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7f58ced72e
v8/test/cctest/heap/test-weak-references.cc
Jakob Gruber 7f58ced72e [deoptimizer] Change deopt entries into builtins 
While the overall goal of this commit is to change deoptimization
entries into builtins, there are multiple related things happening:

- Deoptimization entries, formerly stubs (i.e. Code objects generated
  at runtime, guaranteed to be immovable), have been converted into
  builtins. The major restriction is that we now need to preserve the
  kRootRegister, which was formerly used on most architectures to pass
  the deoptimization id. The solution differs based on platform.
- Renamed DEOPT_ENTRIES_OR_FOR_TESTING code kind to FOR_TESTING.
- Removed heap/ support for immovable Code generation.
- Removed the DeserializerData class (no longer needed).
- arm64: to preserve 4-byte deopt exits, introduced a new optimization
  in which the final jump to the deoptimization entry is generated
  once per Code object, and deopt exits can continue to emit a
  near-call.
- arm,ia32,x64: change to fixed-size deopt exits. This reduces exit
  sizes by 4/8, 5, and 5 bytes, respectively.

On arm the deopt exit size is reduced from 12 (or 16) bytes to 8 bytes
by using the same strategy as on arm64 (recalc deopt id from return
address). Before:

 e300a002       movw r10, <id>
 e59fc024       ldr ip, [pc, <entry offset>]
 e12fff3c       blx ip

After:

 e59acb35       ldr ip, [r10, <entry offset>]
 e12fff3c       blx ip

On arm64 the deopt exit size remains 4 bytes (or 8 bytes in same cases
with CFI). Additionally, up to 4 builtin jumps are emitted per Code
object (max 32 bytes added overhead per Code object). Before:

 9401cdae       bl <entry offset>

After:

 # eager deoptimization entry jump.
 f95b1f50       ldr x16, [x26, <eager entry offset>]
 d61f0200       br x16
 # lazy deoptimization entry jump.
 f95b2b50       ldr x16, [x26, <lazy entry offset>]
 d61f0200       br x16
 # the deopt exit.
 97fffffc       bl <eager deoptimization entry jump offset>

On ia32 the deopt exit size is reduced from 10 to 5 bytes. Before:

 bb00000000     mov ebx,<id>
 e825f5372b     call <entry>

After:

 e8ea2256ba     call <entry>

On x64 the deopt exit size is reduced from 12 to 7 bytes. Before:

 49c7c511000000 REX.W movq r13,<id>
 e8ea2f0700     call <entry>

After:

 41ff9560360000 call [r13+<entry offset>]

Bug: v8:8661,v8:8768
Change-Id: I13e30aedc360474dc818fecc528ce87c3bfeed42
Reviewed-on: https://chromium-review.googlesource.com/c/v8/v8/+/2465834
Commit-Queue: Jakob Gruber <jgruber@chromium.org>
Reviewed-by: Ross McIlroy <rmcilroy@chromium.org>
Reviewed-by: Tobias Tebbi <tebbi@chromium.org>
Reviewed-by: Ulan Degenbaev <ulan@chromium.org>
Cr-Commit-Position: refs/heads/master@{#70597}
2020-10-19 07:32:48 +00:00

