#include #include #include #include #include #include #include "lfqueue.h" class TMoveTest { public: TMoveTest(int marker = 0, int value = 0) : Marker_(marker) , Value_(value) { } TMoveTest(const TMoveTest& other) { *this = other; } TMoveTest(TMoveTest&& other) { *this = std::move(other); } TMoveTest& operator=(const TMoveTest& other) { Value_ = other.Value_; Marker_ = other.Marker_ + 1024; return *this; } TMoveTest& operator=(TMoveTest&& other) { Value_ = other.Value_; Marker_ = other.Marker_; other.Marker_ = 0; return *this; } int Marker() const { return Marker_; } int Value() const { return Value_; } private: int Marker_ = 0; int Value_ = 0; }; class TOperationsChecker { public: TOperationsChecker() { ++DefaultCtor_; } TOperationsChecker(TOperationsChecker&&) { ++MoveCtor_; } TOperationsChecker(const TOperationsChecker&) { ++CopyCtor_; } TOperationsChecker& operator=(TOperationsChecker&&) { ++MoveAssign_; return *this; } TOperationsChecker& operator=(const TOperationsChecker&) { ++CopyAssign_; return *this; } static void Check(int defaultCtor, int moveCtor, int copyCtor, int moveAssign, int copyAssign) { UNIT_ASSERT_VALUES_EQUAL(defaultCtor, DefaultCtor_); UNIT_ASSERT_VALUES_EQUAL(moveCtor, MoveCtor_); UNIT_ASSERT_VALUES_EQUAL(copyCtor, CopyCtor_); UNIT_ASSERT_VALUES_EQUAL(moveAssign, MoveAssign_); UNIT_ASSERT_VALUES_EQUAL(copyAssign, CopyAssign_); Clear(); } private: static void Clear() { DefaultCtor_ = MoveCtor_ = CopyCtor_ = MoveAssign_ = CopyAssign_ = 0; } static int DefaultCtor_; static int MoveCtor_; static int CopyCtor_; static int MoveAssign_; static int CopyAssign_; }; int TOperationsChecker::DefaultCtor_ = 0; int TOperationsChecker::MoveCtor_ = 0; int TOperationsChecker::CopyCtor_ = 0; int TOperationsChecker::MoveAssign_ = 0; int TOperationsChecker::CopyAssign_ = 0; Y_UNIT_TEST_SUITE(TLockFreeQueueTests) { Y_UNIT_TEST(TestMoveEnqueue) { TMoveTest value(0xFF, 0xAA); TMoveTest tmp; TLockFreeQueue queue; queue.Enqueue(value); UNIT_ASSERT_VALUES_EQUAL(value.Marker(), 0xFF); UNIT_ASSERT(queue.Dequeue(&tmp)); UNIT_ASSERT_VALUES_UNEQUAL(tmp.Marker(), 0xFF); UNIT_ASSERT_VALUES_EQUAL(tmp.Value(), 0xAA); queue.Enqueue(std::move(value)); UNIT_ASSERT_VALUES_EQUAL(value.Marker(), 0); UNIT_ASSERT(queue.Dequeue(&tmp)); UNIT_ASSERT_VALUES_EQUAL(tmp.Value(), 0xAA); } Y_UNIT_TEST(TestSimpleEnqueueDequeue) { TLockFreeQueue queue; int i = -1; UNIT_ASSERT(!queue.Dequeue(&i)); UNIT_ASSERT_VALUES_EQUAL(i, -1); queue.Enqueue(10); queue.Enqueue(11); queue.Enqueue(12); UNIT_ASSERT(queue.Dequeue(&i)); UNIT_ASSERT_VALUES_EQUAL(10, i); UNIT_ASSERT(queue.Dequeue(&i)); UNIT_ASSERT_VALUES_EQUAL(11, i); queue.Enqueue(13); UNIT_ASSERT(queue.Dequeue(&i)); UNIT_ASSERT_VALUES_EQUAL(12, i); UNIT_ASSERT(queue.Dequeue(&i)); UNIT_ASSERT_VALUES_EQUAL(13, i); UNIT_ASSERT(!queue.Dequeue(&i)); const int tmp = 100; queue.Enqueue(tmp); UNIT_ASSERT(queue.Dequeue(&i)); UNIT_ASSERT_VALUES_EQUAL(i, tmp); } Y_UNIT_TEST(TestSimpleEnqueueAllDequeue) { TLockFreeQueue queue; int i = -1; UNIT_ASSERT(!queue.Dequeue(&i)); UNIT_ASSERT_VALUES_EQUAL(i, -1); TVector