9ee631338e
when using snapshots. The alignment of new space has to match the alignment in the snapshot, but the max committed amount of memory does not. For now, we assume that the default semispace size is always used in a snapshot. Review URL: http://codereview.chromium.org/300036 git-svn-id: http://v8.googlecode.com/svn/branches/bleeding_edge@3106 ce2b1a6d-e550-0410-aec6-3dcde31c8c00
249 lines
7.5 KiB
C++
249 lines
7.5 KiB
C++
// Copyright 2006-2008 the V8 project authors. All rights reserved.
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// Redistribution and use in source and binary forms, with or without
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// modification, are permitted provided that the following conditions are
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// met:
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//
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// * Redistributions of source code must retain the above copyright
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// notice, this list of conditions and the following disclaimer.
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// * Redistributions in binary form must reproduce the above
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// copyright notice, this list of conditions and the following
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// disclaimer in the documentation and/or other materials provided
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// with the distribution.
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// * Neither the name of Google Inc. nor the names of its
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// contributors may be used to endorse or promote products derived
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// from this software without specific prior written permission.
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//
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// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
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// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
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// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
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// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
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// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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#include <stdlib.h>
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#include "v8.h"
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#include "cctest.h"
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using namespace v8::internal;
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static void VerifyRSet(Address page_start) {
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#ifdef DEBUG
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Page::set_rset_state(Page::IN_USE);
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#endif
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Page* p = Page::FromAddress(page_start);
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p->ClearRSet();
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for (Address addr = p->ObjectAreaStart();
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addr < p->ObjectAreaEnd();
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addr += kPointerSize) {
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CHECK(!Page::IsRSetSet(addr, 0));
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}
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for (Address addr = p->ObjectAreaStart();
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addr < p->ObjectAreaEnd();
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addr += kPointerSize) {
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Page::SetRSet(addr, 0);
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}
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for (Address addr = p->ObjectAreaStart();
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addr < p->ObjectAreaEnd();
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addr += kPointerSize) {
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CHECK(Page::IsRSetSet(addr, 0));
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}
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}
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TEST(Page) {
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#ifdef DEBUG
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Page::set_rset_state(Page::NOT_IN_USE);
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#endif
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byte* mem = NewArray<byte>(2*Page::kPageSize);
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CHECK(mem != NULL);
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Address start = reinterpret_cast<Address>(mem);
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Address page_start = RoundUp(start, Page::kPageSize);
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Page* p = Page::FromAddress(page_start);
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CHECK(p->address() == page_start);
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CHECK(p->is_valid());
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p->opaque_header = 0;
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p->is_normal_page = 0x1;
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CHECK(!p->next_page()->is_valid());
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CHECK(p->ObjectAreaStart() == page_start + Page::kObjectStartOffset);
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CHECK(p->ObjectAreaEnd() == page_start + Page::kPageSize);
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CHECK(p->Offset(page_start + Page::kObjectStartOffset) ==
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Page::kObjectStartOffset);
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CHECK(p->Offset(page_start + Page::kPageSize) == Page::kPageSize);
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CHECK(p->OffsetToAddress(Page::kObjectStartOffset) == p->ObjectAreaStart());
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CHECK(p->OffsetToAddress(Page::kPageSize) == p->ObjectAreaEnd());
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// test remember set
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VerifyRSet(page_start);
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DeleteArray(mem);
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}
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TEST(MemoryAllocator) {
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CHECK(Heap::ConfigureHeapDefault());
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CHECK(MemoryAllocator::Setup(Heap::MaxReserved()));
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OldSpace faked_space(Heap::MaxReserved(), OLD_POINTER_SPACE, NOT_EXECUTABLE);
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int total_pages = 0;
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int requested = 2;
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int allocated;
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// If we request two pages, we should get one or two.
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Page* first_page =
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MemoryAllocator::AllocatePages(requested, &allocated, &faked_space);
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CHECK(first_page->is_valid());
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CHECK(allocated > 0 && allocated <= 2);
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total_pages += allocated;
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Page* last_page = first_page;
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for (Page* p = first_page; p->is_valid(); p = p->next_page()) {
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CHECK(MemoryAllocator::IsPageInSpace(p, &faked_space));
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last_page = p;
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}
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// Again, we should get one or two pages.
