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#include "retry.h" 
 
#include <library/cpp/testing/unittest/registar.h>
 
namespace { 
    class TDoOnSecondOrThrow { 
    public: 
        ui32 operator()() { 
            if (attempt++ != 1) { 
                throw yexception(); 
            } 
            return 42; 
        } 

    private: 
        ui32 attempt = 0; 
    }; 
 
    class TDoOnSecondOrFail { 
    public: 
        bool operator()() { 
            return (attempt++ == 1); 
        } 

    private: 
        ui32 attempt = 0; 
    }; 
} 
 
Y_UNIT_TEST_SUITE(Retry) {
    Y_UNIT_TEST(RetryOnExceptionSuccess) {
        UNIT_ASSERT_NO_EXCEPTION(DoWithRetry(TDoOnSecondOrThrow{}, TRetryOptions(1, TDuration::Zero()))); 
    } 
    Y_UNIT_TEST(RetryOnExceptionSuccessWithOnFail) {
        ui32 value = 0;
        std::function<void(const yexception&)> cb = [&value](const yexception&){ value += 1; };
        UNIT_ASSERT_NO_EXCEPTION(DoWithRetry<ui32>(TDoOnSecondOrThrow{}, cb, TRetryOptions(1, TDuration::Zero()), true));
        UNIT_ASSERT_EQUAL(value, 1);
    }
    Y_UNIT_TEST(RetryOnExceptionFail) {
        UNIT_ASSERT_EXCEPTION(DoWithRetry(TDoOnSecondOrThrow{}, TRetryOptions(0, TDuration::Zero())), yexception); 
    } 
    Y_UNIT_TEST(RetryOnExceptionFailWithOnFail) {
        ui32 value = 0;
        std::function<void(const yexception&)> cb = [&value](const yexception&) { value += 1; };
        UNIT_ASSERT_EXCEPTION(DoWithRetry<ui32>(TDoOnSecondOrThrow{}, cb, TRetryOptions(0, TDuration::Zero()), true), yexception);
        UNIT_ASSERT_EQUAL(value, 1);
    }
 
    Y_UNIT_TEST(RetryOnExceptionSuccessWithValue) {
        std::function<ui32()> f = TDoOnSecondOrThrow{}; 
        UNIT_ASSERT(42 == *DoWithRetry<ui32>(f, TRetryOptions(1, TDuration::Zero()), false)); 
    } 
    Y_UNIT_TEST(RetryOnExceptionSuccessWithValueWithOnFail) {
        ui32 value = 0;
        std::function<ui32()> f = TDoOnSecondOrThrow{};
        std::function<void(const yexception&)> cb = [&value](const yexception&){ value += 1; };
        UNIT_ASSERT(42 == *DoWithRetry<ui32>(f, cb, TRetryOptions(1, TDuration::Zero()), false));
        UNIT_ASSERT_EQUAL(value, 1);
    }
    Y_UNIT_TEST(RetryOnExceptionFailWithValue) {
        std::function<ui32()> f = TDoOnSecondOrThrow{}; 
        UNIT_ASSERT(!DoWithRetry<ui32>(f, TRetryOptions(0, TDuration::Zero()), false).Defined()); 
    } 
    Y_UNIT_TEST(RetryOnExceptionFailWithValueWithOnFail) {
        ui32 value = 0;
        std::function<ui32()> f = TDoOnSecondOrThrow{};
        std::function<void(const yexception&)> cb = [&value](const yexception&){ value += 1; };
        UNIT_ASSERT(!DoWithRetry<ui32>(f, cb, TRetryOptions(0, TDuration::Zero()), false).Defined());
        UNIT_ASSERT_EQUAL(value, 1);
    }
 
    Y_UNIT_TEST(RetryOnExceptionSuccessWithValueAndRethrow) {
        std::function<ui32()> f = TDoOnSecondOrThrow{}; 
        UNIT_ASSERT(42 == *DoWithRetry<ui32>(f, TRetryOptions(1, TDuration::Zero()), true)); 
    } 
    Y_UNIT_TEST(RetryOnExceptionSuccessWithValueAndRethrowWithOnFail) {
        ui32 value = 0;
        std::function<ui32()> f = TDoOnSecondOrThrow{};
        std::function<void(const yexception&)> cb = [&value](const yexception&){ value += 1; };
        UNIT_ASSERT(42 == *DoWithRetry<ui32>(f, cb, TRetryOptions(1, TDuration::Zero()), true));
        UNIT_ASSERT_EQUAL(value, 1);
    }
    Y_UNIT_TEST(RetryOnExceptionFailWithValueAndRethrow) {
        std::function<ui32()> f = TDoOnSecondOrThrow{}; 
        UNIT_ASSERT_EXCEPTION(DoWithRetry<ui32>(f, TRetryOptions(0, TDuration::Zero()), true), yexception); 
    } 
    Y_UNIT_TEST(RetryOnExceptionFailWithValueAndRethrowWithOnFail) {
        ui32 value = 0;
        std::function<ui32()> f = TDoOnSecondOrThrow{};
        std::function<void(const yexception&)> cb = [&value](const yexception&){ value += 1; };
        UNIT_ASSERT_EXCEPTION(42 == *DoWithRetry<ui32>(f, cb, TRetryOptions(0, TDuration::Zero()), true), yexception);
        UNIT_ASSERT_EQUAL(value, 1);
    }
 
    Y_UNIT_TEST(RetryOnRetCodeSuccess) {
        UNIT_ASSERT(true == DoWithRetryOnRetCode(TDoOnSecondOrFail{}, TRetryOptions(1, TDuration::Zero()))); 
    } 
    Y_UNIT_TEST(RetryOnRetCodeFail) {
        UNIT_ASSERT(false == DoWithRetryOnRetCode(TDoOnSecondOrFail{}, TRetryOptions(0, TDuration::Zero()))); 
    } 
    Y_UNIT_TEST(MakeRetryOptionsFromProto) {
        NRetry::TRetryOptionsPB protoOptions;
        protoOptions.SetMaxTries(1);
        protoOptions.SetInitialSleepMs(2);
        protoOptions.SetSleepIncrementMs(3);
        protoOptions.SetRandomDeltaMs(4);
        protoOptions.SetExponentalMultiplierMs(5);

        const TRetryOptions options = MakeRetryOptions(protoOptions);
        UNIT_ASSERT_EQUAL(options.RetryCount, 1);
        UNIT_ASSERT_EQUAL(options.SleepDuration, TDuration::MilliSeconds(2));
        UNIT_ASSERT_EQUAL(options.SleepIncrement, TDuration::MilliSeconds(3));
        UNIT_ASSERT_EQUAL(options.SleepRandomDelta, TDuration::MilliSeconds(4));
        UNIT_ASSERT_EQUAL(options.SleepExponentialMultiplier, TDuration::MilliSeconds(5));
    }
}