third_party/v8/test/unittests/heap/cppgc/custom-spaces-unittest.cc - cobalt - Git at Google

 // Copyright 2020 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 "include/cppgc/allocation.h"
 #include "include/cppgc/custom-space.h"
 #include "src/heap/cppgc/heap-page.h"
 #include "src/heap/cppgc/raw-heap.h"
 #include "test/unittests/heap/cppgc/tests.h"

 namespace cppgc {

 class CustomSpace1 : public CustomSpace<CustomSpace1> {
  public:
   static constexpr size_t kSpaceIndex = 0;
 };

 class CustomSpace2 : public CustomSpace<CustomSpace2> {
  public:
   static constexpr size_t kSpaceIndex = 1;
 };

 namespace internal {

 namespace {

 size_t g_destructor_callcount;

 class TestWithHeapWithCustomSpaces : public testing::TestWithPlatform {
  protected:
   TestWithHeapWithCustomSpaces() {
     Heap::HeapOptions options;
     options.custom_spaces.emplace_back(std::make_unique<CustomSpace1>());
     options.custom_spaces.emplace_back(std::make_unique<CustomSpace2>());
     heap_ = Heap::Create(platform_, std::move(options));
     g_destructor_callcount = 0;
   }

   void PreciseGC() {
     heap_->ForceGarbageCollectionSlow(
         ::testing::UnitTest::GetInstance()->current_test_info()->name(),
         "Testing", cppgc::Heap::StackState::kNoHeapPointers);
   }

   cppgc::Heap* GetHeap() const { return heap_.get(); }

  private:
   std::unique_ptr<cppgc::Heap> heap_;
 };

 class RegularGCed final : public GarbageCollected<RegularGCed> {
  public:
   void Trace(Visitor*) const {}
 };

 class CustomGCed1 final : public GarbageCollected<CustomGCed1> {
  public:
   ~CustomGCed1() { g_destructor_callcount++; }
   void Trace(Visitor*) const {}
 };
 class CustomGCed2 final : public GarbageCollected<CustomGCed2> {
  public:
   ~CustomGCed2() { g_destructor_callcount++; }
   void Trace(Visitor*) const {}
 };

 class CustomGCedBase : public GarbageCollected<CustomGCedBase> {
  public:
   void Trace(Visitor*) const {}
 };
 class CustomGCedFinal1 final : public CustomGCedBase {
  public:
   ~CustomGCedFinal1() { g_destructor_callcount++; }
 };
 class CustomGCedFinal2 final : public CustomGCedBase {
  public:
   ~CustomGCedFinal2() { g_destructor_callcount++; }
 };

 }  // namespace

 }  // namespace internal

 template <>
 struct SpaceTrait<internal::CustomGCed1> {
   using Space = CustomSpace1;
 };

 template <>
 struct SpaceTrait<internal::CustomGCed2> {
   using Space = CustomSpace2;
 };

 template <typename T>
 struct SpaceTrait<
     T, std::enable_if_t<std::is_base_of<internal::CustomGCedBase, T>::value>> {
   using Space = CustomSpace1;
 };

 namespace internal {

 TEST_F(TestWithHeapWithCustomSpaces, AllocateOnCustomSpaces) {
   auto* regular =
       MakeGarbageCollected<RegularGCed>(GetHeap()->GetAllocationHandle());
   auto* custom1 =
       MakeGarbageCollected<CustomGCed1>(GetHeap()->GetAllocationHandle());
   auto* custom2 =
       MakeGarbageCollected<CustomGCed2>(GetHeap()->GetAllocationHandle());
   EXPECT_EQ(RawHeap::kNumberOfRegularSpaces,
             NormalPage::FromPayload(custom1)->space()->index());
   EXPECT_EQ(RawHeap::kNumberOfRegularSpaces + 1,
             NormalPage::FromPayload(custom2)->space()->index());
   EXPECT_EQ(static_cast<size_t>(RawHeap::RegularSpaceType::kNormal1),
             NormalPage::FromPayload(regular)->space()->index());
 }

 TEST_F(TestWithHeapWithCustomSpaces,
        AllocateOnCustomSpacesSpecifiedThroughBase) {
   auto* regular =
       MakeGarbageCollected<RegularGCed>(GetHeap()->GetAllocationHandle());
   auto* custom1 =
       MakeGarbageCollected<CustomGCedFinal1>(GetHeap()->GetAllocationHandle());
   auto* custom2 =
       MakeGarbageCollected<CustomGCedFinal2>(GetHeap()->GetAllocationHandle());
   EXPECT_EQ(RawHeap::kNumberOfRegularSpaces,
             NormalPage::FromPayload(custom1)->space()->index());
   EXPECT_EQ(RawHeap::kNumberOfRegularSpaces,
             NormalPage::FromPayload(custom2)->space()->index());
   EXPECT_EQ(static_cast<size_t>(RawHeap::RegularSpaceType::kNormal1),
             NormalPage::FromPayload(regular)->space()->index());
 }

