedRanges) {
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CcTest::InitializeVM();
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Heap* heap = CcTest::heap();
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std::vector<ByteArray> byte_arrays;
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Page* page = AllocateByteArraysOnPage(heap, &byte_arrays);
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// Register the all byte arrays as invalidated.
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for (size_t i = 0; i < byte_arrays.size(); i++) {
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page->RegisterObjectWithInvalidatedSlots<OLD_TO_OLD>(byte_arrays[i],
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byte_arrays[i].Size());
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}
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InvalidatedSlotsFilter filter = InvalidatedSlotsFilter::OldToOld(page);
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for (size_t i = 0; i < byte_arrays.size(); i++) {
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ByteArray byte_array = byte_arrays[i];
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Address start = byte_array.address() + ByteArray::kHeaderSize;
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Address end = byte_array.address() + byte_array.Size();
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for (Address addr = start; addr < end; addr += kTaggedSize) {
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CHECK(!filter.IsValid(addr));
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}
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}
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}
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HEAP_TEST(InvalidatedSlotsAfterTrimming) {
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ManualGCScope manual_gc_scope;
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CcTest::InitializeVM();
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Heap* heap = CcTest::heap();
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std::vector<ByteArray> byte_arrays;
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Page* page = AllocateByteArraysOnPage(heap, &byte_arrays);
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// Register the all byte arrays as invalidated.
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for (size_t i = 0; i < byte_arrays.size(); i++) {
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page->RegisterObjectWithInvalidatedSlots<OLD_TO_OLD>(byte_arrays[i],
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byte_arrays[i].Size());
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}
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// Trim byte arrays and check that the slots outside the byte arrays are
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// considered invalid if the old space page was swept.
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InvalidatedSlotsFilter filter = InvalidatedSlotsFilter::OldToOld(page);
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for (size_t i = 0; i < byte_arrays.size(); i++) {
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ByteArray byte_array = byte_arrays[i];
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Address start = byte_array.address() + ByteArray::kHeaderSize;
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Address end = byte_array.address() + byte_array.Size();
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heap->RightTrimFixedArray(byte_array, byte_array.length());
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for (Address addr = start; addr < end; addr += kTaggedSize) {
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CHECK_EQ(filter.IsValid(addr), page->SweepingDone());
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}
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}
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}
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HEAP_TEST(InvalidatedSlotsEvacuationCandidate) {
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ManualGCScope manual_gc_scope;
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CcTest::InitializeVM();
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Heap* heap = CcTest::heap();
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std::vector<ByteArray> byte_arrays;
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Page* page = AllocateByteArraysOnPage(heap, &byte_arrays);
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page->MarkEvacuationCandidate();
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// Register the all byte arrays as invalidated.
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// This should be no-op because the page is marked as evacuation
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// candidate.
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for (size_t i = 0; i < byte_arrays.size(); i++) {
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page->RegisterObjectWithInvalidatedSlots<OLD_TO_OLD>(byte_arrays[i],
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byte_arrays[i].Size());
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}
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// All slots must still be valid.
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InvalidatedSlotsFilter filter = InvalidatedSlotsFilter::OldToOld(page);
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for (size_t i = 0; i < byte_arrays.size(); i++) {
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ByteArray byte_array = byte_arrays[i];
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Address start = byte_array.address() + ByteArray::kHeaderSize;
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Address end = byte_array.address() + byte_array.Size();
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for (Address addr = start; addr < end; addr += kTaggedSize) {
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CHECK(filter.IsValid(addr));
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}
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}
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}
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HEAP_TEST(InvalidatedSlotsResetObjectRegression) {
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CcTest::InitializeVM();
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Heap* heap = CcTest::heap();
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std::vector<ByteArray> byte_arrays;
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Page* page = AllocateByteArraysOnPage(heap, &byte_arrays);
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// Ensure that the first array has smaller size then the rest.
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heap->RightTrimFixedArray(byte_arrays[0], byte_arrays[0].length() - 8);
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// Register the all byte arrays as invalidated.