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// Copyright 2018 the V8 project authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "src/api/api-inl.h"
#include "src/codegen/assembler-inl.h"
#include "src/execution/isolate.h"
#include "src/heap/factory.h"
#include "src/heap/heap-inl.h"
#include "src/objects/smi.h"
#include "test/cctest/cctest.h"
#include "test/cctest/heap/heap-tester.h"
#include "test/cctest/heap/heap-utils.h"
namespace v8 {
namespace internal {
namespace heap {
Handle<LoadHandler> CreateLoadHandlerForTest(
Factory* factory, AllocationType allocation = AllocationType::kYoung) {
Handle<LoadHandler> result = factory->NewLoadHandler(1, allocation);
result->set_smi_handler(Smi::zero());
result->set_validity_cell(Smi::zero());
result->set_data1(MaybeObject::FromSmi(Smi::zero()));
return result;
}
TEST(WeakReferencesBasic) {
CcTest::InitializeVM();
Isolate* isolate = CcTest::i_isolate();
Factory* factory = isolate->factory();
HandleScope outer_scope(isolate);
Handle<LoadHandler> lh = CreateLoadHandlerForTest(factory);
if (!FLAG_single_generation) CHECK(Heap::InYoungGeneration(*lh));
MaybeObject code_object = lh->data1();
CHECK(code_object->IsSmi());
CcTest::CollectAllGarbage();
CHECK(FLAG_always_promote_young_mc ? !Heap::InYoungGeneration(*lh)
: Heap::InYoungGeneration(*lh));
CHECK_EQ(code_object, lh->data1());
{
HandleScope inner_scope(isolate);
// Create a new Code.
Assembler assm(AssemblerOptions{});
assm.nop(); // supported on all architectures
CodeDesc desc;
assm.GetCode(isolate, &desc);
Handle<Code> code =
Factory::CodeBuilder(isolate, desc, CodeKind::FOR_TESTING).Build();
CHECK(code->IsCode());
lh->set_data1(HeapObjectReference::Weak(*code));
HeapObject code_heap_object;
CHECK(lh->data1()->GetHeapObjectIfWeak(&code_heap_object));
CHECK_EQ(*code, code_heap_object);
CcTest::CollectAllGarbage();
CHECK(lh->data1()->GetHeapObjectIfWeak(&code_heap_object));
CHECK_EQ(*code, code_heap_object);
} // code will go out of scope.
CcTest::CollectAllGarbage();
CHECK(lh->data1()->IsCleared());
}
TEST(WeakReferencesOldToOld) {
// Like WeakReferencesBasic, but the updated weak slot is in the old space,
// and referring to an old space object.
ManualGCScope manual_gc_scope;
FLAG_manual_evacuation_candidates_selection = true;
CcTest::InitializeVM();
Isolate* isolate = CcTest::i_isolate();
Factory* factory = isolate->factory();
Heap* heap = isolate->heap();
HandleScope outer_scope(isolate);
Handle<LoadHandler> lh =
CreateLoadHandlerForTest(factory, AllocationType::kOld);
CHECK(heap->InOldSpace(*lh));
// Create a new FixedArray which the LoadHandler will point to.
Handle<FixedArray> fixed_array =
factory->NewFixedArray(1, AllocationType::kOld);
CHECK(heap->InOldSpace(*fixed_array));
lh->set_data1(HeapObjectReference::Weak(*fixed_array));
Page* page_before_gc = Page::FromHeapObject(*fixed_array);
heap::ForceEvacuationCandidate(page_before_gc);
CcTest::CollectAllGarbage();
CHECK(heap->InOldSpace(*fixed_array));
HeapObject heap_object;
CHECK(lh->data1()->GetHeapObjectIfWeak(&heap_object));
CHECK_EQ(heap_object, *fixed_array);
}
TEST(WeakReferencesOldToNew) {
// Like WeakReferencesBasic, but the updated weak slot is in the old space,
// and referring to an new space object.
if (FLAG_single_generation) return;
CcTest::InitializeVM();
Isolate* isolate = CcTest::i_isolate();
Factory* factory = isolate->factory();
Heap* heap = isolate->heap();