 TEST_F(TestWithHeapWithCustomSpaces, SweepCustomSpace) {
   MakeGarbageCollected<CustomGCedFinal1>(GetHeap()->GetAllocationHandle());
   MakeGarbageCollected<CustomGCedFinal2>(GetHeap()->GetAllocationHandle());
   MakeGarbageCollected<CustomGCed1>(GetHeap()->GetAllocationHandle());
   MakeGarbageCollected<CustomGCed2>(GetHeap()->GetAllocationHandle());
   EXPECT_EQ(0u, g_destructor_callcount);
   PreciseGC();
   EXPECT_EQ(4u, g_destructor_callcount);
 }

 }  // namespace internal

 // Test custom space compactability.

 class CompactableCustomSpace : public CustomSpace<CompactableCustomSpace> {
  public:
   static constexpr size_t kSpaceIndex = 0;
   static constexpr bool kSupportsCompaction = true;
 };

 class NotCompactableCustomSpace
     : public CustomSpace<NotCompactableCustomSpace> {
  public:
   static constexpr size_t kSpaceIndex = 1;
   static constexpr bool kSupportsCompaction = false;
 };

 class DefaultCompactableCustomSpace
     : public CustomSpace<DefaultCompactableCustomSpace> {
  public:
   static constexpr size_t kSpaceIndex = 2;
   // By default space are not compactable.
 };

 namespace internal {
 namespace {

 class TestWithHeapWithCompactableCustomSpaces
     : public testing::TestWithPlatform {
  protected:
   TestWithHeapWithCompactableCustomSpaces() {
     Heap::HeapOptions options;
     options.custom_spaces.emplace_back(
         std::make_unique<CompactableCustomSpace>());
     options.custom_spaces.emplace_back(
         std::make_unique<NotCompactableCustomSpace>());
     options.custom_spaces.emplace_back(
         std::make_unique<DefaultCompactableCustomSpace>());
     heap_ = Heap::Create(platform_, std::move(options));
     g_destructor_callcount = 0;
   }

   void PreciseGC() {
     heap_->ForceGarbageCollectionSlow("TestWithHeapWithCompactableCustomSpaces",
                                       "Testing",
                                       cppgc::Heap::StackState::kNoHeapPointers);
   }

   cppgc::Heap* GetHeap() const { return heap_.get(); }

  private:
   std::unique_ptr<cppgc::Heap> heap_;
 };

 class CompactableGCed final : public GarbageCollected<CompactableGCed> {
  public:
   void Trace(Visitor*) const {}
 };
 class NotCompactableGCed final : public GarbageCollected<NotCompactableGCed> {
  public:
   void Trace(Visitor*) const {}
 };
 class DefaultCompactableGCed final
     : public GarbageCollected<DefaultCompactableGCed> {
  public:
   void Trace(Visitor*) const {}
 };

 }  // namespace
 }  // namespace internal

 template <>
 struct SpaceTrait<internal::CompactableGCed> {
   using Space = CompactableCustomSpace;
 };
 template <>
 struct SpaceTrait<internal::NotCompactableGCed> {
   using Space = NotCompactableCustomSpace;
 };
 template <>
 struct SpaceTrait<internal::DefaultCompactableGCed> {
   using Space = DefaultCompactableCustomSpace;
 };

 namespace internal {

 TEST_F(TestWithHeapWithCompactableCustomSpaces,
        AllocateOnCompactableCustomSpaces) {
   auto* compactable =
       MakeGarbageCollected<CompactableGCed>(GetHeap()->GetAllocationHandle());
   auto* not_compactable = MakeGarbageCollected<NotCompactableGCed>(
       GetHeap()->GetAllocationHandle());
   auto* default_compactable = MakeGarbageCollected<DefaultCompactableGCed>(
       GetHeap()->GetAllocationHandle());
   EXPECT_TRUE(NormalPage::FromPayload(compactable)->space()->is_compactable());
   EXPECT_FALSE(
       NormalPage::FromPayload(not_compactable)->space()->is_compactable());
   EXPECT_FALSE(
       NormalPage::FromPayload(default_compactable)->space()->is_compactable());
 }