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for (size_t i = 0; i < byte_arrays.size(); i++) {
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page->RegisterObjectWithInvalidatedSlots<OLD_TO_OLD>(byte_arrays[i],
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byte_arrays[i].Size());
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}
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// All slots must still be invalid.
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InvalidatedSlotsFilter filter = InvalidatedSlotsFilter::OldToOld(page);
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for (size_t i = 0; i < byte_arrays.size(); i++) {
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ByteArray byte_array = byte_arrays[i];
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Address start = byte_array.address() + ByteArray::kHeaderSize;
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Address end = byte_array.address() + byte_array.Size();
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for (Address addr = start; addr < end; addr += kTaggedSize) {
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CHECK(!filter.IsValid(addr));
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}
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}
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}
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Handle<FixedArray> AllocateArrayOnFreshPage(Isolate* isolate,
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PagedSpace* old_space, int length) {
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AlwaysAllocateScope always_allocate(isolate);
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heap::SimulateFullSpace(old_space);
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return isolate->factory()->NewFixedArray(length, AllocationType::kOld);
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}
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Handle<FixedArray> AllocateArrayOnEvacuationCandidate(Isolate* isolate,
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PagedSpace* old_space,
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int length) {
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Handle<FixedArray> object =
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AllocateArrayOnFreshPage(isolate, old_space, length);
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heap::ForceEvacuationCandidate(Page::FromHeapObject(*object));
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return object;
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}
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HEAP_TEST(InvalidatedSlotsRightTrimFixedArray) {
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FLAG_manual_evacuation_candidates_selection = true;
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FLAG_parallel_compaction = false;
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ManualGCScope manual_gc_scope;
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CcTest::InitializeVM();
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Isolate* isolate = CcTest::i_isolate();
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Factory* factory = isolate->factory();
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Heap* heap = CcTest::heap();
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HandleScope scope(isolate);
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PagedSpace* old_space = heap->old_space();
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// Allocate a dummy page to be swept be the sweeper during evacuation.
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AllocateArrayOnFreshPage(isolate, old_space, 1);
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Handle<FixedArray> evacuated =
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AllocateArrayOnEvacuationCandidate(isolate, old_space, 1);
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Handle<FixedArray> trimmed = AllocateArrayOnFreshPage(isolate, old_space, 10);
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heap::SimulateIncrementalMarking(heap);
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for (int i = 1; i < trimmed->length(); i++) {
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trimmed->set(i, *evacuated);
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}
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{
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HandleScope scope(isolate);
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Handle<HeapObject> dead = factory->NewFixedArray(1);
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for (int i = 1; i < trimmed->length(); i++) {
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trimmed->set(i, *dead);
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}
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heap->RightTrimFixedArray(*trimmed, trimmed->length() - 1);
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}
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CcTest::CollectGarbage(i::NEW_SPACE);
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CcTest::CollectGarbage(i::OLD_SPACE);
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}
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HEAP_TEST(InvalidatedSlotsRightTrimLargeFixedArray) {
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FLAG_manual_evacuation_candidates_selection = true;
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FLAG_parallel_compaction = false;
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ManualGCScope manual_gc_scope;
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CcTest::InitializeVM();
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Isolate* isolate = CcTest::i_isolate();
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Factory* factory = isolate->factory();
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Heap* heap = CcTest::heap();
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HandleScope scope(isolate);
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PagedSpace* old_space = heap->old_space();
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// Allocate a dummy page to be swept be the sweeper during evacuation.