HandleScope outer_scope(isolate);
Handle<LoadHandler> lh =
CreateLoadHandlerForTest(factory, AllocationType::kOld);
CHECK(heap->InOldSpace(*lh));
// Create a new FixedArray which the LoadHandler will point to.
Handle<FixedArray> fixed_array = factory->NewFixedArray(1);
CHECK(Heap::InYoungGeneration(*fixed_array));
lh->set_data1(HeapObjectReference::Weak(*fixed_array));
CcTest::CollectAllGarbage();
HeapObject heap_object;
CHECK(lh->data1()->GetHeapObjectIfWeak(&heap_object));
CHECK_EQ(heap_object, *fixed_array);
}
TEST(WeakReferencesOldToNewScavenged) {
if (FLAG_single_generation) return;
// Like WeakReferencesBasic, but the updated weak slot is in the old space,
// and referring to an new space object, which is then scavenged.
CcTest::InitializeVM();
Isolate* isolate = CcTest::i_isolate();
Factory* factory = isolate->factory();
Heap* heap = isolate->heap();
HandleScope outer_scope(isolate);
Handle<LoadHandler> lh =
CreateLoadHandlerForTest(factory, AllocationType::kOld);
CHECK(heap->InOldSpace(*lh));
// Create a new FixedArray which the LoadHandler will point to.
Handle<FixedArray> fixed_array = factory->NewFixedArray(1);
CHECK(Heap::InYoungGeneration(*fixed_array));
lh->set_data1(HeapObjectReference::Weak(*fixed_array));
CcTest::CollectGarbage(NEW_SPACE);
HeapObject heap_object;
CHECK(lh->data1()->GetHeapObjectIfWeak(&heap_object));
CHECK_EQ(heap_object, *fixed_array);
}
TEST(WeakReferencesOldToCleared) {
// Like WeakReferencesBasic, but the updated weak slot is in the old space,
// and is cleared.
ManualGCScope manual_gc_scope;
FLAG_manual_evacuation_candidates_selection = true;
CcTest::InitializeVM();
Isolate* isolate = CcTest::i_isolate();
Factory* factory = isolate->factory();
Heap* heap = isolate->heap();
HandleScope outer_scope(isolate);
Handle<LoadHandler> lh =
CreateLoadHandlerForTest(factory, AllocationType::kOld);
CHECK(heap->InOldSpace(*lh));
lh->set_data1(HeapObjectReference::ClearedValue(isolate));
CcTest::CollectAllGarbage();
CHECK(lh->data1()->IsCleared());
}
TEST(ObjectMovesBeforeClearingWeakField) {
if (!FLAG_incremental_marking || FLAG_single_generation) {
return;
}
ManualGCScope manual_gc_scope;
CcTest::InitializeVM();
Isolate* isolate = CcTest::i_isolate();
Factory* factory = isolate->factory();
Heap* heap = isolate->heap();
HandleScope outer_scope(isolate);
Handle<LoadHandler> lh = CreateLoadHandlerForTest(factory);
CHECK(InCorrectGeneration(*lh));
LoadHandler lh_location = *lh;
{
HandleScope inner_scope(isolate);
// Create a new FixedArray which the LoadHandler will point to.
Handle<FixedArray> fixed_array = factory->NewFixedArray(1);
CHECK(Heap::InYoungGeneration(*fixed_array));
lh->set_data1(HeapObjectReference::Weak(*fixed_array));
// inner_scope will go out of scope, so when marking the next time,
// *fixed_array will stay white.
}
// Do marking steps; this will store *lh into the list for later processing
// (since it points to a white object).
SimulateIncrementalMarking(heap, true);
// Scavenger will move *lh.
CcTest::CollectGarbage(NEW_SPACE);
LoadHandler new_lh_location = *lh;
CHECK_NE(lh_location, new_lh_location);
CHECK(lh->data1()->IsWeak());
// Now we try to clear *lh.
CcTest::CollectAllGarbage();
CHECK(lh->data1()->IsCleared());
}
TEST(ObjectWithWeakFieldDies) {
if (!FLAG_incremental_marking) {
return;
}
ManualGCScope manual_gc_scope;
CcTest::InitializeVM();
Isolate* isolate = CcTest::i_isolate();
Factory* factory = isolate->factory();
