2015-12-18 18:33:09 +00:00
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// Copyright 2015 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 <vector>
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#include "src/globals.h"
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#include "src/heap/heap.h"
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#include "src/heap/spaces.h"
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#include "src/heap/spaces-inl.h"
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#include "test/cctest/cctest.h"
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namespace v8 {
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namespace internal {
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static Address AllocateLabBackingStore(Heap* heap, intptr_t size_in_bytes) {
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AllocationResult result = heap->old_space()->AllocateRaw(
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static_cast<int>(size_in_bytes), kDoubleAligned);
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Object* obj = result.ToObjectChecked();
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Address adr = HeapObject::cast(obj)->address();
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return adr;
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}
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static void VerifyIterable(v8::internal::Address base,
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v8::internal::Address limit,
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std::vector<intptr_t> expected_size) {
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CHECK_LE(reinterpret_cast<intptr_t>(base), reinterpret_cast<intptr_t>(limit));
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HeapObject* object = nullptr;
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size_t counter = 0;
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while (base < limit) {
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object = HeapObject::FromAddress(base);
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CHECK(object->IsFiller());
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CHECK_LT(counter, expected_size.size());
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CHECK_EQ(expected_size[counter], object->Size());
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base += object->Size();
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counter++;
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}
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}
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static bool AllocateFromLab(Heap* heap, LocalAllocationBuffer* lab,
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intptr_t size_in_bytes,
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AllocationAlignment alignment = kWordAligned) {
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HeapObject* obj;
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AllocationResult result =
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lab->AllocateRawAligned(static_cast<int>(size_in_bytes), alignment);
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if (result.To(&obj)) {
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2016-02-25 14:36:13 +00:00
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heap->CreateFillerObjectAt(obj->address(), static_cast<int>(size_in_bytes),
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ClearRecordedSlots::kNo);
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2015-12-18 18:33:09 +00:00
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return true;
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}
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return false;
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}
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TEST(InvalidLab) {
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LocalAllocationBuffer lab = LocalAllocationBuffer::InvalidBuffer();
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CHECK(!lab.IsValid());
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}
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TEST(UnusedLabImplicitClose) {
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CcTest::InitializeVM();
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Heap* heap = CcTest::heap();
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heap->root(Heap::kOnePointerFillerMapRootIndex);
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const int kLabSize = 4 * KB;
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Address base = AllocateLabBackingStore(heap, kLabSize);
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Address limit = base + kLabSize;
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intptr_t expected_sizes_raw[1] = {kLabSize};
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std::vector<intptr_t> expected_sizes(expected_sizes_raw,
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expected_sizes_raw + 1);
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{
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AllocationResult lab_backing_store(HeapObject::FromAddress(base));
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LocalAllocationBuffer lab =
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LocalAllocationBuffer::FromResult(heap, lab_backing_store, kLabSize);
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CHECK(lab.IsValid());
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}
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VerifyIterable(base, limit, expected_sizes);
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}
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TEST(SimpleAllocate) {
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CcTest::InitializeVM();
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Heap* heap = CcTest::heap();
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const int kLabSize = 4 * KB;
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Address base = AllocateLabBackingStore(heap, kLabSize);
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Address limit = base + kLabSize;
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intptr_t sizes_raw[1] = {128};
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intptr_t expected_sizes_raw[2] = {128, kLabSize - 128};
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std::vector<intptr_t> sizes(sizes_raw, sizes_raw + 1);
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std::vector<intptr_t> expected_sizes(expected_sizes_raw,
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expected_sizes_raw + 2);
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{
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AllocationResult lab_backing_store(HeapObject::FromAddress(base));
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LocalAllocationBuffer lab =
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LocalAllocationBuffer::FromResult(heap, lab_backing_store, kLabSize);
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CHECK(lab.IsValid());
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intptr_t sum = 0;
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for (auto size : sizes) {
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if (AllocateFromLab(heap, &lab, size)) {
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sum += size;
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}
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}
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}
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VerifyIterable(base, limit, expected_sizes);
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}
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TEST(AllocateUntilLabOOM) {
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CcTest::InitializeVM();
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Heap* heap = CcTest::heap();
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const int kLabSize = 2 * KB;
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Address base = AllocateLabBackingStore(heap, kLabSize);
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Address limit = base + kLabSize;
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// The following objects won't fit in {kLabSize}.