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AllocateArrayOnFreshPage(isolate, old_space, 1);
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Handle<FixedArray> evacuated =
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AllocateArrayOnEvacuationCandidate(isolate, old_space, 1);
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Handle<FixedArray> trimmed;
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{
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AlwaysAllocateScope always_allocate(isolate);
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trimmed = factory->NewFixedArray(
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kMaxRegularHeapObjectSize / kTaggedSize + 100, AllocationType::kOld);
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DCHECK(MemoryChunk::FromHeapObject(*trimmed)->InLargeObjectSpace());
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}
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heap::SimulateIncrementalMarking(heap);
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for (int i = 1; i < trimmed->length(); i++) {
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trimmed->set(i, *evacuated);
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}
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{
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HandleScope scope(isolate);
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Handle<HeapObject> dead = factory->NewFixedArray(1);
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for (int i = 1; i < trimmed->length(); i++) {
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trimmed->set(i, *dead);
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}
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heap->RightTrimFixedArray(*trimmed, trimmed->length() - 1);
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}
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CcTest::CollectGarbage(i::NEW_SPACE);
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CcTest::CollectGarbage(i::OLD_SPACE);
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}
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HEAP_TEST(InvalidatedSlotsLeftTrimFixedArray) {
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FLAG_manual_evacuation_candidates_selection = true;
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FLAG_parallel_compaction = false;
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ManualGCScope manual_gc_scope;
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CcTest::InitializeVM();
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Isolate* isolate = CcTest::i_isolate();
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Factory* factory = isolate->factory();
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Heap* heap = CcTest::heap();
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HandleScope scope(isolate);
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PagedSpace* old_space = heap->old_space();
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// Allocate a dummy page to be swept be the sweeper during evacuation.
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AllocateArrayOnFreshPage(isolate, old_space, 1);
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Handle<FixedArray> evacuated =
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AllocateArrayOnEvacuationCandidate(isolate, old_space, 1);
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Handle<FixedArray> trimmed = AllocateArrayOnFreshPage(isolate, old_space, 10);
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heap::SimulateIncrementalMarking(heap);
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for (int i = 0; i + 1 < trimmed->length(); i++) {
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trimmed->set(i, *evacuated);
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}
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{
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HandleScope scope(isolate);
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Handle<HeapObject> dead = factory->NewFixedArray(1);
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for (int i = 1; i < trimmed->length(); i++) {
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trimmed->set(i, *dead);
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}
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heap->LeftTrimFixedArray(*trimmed, trimmed->length() - 1);
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}
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CcTest::CollectGarbage(i::NEW_SPACE);
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CcTest::CollectGarbage(i::OLD_SPACE);
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}
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HEAP_TEST(InvalidatedSlotsFastToSlow) {
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FLAG_manual_evacuation_candidates_selection = true;
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FLAG_parallel_compaction = false;
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ManualGCScope manual_gc_scope;
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CcTest::InitializeVM();
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Isolate* isolate = CcTest::i_isolate();
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Factory* factory = isolate->factory();
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Heap* heap = CcTest::heap();
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PagedSpace* old_space = heap->old_space();
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HandleScope scope(isolate);
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Handle<String> name = factory->InternalizeUtf8String("TestObject");
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Handle<String> prop_name1 = factory->InternalizeUtf8String("prop1");
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Handle<String> prop_name2 = factory->InternalizeUtf8String("prop2");
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Handle<String> prop_name3 = factory->InternalizeUtf8String("prop3");
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// Allocate a dummy page to be swept be the sweeper during evacuation.
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AllocateArrayOnFreshPage(isolate, old_space, 1);
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Handle<FixedArray> evacuated =
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AllocateArrayOnEvacuationCandidate(isolate, old_space, 1);
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// Allocate a dummy page to ensure that the JSObject is allocated on
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// a fresh page.
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AllocateArrayOnFreshPage(isolate, old_space, 1);
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Handle<JSObject> obj;
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{
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AlwaysAllocateScope always_allocate(isolate);
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Handle<JSFunction> function = factory->NewFunctionForTest(name);
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function->shared().set_expected_nof_properties(3);
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obj = factory->NewJSObject(function, AllocationType::kOld);
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}
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// Start incremental marking.
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heap::SimulateIncrementalMarking(heap);
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// Set properties to point to the evacuation candidate.