Heap* heap = isolate->heap();
{
HandleScope outer_scope(isolate);
Handle<LoadHandler> lh = CreateLoadHandlerForTest(factory);
CHECK(InCorrectGeneration(*lh));
{
HandleScope inner_scope(isolate);
// Create a new FixedArray which the LoadHandler will point to.
Handle<FixedArray> fixed_array = factory->NewFixedArray(1);
CHECK(InCorrectGeneration(*fixed_array));
lh->set_data1(HeapObjectReference::Weak(*fixed_array));
// inner_scope will go out of scope, so when marking the next time,
// *fixed_array will stay white.
}
// Do marking steps; this will store *lh into the list for later processing
// (since it points to a white object).
SimulateIncrementalMarking(heap, true);
} // outer_scope goes out of scope
// lh will die
CcTest::CollectGarbage(NEW_SPACE);
// This used to crash when processing the dead weak reference.
CcTest::CollectAllGarbage();
}
TEST(ObjectWithWeakReferencePromoted) {
if (FLAG_single_generation) return;
CcTest::InitializeVM();
Isolate* isolate = CcTest::i_isolate();
Factory* factory = isolate->factory();
Heap* heap = isolate->heap();
HandleScope outer_scope(isolate);
Handle<LoadHandler> lh = CreateLoadHandlerForTest(factory);
CHECK(Heap::InYoungGeneration(*lh));
// Create a new FixedArray which the LoadHandler will point to.
Handle<FixedArray> fixed_array = factory->NewFixedArray(1);
CHECK(Heap::InYoungGeneration(*fixed_array));
lh->set_data1(HeapObjectReference::Weak(*fixed_array));
CcTest::CollectGarbage(NEW_SPACE);
CcTest::CollectGarbage(NEW_SPACE);
CHECK(heap->InOldSpace(*lh));
CHECK(heap->InOldSpace(*fixed_array));
HeapObject heap_object;
CHECK(lh->data1()->GetHeapObjectIfWeak(&heap_object));
CHECK_EQ(heap_object, *fixed_array);
}
TEST(ObjectWithClearedWeakReferencePromoted) {
if (FLAG_single_generation) return;
CcTest::InitializeVM();
Isolate* isolate = CcTest::i_isolate();
Factory* factory = isolate->factory();
Heap* heap = isolate->heap();
HandleScope outer_scope(isolate);
Handle<LoadHandler> lh = CreateLoadHandlerForTest(factory);
CHECK(Heap::InYoungGeneration(*lh));
lh->set_data1(HeapObjectReference::ClearedValue(isolate));
CcTest::CollectGarbage(NEW_SPACE);
CHECK(Heap::InYoungGeneration(*lh));
CHECK(lh->data1()->IsCleared());
CcTest::CollectGarbage(NEW_SPACE);
CHECK(heap->InOldSpace(*lh));
CHECK(lh->data1()->IsCleared());
CcTest::CollectAllGarbage();
CHECK(lh->data1()->IsCleared());
}
TEST(WeakReferenceWriteBarrier) {
if (!FLAG_incremental_marking) {
return;
}
ManualGCScope manual_gc_scope;
CcTest::InitializeVM();
Isolate* isolate = CcTest::i_isolate();
Factory* factory = isolate->factory();
Heap* heap = isolate->heap();
HandleScope outer_scope(isolate);
Handle<LoadHandler> lh = CreateLoadHandlerForTest(factory);
CHECK(InCorrectGeneration(*lh));
{
HandleScope inner_scope(isolate);
// Create a new FixedArray which the LoadHandler will point to.
Handle<FixedArray> fixed_array1 = factory->NewFixedArray(1);
CHECK(InCorrectGeneration(*fixed_array1));
lh->set_data1(HeapObjectReference::Weak(*fixed_array1));
SimulateIncrementalMarking(heap, true);
Handle<FixedArray> fixed_array2 = factory->NewFixedArray(1);
CHECK(InCorrectGeneration(*fixed_array2));
// This write will trigger the write barrier.
lh->set_data1(HeapObjectReference::Weak(*fixed_array2));
}
CcTest::CollectAllGarbage();
// Check that the write barrier treated the weak reference as strong.
CHECK(lh->data1()->IsWeak());
}
TEST(EmptyWeakArray) {
CcTest::InitializeVM();