 }  // namespace internal

 }  // namespace cppgc
	// Copyright 2020 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 "include/cppgc/allocation.h"
	#include "include/cppgc/custom-space.h"
	#include "src/heap/cppgc/heap-page.h"
	#include "src/heap/cppgc/raw-heap.h"
	#include "test/unittests/heap/cppgc/tests.h"

	namespace cppgc {

	class CustomSpace1 : public CustomSpace<CustomSpace1> {
	public:
	static constexpr size_t kSpaceIndex = 0;
	};

	class CustomSpace2 : public CustomSpace<CustomSpace2> {
	public:
	static constexpr size_t kSpaceIndex = 1;
	};

	namespace internal {

	namespace {

	size_t g_destructor_callcount;

	class TestWithHeapWithCustomSpaces : public testing::TestWithPlatform {
	protected:
	TestWithHeapWithCustomSpaces() {
	Heap::HeapOptions options;
	options.custom_spaces.emplace_back(std::make_unique<CustomSpace1>());
	options.custom_spaces.emplace_back(std::make_unique<CustomSpace2>());
	heap_ = Heap::Create(platform_, std::move(options));
	g_destructor_callcount = 0;
	}

	void PreciseGC() {
	heap_->ForceGarbageCollectionSlow(
	::testing::UnitTest::GetInstance()->current_test_info()->name(),
	"Testing", cppgc::Heap::StackState::kNoHeapPointers);
	}

	cppgc::Heap* GetHeap() const { return heap_.get(); }

	private:
	std::unique_ptr<cppgc::Heap> heap_;
	};

	class RegularGCed final : public GarbageCollected<RegularGCed> {
	public:
	void Trace(Visitor*) const {}
	};

	class CustomGCed1 final : public GarbageCollected<CustomGCed1> {
	public:
	~CustomGCed1() { g_destructor_callcount++; }
	void Trace(Visitor*) const {}
	};
	class CustomGCed2 final : public GarbageCollected<CustomGCed2> {
	public:
	~CustomGCed2() { g_destructor_callcount++; }
	void Trace(Visitor*) const {}
	};

	class CustomGCedBase : public GarbageCollected<CustomGCedBase> {
	public:
	void Trace(Visitor*) const {}
	};
	class CustomGCedFinal1 final : public CustomGCedBase {
	public:
	~CustomGCedFinal1() { g_destructor_callcount++; }
	};
	class CustomGCedFinal2 final : public CustomGCedBase {
	public:
	~CustomGCedFinal2() { g_destructor_callcount++; }
	};

	} // namespace

	} // namespace internal

	template <>
	struct SpaceTrait<internal::CustomGCed1> {
	using Space = CustomSpace1;
	};

	template <>
	struct SpaceTrait<internal::CustomGCed2> {
	using Space = CustomSpace2;
	};

	template <typename T>
	struct SpaceTrait<
	T, std::enable_if_t<std::is_base_of<internal::CustomGCedBase, T>::value>> {
	using Space = CustomSpace1;
	};

	namespace internal {

	TEST_F(TestWithHeapWithCustomSpaces, AllocateOnCustomSpaces) {
	auto* regular =
	MakeGarbageCollected<RegularGCed>(GetHeap()->GetAllocationHandle());
	auto* custom1 =
	MakeGarbageCollected<CustomGCed1>(GetHeap()->GetAllocationHandle());
	auto* custom2 =
	MakeGarbageCollected<CustomGCed2>(GetHeap()->GetAllocationHandle());
	EXPECT_EQ(RawHeap::kNumberOfRegularSpaces,
	NormalPage::FromPayload(custom1)->space()->index());
	EXPECT_EQ(RawHeap::kNumberOfRegularSpaces + 1,
	NormalPage::FromPayload(custom2)->space()->index());
	EXPECT_EQ(static_cast<size_t>(RawHeap::RegularSpaceType::kNormal1),
	NormalPage::FromPayload(regular)->space()->index());
	}

	TEST_F(TestWithHeapWithCustomSpaces,
	AllocateOnCustomSpacesSpecifiedThroughBase) {
	auto* regular =
	MakeGarbageCollected<RegularGCed>(GetHeap()->GetAllocationHandle());
	auto* custom1 =
	MakeGarbageCollected<CustomGCedFinal1>(GetHeap()->GetAllocationHandle());
	auto* custom2 =
	MakeGarbageCollected<CustomGCedFinal2>(GetHeap()->GetAllocationHandle());
	EXPECT_EQ(RawHeap::kNumberOfRegularSpaces,
	NormalPage::FromPayload(custom1)->space()->index());
	EXPECT_EQ(RawHeap::kNumberOfRegularSpaces,
	NormalPage::FromPayload(custom2)->space()->index());
	EXPECT_EQ(static_cast<size_t>(RawHeap::RegularSpaceType::kNormal1),
	NormalPage::FromPayload(regular)->space()->index());
	}