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Object::SetProperty(isolate, obj, prop_name1, evacuated).Check();
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Object::SetProperty(isolate, obj, prop_name2, evacuated).Check();
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Object::SetProperty(isolate, obj, prop_name3, evacuated).Check();
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{
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HandleScope scope(isolate);
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Handle<HeapObject> dead = factory->NewFixedArray(1);
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Object::SetProperty(isolate, obj, prop_name1, dead).Check();
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Object::SetProperty(isolate, obj, prop_name2, dead).Check();
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Object::SetProperty(isolate, obj, prop_name3, dead).Check();
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Handle<Map> map(obj->map(), isolate);
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Handle<Map> normalized_map =
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Map::Normalize(isolate, map, CLEAR_INOBJECT_PROPERTIES, "testing");
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JSObject::MigrateToMap(isolate, obj, normalized_map);
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}
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CcTest::CollectGarbage(i::NEW_SPACE);
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CcTest::CollectGarbage(i::OLD_SPACE);
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}
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HEAP_TEST(InvalidatedSlotsCleanupFull) {
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ManualGCScope manual_gc_scope;
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CcTest::InitializeVM();
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Heap* heap = CcTest::heap();
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std::vector<ByteArray> byte_arrays;
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Page* page = AllocateByteArraysOnPage(heap, &byte_arrays);
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// Register all byte arrays as invalidated.
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for (size_t i = 0; i < byte_arrays.size(); i++) {
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page->RegisterObjectWithInvalidatedSlots<OLD_TO_NEW>(byte_arrays[i],
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byte_arrays[i].Size());
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}
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// Mark full page as free
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InvalidatedSlotsCleanup cleanup = InvalidatedSlotsCleanup::OldToNew(page);
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cleanup.Free(page->area_start(), page->area_end());
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// After cleanup there should be no invalidated objects on page left
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CHECK(page->invalidated_slots<OLD_TO_NEW>()->empty());
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}
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HEAP_TEST(InvalidatedSlotsCleanupEachObject) {
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ManualGCScope manual_gc_scope;
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CcTest::InitializeVM();
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Heap* heap = CcTest::heap();
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std::vector<ByteArray> byte_arrays;
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Page* page = AllocateByteArraysOnPage(heap, &byte_arrays);
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// Register all byte arrays as invalidated.
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for (size_t i = 0; i < byte_arrays.size(); i++) {
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page->RegisterObjectWithInvalidatedSlots<OLD_TO_NEW>(byte_arrays[i],
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byte_arrays[i].Size());
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}
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// Mark each object as free on page
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InvalidatedSlotsCleanup cleanup = InvalidatedSlotsCleanup::OldToNew(page);
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for (size_t i = 0; i < byte_arrays.size(); i++) {
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Address free_start = byte_arrays[i].address();
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Address free_end = free_start + byte_arrays[i].Size();
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cleanup.Free(free_start, free_end);
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}
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// After cleanup there should be no invalidated objects on page left
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CHECK(page->invalidated_slots<OLD_TO_NEW>()->empty());
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}
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HEAP_TEST(InvalidatedSlotsCleanupRightTrim) {
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ManualGCScope manual_gc_scope;
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CcTest::InitializeVM();
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Heap* heap = CcTest::heap();
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std::vector<ByteArray> byte_arrays;
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Page* page = AllocateByteArraysOnPage(heap, &byte_arrays);
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CHECK_GT(byte_arrays.size(), 1);
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ByteArray& invalidated = byte_arrays[1];
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int invalidated_size = invalidated.Size();
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heap->RightTrimFixedArray(invalidated, invalidated.length() - 8);
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page->RegisterObjectWithInvalidatedSlots<OLD_TO_NEW>(invalidated,
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invalidated_size);
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// Free memory at end of invalidated object
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InvalidatedSlotsCleanup cleanup = InvalidatedSlotsCleanup::OldToNew(page);
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Address free_start = invalidated.address() + invalidated.Size();
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cleanup.Free(free_start, page->area_end());
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// After cleanup the invalidated object should be smaller
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InvalidatedSlots* invalidated_slots = page->invalidated_slots<OLD_TO_NEW>();
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CHECK_GE((*invalidated_slots)[HeapObject::FromAddress(invalidated.address())],
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invalidated.Size());
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CHECK_EQ(invalidated_slots->size(), 1);
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}
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} // namespace heap
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} // namespace internal
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} // namespace v8
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