Isolate* isolate = CcTest::i_isolate();
Factory* factory = isolate->factory();
HandleScope outer_scope(isolate);
Handle<WeakFixedArray> array = factory->empty_weak_fixed_array();
CHECK(array->IsWeakFixedArray());
CHECK(!array->IsFixedArray());
CHECK_EQ(array->length(), 0);
}
TEST(WeakArraysBasic) {
ManualGCScope manual_gc_scope;
CcTest::InitializeVM();
Isolate* isolate = CcTest::i_isolate();
Factory* factory = isolate->factory();
Heap* heap = isolate->heap();
HandleScope outer_scope(isolate);
const int length = 4;
Handle<WeakFixedArray> array = factory->NewWeakFixedArray(length);
CHECK(array->IsWeakFixedArray());
CHECK(!array->IsFixedArray());
CHECK_EQ(array->length(), length);
if (!FLAG_single_generation) CHECK(Heap::InYoungGeneration(*array));
for (int i = 0; i < length; ++i) {
HeapObject heap_object;
CHECK(array->Get(i)->GetHeapObjectIfStrong(&heap_object));
CHECK_EQ(heap_object, ReadOnlyRoots(heap).undefined_value());
}
Handle<HeapObject> saved;
{
HandleScope inner_scope(isolate);
Handle<FixedArray> index0 = factory->NewFixedArray(1);
index0->set(0, Smi::FromInt(2016));
Handle<FixedArray> index1 = factory->NewFixedArray(1);
index1->set(0, Smi::FromInt(2017));
Handle<FixedArray> index2 = factory->NewFixedArray(1);
index2->set(0, Smi::FromInt(2018));
Handle<FixedArray> index3 = factory->NewFixedArray(1);
index3->set(0, Smi::FromInt(2019));
array->Set(0, HeapObjectReference::Weak(*index0));
array->Set(1, HeapObjectReference::Weak(*index1));
array->Set(2, HeapObjectReference::Strong(*index2));
array->Set(3, HeapObjectReference::Weak(*index3));
saved = inner_scope.CloseAndEscape(index1);
} // inner_scope goes out of scope.
// The references are only cleared by the mark-compact (scavenger treats weak
// references as strong). Thus we need to GC until the array reaches old
// space.
// TODO(marja): update this when/if we do handle weak references in the new
// space.
CcTest::CollectGarbage(NEW_SPACE);
HeapObject heap_object;
CHECK(array->Get(0)->GetHeapObjectIfWeak(&heap_object));
CHECK_EQ(Smi::cast(FixedArray::cast(heap_object).get(0)).value(), 2016);
CHECK(array->Get(1)->GetHeapObjectIfWeak(&heap_object));
CHECK_EQ(Smi::cast(FixedArray::cast(heap_object).get(0)).value(), 2017);
CHECK(array->Get(2)->GetHeapObjectIfStrong(&heap_object));
CHECK_EQ(Smi::cast(FixedArray::cast(heap_object).get(0)).value(), 2018);
CHECK(array->Get(3)->GetHeapObjectIfWeak(&heap_object));
CHECK_EQ(Smi::cast(FixedArray::cast(heap_object).get(0)).value(), 2019);
CcTest::CollectAllGarbage();
CHECK(heap->InOldSpace(*array));
CHECK(array->Get(0)->IsCleared());
CHECK(array->Get(1)->GetHeapObjectIfWeak(&heap_object));
CHECK_EQ(Smi::cast(FixedArray::cast(heap_object).get(0)).value(), 2017);
CHECK(array->Get(2)->GetHeapObjectIfStrong(&heap_object));
CHECK_EQ(Smi::cast(FixedArray::cast(heap_object).get(0)).value(), 2018);
CHECK(array->Get(3)->IsCleared());
}
TEST(WeakArrayListBasic) {
ManualGCScope manual_gc_scope;
CcTest::InitializeVM();
Isolate* isolate = CcTest::i_isolate();
Factory* factory = isolate->factory();
Heap* heap = isolate->heap();
HandleScope outer_scope(isolate);
Handle<WeakArrayList> array(ReadOnlyRoots(heap).empty_weak_array_list(),
isolate);
CHECK(array->IsWeakArrayList());
CHECK(!array->IsFixedArray());
CHECK(!array->IsWeakFixedArray());
CHECK_EQ(array->length(), 0);
Handle<FixedArray> index2 = factory->NewFixedArray(1);
index2->set(0, Smi::FromInt(2017));
Handle<HeapObject> saved;