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Page* others =
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MemoryAllocator::AllocatePages(requested, &allocated, &faked_space);
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CHECK(others->is_valid());
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CHECK(allocated > 0 && allocated <= 2);
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total_pages += allocated;
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MemoryAllocator::SetNextPage(last_page, others);
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int page_count = 0;
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for (Page* p = first_page; p->is_valid(); p = p->next_page()) {
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CHECK(MemoryAllocator::IsPageInSpace(p, &faked_space));
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page_count++;
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}
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CHECK(total_pages == page_count);
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Page* second_page = first_page->next_page();
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CHECK(second_page->is_valid());
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// Freeing pages at the first chunk starting at or after the second page
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// should free the entire second chunk. It will return the last page in the
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// first chunk (if the second page was in the first chunk) or else an
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// invalid page (if the second page was the start of the second chunk).
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Page* free_return = MemoryAllocator::FreePages(second_page);
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CHECK(free_return == last_page || !free_return->is_valid());
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MemoryAllocator::SetNextPage(first_page, free_return);
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// Freeing pages in the first chunk starting at the first page should free
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// the first chunk and return an invalid page.
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Page* invalid_page = MemoryAllocator::FreePages(first_page);
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CHECK(!invalid_page->is_valid());
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MemoryAllocator::TearDown();
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}
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TEST(NewSpace) {
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CHECK(Heap::ConfigureHeapDefault());
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CHECK(MemoryAllocator::Setup(Heap::MaxReserved()));
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NewSpace new_space;
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void* chunk =
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MemoryAllocator::ReserveInitialChunk(4 * Heap::ReservedSemiSpaceSize());
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CHECK(chunk != NULL);
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Address start = RoundUp(static_cast<Address>(chunk),
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2 * Heap::ReservedSemiSpaceSize());
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CHECK(new_space.Setup(start, 2 * Heap::ReservedSemiSpaceSize()));
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CHECK(new_space.HasBeenSetup());
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while (new_space.Available() >= Page::kMaxHeapObjectSize) {
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Object* obj = new_space.AllocateRaw(Page::kMaxHeapObjectSize);
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CHECK(!obj->IsFailure());
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CHECK(new_space.Contains(HeapObject::cast(obj)));
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}
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new_space.TearDown();
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MemoryAllocator::TearDown();
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}
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TEST(OldSpace) {
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CHECK(Heap::ConfigureHeapDefault());
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CHECK(MemoryAllocator::Setup(Heap::MaxReserved()));
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OldSpace* s = new OldSpace(Heap::MaxOldGenerationSize(),
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OLD_POINTER_SPACE,
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NOT_EXECUTABLE);
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CHECK(s != NULL);
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void* chunk =
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MemoryAllocator::ReserveInitialChunk(4 * Heap::ReservedSemiSpaceSize());
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CHECK(chunk != NULL);
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Address start = static_cast<Address>(chunk);
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size_t size = RoundUp(start, 2 * Heap::ReservedSemiSpaceSize()) - start;
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CHECK(s->Setup(start, size));
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while (s->Available() > 0) {
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Object* obj = s->AllocateRaw(Page::kMaxHeapObjectSize);
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CHECK(!obj->IsFailure());
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}
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s->TearDown();
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delete s;
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MemoryAllocator::TearDown();
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}
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TEST(LargeObjectSpace) {
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CHECK(Heap::Setup(false));
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LargeObjectSpace* lo = Heap::lo_space();
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CHECK(lo != NULL);
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Map* faked_map = reinterpret_cast<Map*>(HeapObject::FromAddress(0));
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int lo_size = Page::kPageSize;
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Object* obj = lo->AllocateRaw(lo_size);
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CHECK(!obj->IsFailure());
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CHECK(obj->IsHeapObject());
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HeapObject* ho = HeapObject::cast(obj);
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ho->set_map(faked_map);
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CHECK(lo->Contains(HeapObject::cast(obj)));
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CHECK(lo->FindObject(ho->address()) == obj);
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CHECK(lo->Contains(ho));
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while (true) {
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int available = lo->Available();
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obj = lo->AllocateRaw(lo_size);
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if (obj->IsFailure()) break;
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HeapObject::cast(obj)->set_map(faked_map);
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CHECK(lo->Available() < available);
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};
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CHECK(!lo->IsEmpty());
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obj = lo->AllocateRaw(lo_size);
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CHECK(obj->IsFailure());
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lo->TearDown();
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delete lo;
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MemoryAllocator::TearDown();
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}
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