	TEST_F(TestWithHeapWithCustomSpaces, SweepCustomSpace) {
	MakeGarbageCollected<CustomGCedFinal1>(GetHeap()->GetAllocationHandle());
	MakeGarbageCollected<CustomGCedFinal2>(GetHeap()->GetAllocationHandle());
	MakeGarbageCollected<CustomGCed1>(GetHeap()->GetAllocationHandle());
	MakeGarbageCollected<CustomGCed2>(GetHeap()->GetAllocationHandle());
	EXPECT_EQ(0u, g_destructor_callcount);
	PreciseGC();
	EXPECT_EQ(4u, g_destructor_callcount);
	}

	} // namespace internal

	// Test custom space compactability.

	class CompactableCustomSpace : public CustomSpace<CompactableCustomSpace> {
	public:
	static constexpr size_t kSpaceIndex = 0;
	static constexpr bool kSupportsCompaction = true;
	};

	class NotCompactableCustomSpace
	: public CustomSpace<NotCompactableCustomSpace> {
	public:
	static constexpr size_t kSpaceIndex = 1;
	static constexpr bool kSupportsCompaction = false;
	};

	class DefaultCompactableCustomSpace
	: public CustomSpace<DefaultCompactableCustomSpace> {
	public:
	static constexpr size_t kSpaceIndex = 2;
	// By default space are not compactable.
	};

	namespace internal {
	namespace {

	class TestWithHeapWithCompactableCustomSpaces
	: public testing::TestWithPlatform {
	protected:
	TestWithHeapWithCompactableCustomSpaces() {
	Heap::HeapOptions options;
	options.custom_spaces.emplace_back(
	std::make_unique<CompactableCustomSpace>());
	options.custom_spaces.emplace_back(
	std::make_unique<NotCompactableCustomSpace>());
	options.custom_spaces.emplace_back(
	std::make_unique<DefaultCompactableCustomSpace>());
	heap_ = Heap::Create(platform_, std::move(options));
	g_destructor_callcount = 0;
	}

	void PreciseGC() {
	heap_->ForceGarbageCollectionSlow("TestWithHeapWithCompactableCustomSpaces",
	"Testing",
	cppgc::Heap::StackState::kNoHeapPointers);
	}

	cppgc::Heap* GetHeap() const { return heap_.get(); }

	private:
	std::unique_ptr<cppgc::Heap> heap_;
	};

	class CompactableGCed final : public GarbageCollected<CompactableGCed> {
	public:
	void Trace(Visitor*) const {}
	};
	class NotCompactableGCed final : public GarbageCollected<NotCompactableGCed> {
	public:
	void Trace(Visitor*) const {}
	};
	class DefaultCompactableGCed final
	: public GarbageCollected<DefaultCompactableGCed> {
	public:
	void Trace(Visitor*) const {}
	};

	} // namespace
	} // namespace internal

	template <>
	struct SpaceTrait<internal::CompactableGCed> {
	using Space = CompactableCustomSpace;
	};
	template <>
	struct SpaceTrait<internal::NotCompactableGCed> {
	using Space = NotCompactableCustomSpace;
	};
	template <>
	struct SpaceTrait<internal::DefaultCompactableGCed> {
	using Space = DefaultCompactableCustomSpace;
	};

	namespace internal {

	TEST_F(TestWithHeapWithCompactableCustomSpaces,
	AllocateOnCompactableCustomSpaces) {
	auto* compactable =
	MakeGarbageCollected<CompactableGCed>(GetHeap()->GetAllocationHandle());
	auto* not_compactable = MakeGarbageCollected<NotCompactableGCed>(
	GetHeap()->GetAllocationHandle());
	auto* default_compactable = MakeGarbageCollected<DefaultCompactableGCed>(
	GetHeap()->GetAllocationHandle());
	EXPECT_TRUE(NormalPage::FromPayload(compactable)->space()->is_compactable());
	EXPECT_FALSE(
	NormalPage::FromPayload(not_compactable)->space()->is_compactable());
	EXPECT_FALSE(
	NormalPage::FromPayload(default_compactable)->space()->is_compactable());
	}

	} // namespace internal

	} // namespace cppgc