{
HandleScope inner_scope(isolate);
Handle<FixedArray> index0 = factory->NewFixedArray(1);
index0->set(0, Smi::FromInt(2016));
Handle<FixedArray> index4 = factory->NewFixedArray(1);
index4->set(0, Smi::FromInt(2018));
Handle<FixedArray> index6 = factory->NewFixedArray(1);
index6->set(0, Smi::FromInt(2019));
array = WeakArrayList::AddToEnd(isolate, array,
MaybeObjectHandle::Weak(index0));
array = WeakArrayList::AddToEnd(
isolate, array, MaybeObjectHandle(Smi::FromInt(1), isolate));
CHECK_EQ(array->length(), 2);
array = WeakArrayList::AddToEnd(isolate, array,
MaybeObjectHandle::Weak(index2));
array = WeakArrayList::AddToEnd(
isolate, array, MaybeObjectHandle(Smi::FromInt(3), isolate));
CHECK_EQ(array->length(), 4);
array = WeakArrayList::AddToEnd(isolate, array,
MaybeObjectHandle::Weak(index4));
array = WeakArrayList::AddToEnd(
isolate, array, MaybeObjectHandle(Smi::FromInt(5), isolate));
CHECK_EQ(array->length(), 6);
array = WeakArrayList::AddToEnd(isolate, array,
MaybeObjectHandle::Weak(index6));
array = WeakArrayList::AddToEnd(
isolate, array, MaybeObjectHandle(Smi::FromInt(7), isolate));
CHECK_EQ(array->length(), 8);
CHECK(InCorrectGeneration(*array));
CHECK_EQ(array->Get(0), HeapObjectReference::Weak(*index0));
CHECK_EQ(array->Get(1).ToSmi().value(), 1);
CHECK_EQ(array->Get(2), HeapObjectReference::Weak(*index2));
CHECK_EQ(array->Get(3).ToSmi().value(), 3);
CHECK_EQ(array->Get(4), HeapObjectReference::Weak(*index4));
CHECK_EQ(array->Get(5).ToSmi().value(), 5);
CHECK_EQ(array->Get(6), HeapObjectReference::Weak(*index6));
array = inner_scope.CloseAndEscape(array);
} // inner_scope goes out of scope.
// The references are only cleared by the mark-compact (scavenger treats weak
// references as strong). Thus we need to GC until the array reaches old
// space.
// TODO(marja): update this when/if we do handle weak references in the new
// space.
CcTest::CollectGarbage(NEW_SPACE);
HeapObject heap_object;
CHECK_EQ(array->length(), 8);
CHECK(array->Get(0)->GetHeapObjectIfWeak(&heap_object));
CHECK_EQ(Smi::cast(FixedArray::cast(heap_object).get(0)).value(), 2016);
CHECK_EQ(array->Get(1).ToSmi().value(), 1);
CHECK(array->Get(2)->GetHeapObjectIfWeak(&heap_object));
CHECK_EQ(Smi::cast(FixedArray::cast(heap_object).get(0)).value(), 2017);
CHECK_EQ(array->Get(3).ToSmi().value(), 3);
CHECK(array->Get(4)->GetHeapObjectIfWeak(&heap_object));
CHECK_EQ(Smi::cast(FixedArray::cast(heap_object).get(0)).value(), 2018);
CHECK_EQ(array->Get(5).ToSmi().value(), 5);
CHECK(array->Get(6)->GetHeapObjectIfWeak(&heap_object));
CHECK_EQ(Smi::cast(FixedArray::cast(heap_object).get(0)).value(), 2019);
CHECK_EQ(array->Get(7).ToSmi().value(), 7);
CcTest::CollectAllGarbage();
CHECK(heap->InOldSpace(*array));
CHECK_EQ(array->length(), 8);
CHECK(array->Get(0)->IsCleared());
CHECK_EQ(array->Get(1).ToSmi().value(), 1);
CHECK(array->Get(2)->GetHeapObjectIfWeak(&heap_object));
CHECK_EQ(Smi::cast(FixedArray::cast(heap_object).get(0)).value(), 2017);
CHECK_EQ(array->Get(3).ToSmi().value(), 3);
CHECK(array->Get(4)->IsCleared());
CHECK_EQ(array->Get(5).ToSmi().value(), 5);
CHECK(array->Get(6)->IsCleared());
CHECK_EQ(array->Get(7).ToSmi().value(), 7);
}
TEST(WeakArrayListRemove) {
ManualGCScope manual_gc_scope;
CcTest::InitializeVM();
Isolate* isolate = CcTest::i_isolate();
Factory* factory = isolate->factory();
Heap* heap = isolate->heap();
HandleScope outer_scope(isolate);