v; v.push_back(20); v.push_back(21); queue.EnqueueAll(v); v.clear(); v.push_back(22); v.push_back(23); v.push_back(24); queue.EnqueueAll(v); v.clear(); queue.EnqueueAll(v); v.clear(); v.push_back(25); queue.EnqueueAll(v); for (int j = 20; j <= 25; ++j) { UNIT_ASSERT(queue.Dequeue(&i)); UNIT_ASSERT_VALUES_EQUAL(j, i); } UNIT_ASSERT(!queue.Dequeue(&i)); } void DequeueAllRunner(TLockFreeQueue& queue, bool singleConsumer) { size_t threadsNum = 4; size_t enqueuesPerThread = 10'000; TThreadPool p; p.Start(threadsNum, 0); TVector> futures; for (size_t i = 0; i < threadsNum; ++i) { NThreading::TPromise promise = NThreading::NewPromise(); futures.emplace_back(promise.GetFuture()); p.SafeAddFunc([enqueuesPerThread, &queue, promise]() mutable { for (size_t i = 0; i != enqueuesPerThread; ++i) { queue.Enqueue(i); } promise.SetValue(); }); } std::atomic elementsLeft = threadsNum * enqueuesPerThread; ui64 numOfConsumers = singleConsumer ? 1 : threadsNum; TVector> dataBuckets(numOfConsumers); for (size_t i = 0; i < numOfConsumers; ++i) { NThreading::TPromise promise = NThreading::NewPromise(); futures.emplace_back(promise.GetFuture()); p.SafeAddFunc([&queue, &elementsLeft, promise, consumerData{&dataBuckets[i]}]() mutable { TVector vec; while (static_cast(elementsLeft.load()) > 0) { for (size_t i = 0; i != 100; ++i) { vec.clear(); queue.DequeueAll(&vec); elementsLeft -= vec.size(); consumerData->insert(consumerData->end(), vec.begin(), vec.end()); } } promise.SetValue(); }); } NThreading::WaitExceptionOrAll(futures).GetValueSync(); p.Stop(); TVector left; queue.DequeueAll(&left); UNIT_ASSERT(left.empty()); TVector data; for (auto& dataBucket : dataBuckets) { data.insert(data.end(), dataBucket.begin(), dataBucket.end()); } UNIT_ASSERT_EQUAL(data.size(), threadsNum * enqueuesPerThread); size_t threadIdx = 0; size_t cntValue = 0; Sort(data.begin(), data.end()); for (size_t i = 0; i != data.size(); ++i) { UNIT_ASSERT_VALUES_EQUAL(cntValue, data[i]); ++threadIdx; if (threadIdx == threadsNum) { ++cntValue; threadIdx = 0; } } } Y_UNIT_TEST(TestDequeueAllSingleConsumer) { TLockFreeQueue queue; DequeueAllRunner(queue, true); } Y_UNIT_TEST(TestDequeueAllMultipleConsumers) { TLockFreeQueue queue; DequeueAllRunner(queue, false); } Y_UNIT_TEST(TestDequeueAllEmptyQueue) { TLockFreeQueue queue; TVector vec; queue.DequeueAll(&vec); UNIT_ASSERT(vec.empty()); } Y_UNIT_TEST(TestDequeueAllQueueOrder) { TLockFreeQueue queue; queue.Enqueue(1); queue.Enqueue(2); queue.Enqueue(3); TVector v; queue.DequeueAll(&v); UNIT_ASSERT_VALUES_EQUAL(v.size(), 3); UNIT_ASSERT_VALUES_EQUAL(v[0], 1); UNIT_ASSERT_VALUES_EQUAL(v[1], 2); UNIT_ASSERT_VALUES_EQUAL(v[2], 3); } Y_UNIT_TEST(CleanInDestructor) { TSimpleSharedPtr p(new bool); UNIT_ASSERT_VALUES_EQUAL(1u, p.RefCount()); { TLockFreeQueue> stack; stack.Enqueue(p); stack.Enqueue(p); UNIT_ASSERT_VALUES_EQUAL(3u, p.RefCount()); } UNIT_ASSERT_VALUES_EQUAL(1, p.RefCount()); } Y_UNIT_TEST(CheckOperationsCount) { TOperationsChecker o; o.Check(1, 0, 0, 0, 0); TLockFreeQueue queue; o.Check(0, 0, 0, 0, 0); queue.Enqueue(std::move(o)); o.Check(0, 1, 0, 0, 0); queue.Enqueue(o); o.Check(0, 0, 1, 0, 0); queue.Dequeue(&o); o.Check(0, 0, 2, 1, 0); } }