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#include <library/cpp/testing/unittest/registar.h>
#include <util/system/thread.h> 
#include <algorithm> 
#include <util/generic/vector.h> 
#include <util/random/fast.h> 
 
#include "ut_helpers.h" 
 
template <typename TQueueType>
class TTestUnorderedQueue: public TTestBase { 
private: 
    using TLink = TIntrusiveLink; 
 
    UNIT_TEST_SUITE_DEMANGLE(TTestUnorderedQueue<TQueueType>);
    UNIT_TEST(Push1M_Pop1M_Unordered) 
    UNIT_TEST_SUITE_END(); 
 
public: 
    void Push1M_Pop1M_Unordered() { 
        constexpr int REPEAT = 1000000; 
        TQueueType queue;
        TLink msg[REPEAT]; 
 
        auto pmsg = queue.Pop(); 
        UNIT_ASSERT_VALUES_EQUAL(pmsg, nullptr); 
 
        for (int i = 0; i < REPEAT; ++i) { 
            queue.Push(&msg[i]); 
        } 
 
        TVector<TLink*> popped;
        popped.reserve(REPEAT); 
        for (int i = 0; i < REPEAT; ++i) { 
            popped.push_back((TLink*)queue.Pop()); 
        } 
 
        pmsg = queue.Pop(); 
        UNIT_ASSERT_VALUES_EQUAL(pmsg, nullptr); 
 
        std::sort(popped.begin(), popped.end()); 
        for (int i = 0; i < REPEAT; ++i) { 
            UNIT_ASSERT_VALUES_EQUAL(&msg[i], popped[i]); 
        } 
    } 
}; 
 
template <typename TQueueType>
class TTestWeakQueue: public TTestBase { 
private: 
    UNIT_TEST_SUITE_DEMANGLE(TTestWeakQueue<TQueueType>);
    UNIT_TEST(Threads8_Rnd_Exchange) 
    UNIT_TEST_SUITE_END(); 
 
public: 
    template <ui16 COUNT = 48, ui32 MSG_COUNT = 10000> 
    void ManyThreadsRndExchange() { 
        TQueueType queues[COUNT];
 
        class TWorker: public ISimpleThread {
        public: 
            TWorker( 
                TQueueType* queues_,
                ui16 mine,
                TAtomic* pushDone)
                : Queues(queues_) 
                , MineQueue(mine) 
                , PushDone(pushDone) 
            { 
            } 
 
            TQueueType* Queues;
            ui16 MineQueue; 
            TVector<uintptr_t> Received;
            TAtomic* PushDone; 
 
            void* ThreadProc() override { 
                TReallyFastRng32 rng(GetCycleCount()); 
                Received.reserve(MSG_COUNT * 2); 
 
                for (ui32 loop = 1; loop <= MSG_COUNT; ++loop) { 
                    for (;;) { 
                        auto msg = Queues[MineQueue].Pop(); 
                        if (msg == nullptr) { 
                            break; 
                        } 
 
                        Received.push_back((uintptr_t)msg); 
                    } 
 
                    ui16 rnd = rng.GenRand64() % COUNT; 
                    ui64 msg = ((ui64)MineQueue << 32) + loop; 
                    while (!Queues[rnd].Push((void*)msg)) { 
                    } 
                } 
 
                AtomicIncrement(*PushDone); 
 
                for (;;) { 
                    bool isItLast = AtomicGet(*PushDone) == COUNT; 
                    auto msg = Queues[MineQueue].Pop(); 
                    if (msg != nullptr) { 
                        Received.push_back((uintptr_t)msg); 
                    } else { 
                        if (isItLast) { 
                            break; 
                        } 
                        SpinLockPause(); 
                    } 
                } 
 
                for (ui64 last = 0;;) { 
                    auto msg = Queues[MineQueue].UnsafeScanningPop(&last); 
                    if (msg == nullptr) { 
                        break; 
                    } 
                    Received.push_back((uintptr_t)msg); 
                } 
 
                return nullptr; 
            } 
        }; 
 
        TVector<TAutoPtr<TWorker>> workers;
        TAtomic pushDone = 0; 
 
        for (ui32 i = 0; i < COUNT; ++i) { 
            workers.emplace_back(new TWorker(&queues[0], i, &pushDone)); 
            workers.back()->Start(); 
        } 
 
        TVector<uintptr_t> all;
        for (ui32 i = 0; i < COUNT; ++i) { 
            workers[i]->Join(); 
            all.insert(all.begin(), 
                       workers[i]->Received.begin(), workers[i]->Received.end());
        } 
 
        std::sort(all.begin(), all.end()); 
        auto iter = all.begin(); 
        for (ui32 i = 0; i < COUNT; ++i) { 
            for (ui32 k = 1; k <= MSG_COUNT; ++k) { 
                UNIT_ASSERT_VALUES_EQUAL(((ui64)i << 32) + k, *iter); 
                ++iter; 
            } 
        } 
    } 
 
    void Threads8_Rnd_Exchange() { 
        ManyThreadsRndExchange<8>(); 
    } 
}; 
 
REGISTER_TESTS_FOR_ALL_UNORDERED_QUEUES(TTestUnorderedQueue); 
UNIT_TEST_SUITE_REGISTRATION(TTestWeakQueue<TMPMCUnorderedRing>);