Handle<WeakArrayList> array(ReadOnlyRoots(heap).empty_weak_array_list(),
isolate);
Handle<FixedArray> elem0 = factory->NewFixedArray(1);
Handle<FixedArray> elem1 = factory->NewFixedArray(1);
Handle<FixedArray> elem2 = factory->NewFixedArray(1);
array =
WeakArrayList::AddToEnd(isolate, array, MaybeObjectHandle::Weak(elem0));
array =
WeakArrayList::AddToEnd(isolate, array, MaybeObjectHandle::Weak(elem1));
array =
WeakArrayList::AddToEnd(isolate, array, MaybeObjectHandle::Weak(elem2));
CHECK_EQ(array->length(), 3);
CHECK_EQ(array->Get(0), HeapObjectReference::Weak(*elem0));
CHECK_EQ(array->Get(1), HeapObjectReference::Weak(*elem1));
CHECK_EQ(array->Get(2), HeapObjectReference::Weak(*elem2));
CHECK(array->RemoveOne(MaybeObjectHandle::Weak(elem1)));
CHECK_EQ(array->length(), 2);
CHECK_EQ(array->Get(0), HeapObjectReference::Weak(*elem0));
CHECK_EQ(array->Get(1), HeapObjectReference::Weak(*elem2));
CHECK(!array->RemoveOne(MaybeObjectHandle::Weak(elem1)));
CHECK_EQ(array->length(), 2);
CHECK_EQ(array->Get(0), HeapObjectReference::Weak(*elem0));
CHECK_EQ(array->Get(1), HeapObjectReference::Weak(*elem2));
CHECK(array->RemoveOne(MaybeObjectHandle::Weak(elem0)));
CHECK_EQ(array->length(), 1);
CHECK_EQ(array->Get(0), HeapObjectReference::Weak(*elem2));
CHECK(array->RemoveOne(MaybeObjectHandle::Weak(elem2)));
CHECK_EQ(array->length(), 0);
}
TEST(Regress7768) {
i::FLAG_allow_natives_syntax = true;
i::FLAG_turbo_inlining = false;
if (!FLAG_incremental_marking) {
return;
}
ManualGCScope manual_gc_scope;
CcTest::InitializeVM();
LocalContext context;
Isolate* isolate = CcTest::i_isolate();
Heap* heap = isolate->heap();
HandleScope outer_scope(isolate);
// Create an optimized code which will contain a weak reference to another
// function ("f"). The weak reference is the only reference to the function.
CompileRun(
"function myfunc(f) { f(); } "
"%PrepareFunctionForOptimization(myfunc); "
"(function wrapper() { "
" function f() {}; myfunc(f); myfunc(f); "
" %OptimizeFunctionOnNextCall(myfunc); myfunc(f); "
" %ClearFunctionFeedback(wrapper);"
"})(); "
"%ClearFunctionFeedback(myfunc);");
// Do marking steps; this will store the objects pointed by myfunc for later
// processing.
SimulateIncrementalMarking(heap, true);
// Deoptimize the code; now the pointers inside it will be replaced with
// undefined, and the weak_objects_in_code is the only place pointing to the
// function f.
CompileRun("%DeoptimizeFunction(myfunc);");
// The object pointed to by the weak reference won't be scavenged.
CcTest::CollectGarbage(NEW_SPACE);
// Make sure the memory where it's stored is invalidated, so that we'll crash
// if we try to access it.
HeapTester::UncommitFromSpace(heap);
// This used to crash when processing the dead weak reference.
CcTest::CollectAllGarbage();
}
TEST(PrototypeUsersBasic) {
CcTest::InitializeVM();
LocalContext context;
Isolate* isolate = CcTest::i_isolate();
Factory* factory = isolate->factory();
Heap* heap = isolate->heap();
HandleScope outer_scope(isolate);
Handle<WeakArrayList> array(ReadOnlyRoots(heap).empty_weak_array_list(),
isolate);
// Add some objects into the array.
int index = -1;
{
Handle<Map> map = factory->NewMap(JS_OBJECT_TYPE, JSObject::kHeaderSize);
array = PrototypeUsers::Add(isolate, array, map, &index);
CHECK_EQ(array->length(), index + 1);
}
CHECK_EQ(index, 1);
int empty_index = index;
PrototypeUsers::MarkSlotEmpty(*array, empty_index);
// Even though we have an empty slot, we still add to the end.
