blob: 46b885899cd5ac410c30b5780ca761cc3e5feca4 [file] [log] [blame]
// Copyright 2021 The Abseil Authors.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// https://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#include "absl/cleanup/cleanup.h"
#include <functional>
#include <type_traits>
#include <utility>
#include "gtest/gtest.h"
#include "absl/base/config.h"
#include "absl/utility/utility.h"
namespace {
using Tag = absl::cleanup_internal::Tag;
template <typename Type1, typename Type2>
constexpr bool IsSame() {
return (std::is_same<Type1, Type2>::value);
}
struct IdentityFactory {
template <typename Callback>
static Callback AsCallback(Callback callback) {
return Callback(std::move(callback));
}
};
// `FunctorClass` is a type used for testing `absl::Cleanup`. It is intended to
// represent users that make their own move-only callback types outside of
// `std::function` and lambda literals.
class FunctorClass {
using Callback = std::function<void()>;
public:
explicit FunctorClass(Callback callback) : callback_(std::move(callback)) {}
FunctorClass(FunctorClass&& other)
: callback_(absl::exchange(other.callback_, Callback())) {}
FunctorClass(const FunctorClass&) = delete;
FunctorClass& operator=(const FunctorClass&) = delete;
FunctorClass& operator=(FunctorClass&&) = delete;
void operator()() const& = delete;
void operator()() && {
ASSERT_TRUE(callback_);
callback_();
callback_ = nullptr;
}
private:
Callback callback_;
};
struct FunctorClassFactory {
template <typename Callback>
static FunctorClass AsCallback(Callback callback) {
return FunctorClass(std::move(callback));
}
};
struct StdFunctionFactory {
template <typename Callback>
static std::function<void()> AsCallback(Callback callback) {
return std::function<void()>(std::move(callback));
}
};
using CleanupTestParams =
::testing::Types<IdentityFactory, FunctorClassFactory, StdFunctionFactory>;
template <typename>
struct CleanupTest : public ::testing::Test {};
TYPED_TEST_SUITE(CleanupTest, CleanupTestParams);
bool fn_ptr_called = false;
void FnPtrFunction() { fn_ptr_called = true; }
TYPED_TEST(CleanupTest, FactoryProducesCorrectType) {
{
auto callback = TypeParam::AsCallback([] {});
auto cleanup = absl::MakeCleanup(std::move(callback));
static_assert(
IsSame<absl::Cleanup<Tag, decltype(callback)>, decltype(cleanup)>(),
"");
}
{
auto cleanup = absl::MakeCleanup(&FnPtrFunction);
static_assert(IsSame<absl::Cleanup<Tag, void (*)()>, decltype(cleanup)>(),
"");
}
{
auto cleanup = absl::MakeCleanup(FnPtrFunction);
static_assert(IsSame<absl::Cleanup<Tag, void (*)()>, decltype(cleanup)>(),
"");
}
}
#if defined(ABSL_HAVE_CLASS_TEMPLATE_ARGUMENT_DEDUCTION)
TYPED_TEST(CleanupTest, CTADProducesCorrectType) {
{
auto callback = TypeParam::AsCallback([] {});
absl::Cleanup cleanup = std::move(callback);
static_assert(
IsSame<absl::Cleanup<Tag, decltype(callback)>, decltype(cleanup)>(),
"");
}
{
absl::Cleanup cleanup = &FnPtrFunction;
static_assert(IsSame<absl::Cleanup<Tag, void (*)()>, decltype(cleanup)>(),
"");
}
{
absl::Cleanup cleanup = FnPtrFunction;
static_assert(IsSame<absl::Cleanup<Tag, void (*)()>, decltype(cleanup)>(),
"");
}
}
TYPED_TEST(CleanupTest, FactoryAndCTADProduceSameType) {
{
auto callback = IdentityFactory::AsCallback([] {});
auto factory_cleanup = absl::MakeCleanup(callback);
absl::Cleanup deduction_cleanup = callback;
static_assert(
IsSame<decltype(factory_cleanup), decltype(deduction_cleanup)>(), "");
}
{
auto factory_cleanup =
absl::MakeCleanup(FunctorClassFactory::AsCallback([] {}));
absl::Cleanup deduction_cleanup = FunctorClassFactory::AsCallback([] {});
static_assert(