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intptr_t sizes_raw[5] = {512, 512, 128, 512, 512};
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intptr_t expected_sizes_raw[5] = {512, 512, 128, 512, 384 /* left over */};
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std::vector<intptr_t> sizes(sizes_raw, sizes_raw + 5);
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std::vector<intptr_t> expected_sizes(expected_sizes_raw,
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expected_sizes_raw + 5);
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intptr_t sum = 0;
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{
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AllocationResult lab_backing_store(HeapObject::FromAddress(base));
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LocalAllocationBuffer lab =
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LocalAllocationBuffer::FromResult(heap, lab_backing_store, kLabSize);
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CHECK(lab.IsValid());
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for (auto size : sizes) {
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if (AllocateFromLab(heap, &lab, size)) {
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sum += size;
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}
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}
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CHECK_EQ(kLabSize - sum, 384);
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}
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VerifyIterable(base, limit, expected_sizes);
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}
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TEST(AllocateExactlyUntilLimit) {
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CcTest::InitializeVM();
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Heap* heap = CcTest::heap();
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const int kLabSize = 2 * KB;
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Address base = AllocateLabBackingStore(heap, kLabSize);
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Address limit = base + kLabSize;
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intptr_t sizes_raw[4] = {512, 512, 512, 512};
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intptr_t expected_sizes_raw[5] = {512, 512, 512, 512, 0};
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std::vector<intptr_t> sizes(sizes_raw, sizes_raw + 4);
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std::vector<intptr_t> expected_sizes(expected_sizes_raw,
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expected_sizes_raw + 5);
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{
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AllocationResult lab_backing_store(HeapObject::FromAddress(base));
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LocalAllocationBuffer lab =
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LocalAllocationBuffer::FromResult(heap, lab_backing_store, kLabSize);
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CHECK(lab.IsValid());
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intptr_t sum = 0;
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for (auto size : sizes) {
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if (AllocateFromLab(heap, &lab, size)) {
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sum += size;
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} else {
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break;
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}
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}
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CHECK_EQ(kLabSize - sum, 0);
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}
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VerifyIterable(base, limit, expected_sizes);
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}
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TEST(MergeSuccessful) {
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CcTest::InitializeVM();
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Heap* heap = CcTest::heap();
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const int kLabSize = 2 * KB;
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Address base1 = AllocateLabBackingStore(heap, kLabSize);
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Address limit1 = base1 + kLabSize;
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Address base2 = limit1;
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Address limit2 = base2 + kLabSize;
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intptr_t sizes1_raw[4] = {512, 512, 512, 256};
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intptr_t expected_sizes1_raw[5] = {512, 512, 512, 256, 256};
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std::vector<intptr_t> sizes1(sizes1_raw, sizes1_raw + 4);
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std::vector<intptr_t> expected_sizes1(expected_sizes1_raw,
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expected_sizes1_raw + 5);
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intptr_t sizes2_raw[5] = {256, 512, 512, 512, 512};
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intptr_t expected_sizes2_raw[10] = {512, 512, 512, 256, 256,
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512, 512, 512, 512, 0};
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std::vector<intptr_t> sizes2(sizes2_raw, sizes2_raw + 5);
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std::vector<intptr_t> expected_sizes2(expected_sizes2_raw,
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expected_sizes2_raw + 10);
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{
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AllocationResult lab_backing_store1(HeapObject::FromAddress(base1));
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LocalAllocationBuffer lab1 =
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LocalAllocationBuffer::FromResult(heap, lab_backing_store1, kLabSize);
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CHECK(lab1.IsValid());
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intptr_t sum = 0;
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for (auto size : sizes1) {
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if (AllocateFromLab(heap, &lab1, size)) {
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sum += size;
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} else {
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break;
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}
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}
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AllocationResult lab_backing_store2(HeapObject::FromAddress(base2));
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LocalAllocationBuffer lab2 =
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LocalAllocationBuffer::FromResult(heap, lab_backing_store2, kLabSize);
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CHECK(lab2.IsValid());
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CHECK(lab2.TryMerge(&lab1));
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CHECK(!lab1.IsValid());
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for (auto size : sizes2) {
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if (AllocateFromLab(heap, &lab2, size)) {
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sum += size;
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} else {
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break;
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}
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}
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CHECK_EQ(2 * kLabSize - sum, 0);
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}
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VerifyIterable(base1, limit1, expected_sizes1);
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VerifyIterable(base1, limit2, expected_sizes2);
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}
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TEST(MergeFailed) {
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CcTest::InitializeVM();
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Heap* heap = CcTest::heap();
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const int kLabSize = 2 * KB;
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Address base1 = AllocateLabBackingStore(heap, kLabSize);
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Address base2 = base1 + kLabSize;
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Address base3 = base2 + kLabSize;
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{
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AllocationResult lab_backing_store1(HeapObject::FromAddress(base1));
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LocalAllocationBuffer lab1 =
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LocalAllocationBuffer::FromResult(heap, lab_backing_store1, kLabSize);
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CHECK(lab1.IsValid());
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AllocationResult lab_backing_store2(HeapObject::FromAddress(base2));
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LocalAllocationBuffer lab2 =
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LocalAllocationBuffer::FromResult(heap, lab_backing_store2, kLabSize);
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CHECK(lab2.IsValid());
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AllocationResult lab_backing_store3(HeapObject::FromAddress(base3));
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LocalAllocationBuffer lab3 =
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LocalAllocationBuffer::FromResult(heap, lab_backing_store3, kLabSize);
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CHECK(lab3.IsValid());
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CHECK(!lab3.TryMerge(&lab1));
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}
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}
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#ifdef V8_HOST_ARCH_32_BIT
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TEST(AllocateAligned) {
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CcTest::InitializeVM();
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Heap* heap = CcTest::heap();
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const int kLabSize = 2 * KB;
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Address base = AllocateLabBackingStore(heap, kLabSize);
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Address limit = base + kLabSize;
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std::pair<intptr_t, AllocationAlignment> sizes_raw[2] = {
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std::make_pair(116, kWordAligned), std::make_pair(64, kDoubleAligned)};
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std::vector<std::pair<intptr_t, AllocationAlignment>> sizes(sizes_raw,
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sizes_raw + 2);
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intptr_t expected_sizes_raw[4] = {116, 4, 64, 1864};
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std::vector<intptr_t> expected_sizes(expected_sizes_raw,
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expected_sizes_raw + 4);
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{
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AllocationResult lab_backing_store(HeapObject::FromAddress(base));
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LocalAllocationBuffer lab =
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LocalAllocationBuffer::FromResult(heap, lab_backing_store, kLabSize);
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CHECK(lab.IsValid());
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for (auto pair : sizes) {
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if (!AllocateFromLab(heap, &lab, pair.first, pair.second)) {
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break;
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}
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}
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}
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VerifyIterable(base, limit, expected_sizes);
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}
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#endif // V8_HOST_ARCH_32_BIT
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} // namespace internal
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} // namespace v8
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