int last_index = index;
int old_capacity = array->capacity();
while (!array->IsFull()) {
Handle<Map> map = factory->NewMap(JS_OBJECT_TYPE, JSObject::kHeaderSize);
array = PrototypeUsers::Add(isolate, array, map, &index);
CHECK_EQ(index, last_index + 1);
CHECK_EQ(array->length(), index + 1);
last_index = index;
}
// The next addition will fill the empty slot.
{
Handle<Map> map = factory->NewMap(JS_OBJECT_TYPE, JSObject::kHeaderSize);
array = PrototypeUsers::Add(isolate, array, map, &index);
}
CHECK_EQ(index, empty_index);
// The next addition will make the arrow grow again.
{
Handle<Map> map = factory->NewMap(JS_OBJECT_TYPE, JSObject::kHeaderSize);
array = PrototypeUsers::Add(isolate, array, map, &index);
CHECK_EQ(array->length(), index + 1);
last_index = index;
}
CHECK_GT(array->capacity(), old_capacity);
// Make multiple slots empty.
int empty_index1 = 1;
int empty_index2 = 2;
PrototypeUsers::MarkSlotEmpty(*array, empty_index1);
PrototypeUsers::MarkSlotEmpty(*array, empty_index2);
// Fill the array (still adding to the end)
old_capacity = array->capacity();
while (!array->IsFull()) {
Handle<Map> map = factory->NewMap(JS_OBJECT_TYPE, JSObject::kHeaderSize);
array = PrototypeUsers::Add(isolate, array, map, &index);
CHECK_EQ(index, last_index + 1);
CHECK_EQ(array->length(), index + 1);
last_index = index;
}
// Make sure we use the empty slots in (reverse) order.
{
Handle<Map> map = factory->NewMap(JS_OBJECT_TYPE, JSObject::kHeaderSize);
array = PrototypeUsers::Add(isolate, array, map, &index);
}
CHECK_EQ(index, empty_index2);
{
Handle<Map> map = factory->NewMap(JS_OBJECT_TYPE, JSObject::kHeaderSize);
array = PrototypeUsers::Add(isolate, array, map, &index);
}
CHECK_EQ(index, empty_index1);
}
namespace {
HeapObject saved_heap_object;
static void TestCompactCallback(HeapObject value, int old_index,
int new_index) {
saved_heap_object = value;
CHECK_EQ(old_index, 2);
CHECK_EQ(new_index, 1);
}
} // namespace
TEST(PrototypeUsersCompacted) {
ManualGCScope manual_gc_scope;
CcTest::InitializeVM();
LocalContext context;
Isolate* isolate = CcTest::i_isolate();
Factory* factory = isolate->factory();
Heap* heap = isolate->heap();
HandleScope outer_scope(isolate);
Handle<WeakArrayList> array(ReadOnlyRoots(heap).empty_weak_array_list(),
isolate);
// Add some objects into the array.
int index = -1;
Handle<Map> map_cleared_by_user =
factory->NewMap(JS_OBJECT_TYPE, JSObject::kHeaderSize);
array = PrototypeUsers::Add(isolate, array, map_cleared_by_user, &index);
CHECK_EQ(index, 1);
Handle<Map> live_map = factory->NewMap(JS_OBJECT_TYPE, JSObject::kHeaderSize);
array = PrototypeUsers::Add(isolate, array, live_map, &index);
CHECK_EQ(index, 2);
{
HandleScope inner_scope(isolate);
Handle<Map> soon_dead_map =
factory->NewMap(JS_OBJECT_TYPE, JSObject::kHeaderSize);
array = PrototypeUsers::Add(isolate, array, soon_dead_map, &index);
CHECK_EQ(index, 3);
array = inner_scope.CloseAndEscape(array);
}
PrototypeUsers::MarkSlotEmpty(*array, 1);
CcTest::CollectAllGarbage();
CHECK(array->Get(3)->IsCleared());
CHECK_EQ(array->length(), 3 + PrototypeUsers::kFirstIndex);
WeakArrayList new_array =
PrototypeUsers::Compact(array, heap, TestCompactCallback);
CHECK_EQ(new_array.length(), 1 + PrototypeUsers::kFirstIndex);
CHECK_EQ(saved_heap_object, *live_map);
}
} // namespace heap
} // namespace internal
} // namespace v8
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