IsSame<decltype(factory_cleanup), decltype(deduction_cleanup)>(), "");
}
{
auto factory_cleanup =
absl::MakeCleanup(StdFunctionFactory::AsCallback([] {}));
absl::Cleanup deduction_cleanup = StdFunctionFactory::AsCallback([] {});
static_assert(
IsSame<decltype(factory_cleanup), decltype(deduction_cleanup)>(), "");
}
{
auto factory_cleanup = absl::MakeCleanup(&FnPtrFunction);
absl::Cleanup deduction_cleanup = &FnPtrFunction;
static_assert(
IsSame<decltype(factory_cleanup), decltype(deduction_cleanup)>(), "");
}
{
auto factory_cleanup = absl::MakeCleanup(FnPtrFunction);
absl::Cleanup deduction_cleanup = FnPtrFunction;
static_assert(
IsSame<decltype(factory_cleanup), decltype(deduction_cleanup)>(), "");
}
}
#endif // defined(ABSL_HAVE_CLASS_TEMPLATE_ARGUMENT_DEDUCTION)
TYPED_TEST(CleanupTest, BasicUsage) {
bool called = false;
{
auto cleanup =
absl::MakeCleanup(TypeParam::AsCallback([&called] { called = true; }));
EXPECT_FALSE(called); // Constructor shouldn't invoke the callback
}
EXPECT_TRUE(called); // Destructor should invoke the callback
}
TYPED_TEST(CleanupTest, BasicUsageWithFunctionPointer) {
fn_ptr_called = false;
{
auto cleanup = absl::MakeCleanup(TypeParam::AsCallback(&FnPtrFunction));
EXPECT_FALSE(fn_ptr_called); // Constructor shouldn't invoke the callback
}
EXPECT_TRUE(fn_ptr_called); // Destructor should invoke the callback
}
TYPED_TEST(CleanupTest, Cancel) {
bool called = false;
{
auto cleanup =
absl::MakeCleanup(TypeParam::AsCallback([&called] { called = true; }));
EXPECT_FALSE(called); // Constructor shouldn't invoke the callback
std::move(cleanup).Cancel();
EXPECT_FALSE(called); // Cancel shouldn't invoke the callback
}
EXPECT_FALSE(called); // Destructor shouldn't invoke the callback
}
TYPED_TEST(CleanupTest, Invoke) {
bool called = false;
{
auto cleanup =
absl::MakeCleanup(TypeParam::AsCallback([&called] { called = true; }));
EXPECT_FALSE(called); // Constructor shouldn't invoke the callback
std::move(cleanup).Invoke();
EXPECT_TRUE(called); // Invoke should invoke the callback
called = false; // Reset tracker before destructor runs
}
EXPECT_FALSE(called); // Destructor shouldn't invoke the callback
}
TYPED_TEST(CleanupTest, Move) {
bool called = false;
{
auto moved_from_cleanup =
absl::MakeCleanup(TypeParam::AsCallback([&called] { called = true; }));
EXPECT_FALSE(called); // Constructor shouldn't invoke the callback
{
auto moved_to_cleanup = std::move(moved_from_cleanup);
EXPECT_FALSE(called); // Move shouldn't invoke the callback
}
EXPECT_TRUE(called); // Destructor should invoke the callback
called = false; // Reset tracker before destructor runs
}
EXPECT_FALSE(called); // Destructor shouldn't invoke the callback
}
int DestructionCount = 0;
struct DestructionCounter {
void operator()() {}
~DestructionCounter() { ++DestructionCount; }
};
TYPED_TEST(CleanupTest, DestructorDestroys) {
{
auto cleanup =
absl::MakeCleanup(TypeParam::AsCallback(DestructionCounter()));
DestructionCount = 0;
}
EXPECT_EQ(DestructionCount, 1); // Engaged cleanup destroys
}
TYPED_TEST(CleanupTest, CancelDestroys) {
{
auto cleanup =
absl::MakeCleanup(TypeParam::AsCallback(DestructionCounter()));
DestructionCount = 0;
std::move(cleanup).Cancel();
EXPECT_EQ(DestructionCount, 1); // Cancel destroys
}
EXPECT_EQ(DestructionCount, 1); // Canceled cleanup does not double destroy
}
TYPED_TEST(CleanupTest, InvokeDestroys) {
{
auto cleanup =
absl::MakeCleanup(TypeParam::AsCallback(DestructionCounter()));
DestructionCount = 0;
std::move(cleanup).Invoke();
EXPECT_EQ(DestructionCount, 1); // Invoke destroys
}
EXPECT_EQ(DestructionCount, 1); // Invoked cleanup does not double destroy
}
} // namespace