#include #include #include "int128_ut_helpers.h" class TUInt128Test: public TTestBase { UNIT_TEST_SUITE(TUInt128Test); UNIT_TEST(Create); UNIT_TEST(Minus); UNIT_TEST(Plus); UNIT_TEST(Shift) UNIT_TEST(Overflow); UNIT_TEST(Underflow); UNIT_TEST(ToStringTest); UNIT_TEST(FromStringTest); #if defined(Y_HAVE_INT128) UNIT_TEST(FromSystemUint128); #endif UNIT_TEST_SUITE_END(); private: void Create(); void Minus(); void Plus(); void Shift(); void Overflow(); void Underflow(); void ToStringTest(); void FromStringTest(); #if defined(Y_HAVE_INT128) void FromSystemUint128(); #endif }; UNIT_TEST_SUITE_REGISTRATION(TUInt128Test); void TUInt128Test::Create() { const ui128 n1 = 10; UNIT_ASSERT_EQUAL(n1, 10); const ui128 n2 = n1; UNIT_ASSERT_EQUAL(n2, 10); const ui128 n3(10); UNIT_ASSERT_EQUAL(n3, 10); } void TUInt128Test::Minus() { const ui128 n2 = 20; const ui128 n3 = 30; ui128 n4 = n3 - n2; UNIT_ASSERT_EQUAL(n4, 10); n4 = n4 - 2; UNIT_ASSERT_EQUAL(n4, 8); n4 -= 2; UNIT_ASSERT_EQUAL(n4, 6); n4 = 10 - n4; UNIT_ASSERT_EQUAL(n4, 4); } void TUInt128Test::Plus() { const ui128 n2 = 20; const ui128 n3 = 30; ui128 n4 = n3 + n2; UNIT_ASSERT_EQUAL(n4, 50); n4 = n4 + 2; UNIT_ASSERT_EQUAL(n4, 52); n4 += 2; UNIT_ASSERT_EQUAL(n4, 54); n4 = 10 + n4; UNIT_ASSERT_EQUAL(n4, 64); } void TUInt128Test::Shift() { ui128 n = 1; const ui128 n4 = n << 4; UNIT_ASSERT_EQUAL(n4, ui128(0x0, 0x0000000000000010)); UNIT_ASSERT_EQUAL(n4 >> 4, 1); const ui128 n8 = n << 8; UNIT_ASSERT_EQUAL(n8, ui128(0x0, 0x0000000000000100)); UNIT_ASSERT_EQUAL(n8 >> 8, 1); const ui128 n60 = n << 60; UNIT_ASSERT_EQUAL(n60, ui128(0x0, 0x1000000000000000)); UNIT_ASSERT_EQUAL(n60 >> 60, 1); const ui128 n64 = n << 64; UNIT_ASSERT_EQUAL(n64, ui128(0x1, 0x0000000000000000)); UNIT_ASSERT_EQUAL(n64 >> 64, 1); const ui128 n124 = n << 124; UNIT_ASSERT_EQUAL(n124, ui128(0x1000000000000000, 0x0000000000000000)); UNIT_ASSERT_EQUAL(n124 >> 124, 1); } void TUInt128Test::Overflow() { ui128 n = ui128(0xFFFFFFFFFFFFFFFF, 0xFFFFFFFFFFFFFFFF); const ui128 n2 = n + 2; UNIT_ASSERT_EQUAL(n2, 1); } void TUInt128Test::Underflow() { ui128 n = 1; const ui128 n128 = n - 2; UNIT_ASSERT_EQUAL(n128, ui128(0xFFFFFFFFFFFFFFFF, 0xFFFFFFFFFFFFFFFF)); } void TUInt128Test::ToStringTest() { ui128 n(0xFFFFFFFFFFFFFFFF, 0xFFFFFFFFFFFFFFFF); TString correct = "340282366920938463463374607431768211455"; UNIT_ASSERT_EQUAL(correct, ::ToString(n)); } void TUInt128Test::FromStringTest() { { const TString originalString = "37778931862957161709568"; const ui128 number = FromString(originalString); UNIT_ASSERT_EQUAL(ToString(number), originalString); } { const TString originalString = "1024"; const ui128 number = FromString(originalString); UNIT_ASSERT_EQUAL(ToString(number), originalString); UNIT_ASSERT_EQUAL(GetHigh(number), 0); UNIT_ASSERT_EQUAL(GetLow(number), 1024); } { const TString originalString = "18446744073709551616"; // 2^64, i.e. UINT64_MAX + 1 const ui128 number = FromString(originalString); UNIT_ASSERT_EQUAL(ToString(number), originalString); UNIT_ASSERT_EQUAL(GetHigh(number), 1); UNIT_ASSERT_EQUAL(GetLow(number), 0); } { const TString originalString = "340282366920938463463374607431768211455"; // 2^128-1, i.e. UINT128_MAX const ui128 number = FromString(originalString); UNIT_ASSERT_EQUAL(ToString(number), originalString); UNIT_ASSERT_EQUAL(GetHigh(number), 0xFFFFFFFFFFFFFFFF); UNIT_ASSERT_EQUAL(GetLow(number), 0xFFFFFFFFFFFFFFFF); } } #if defined(Y_HAVE_INT128) void TUInt128Test::FromSystemUint128() { unsigned __int128 n = 1; ui128 number{n}; UNIT_ASSERT_EQUAL(GetLow(number), 1); UNIT_ASSERT_EQUAL(GetHigh(number), 0); auto byteArray = NInt128Private::GetAsArray(number); #ifdef _little_endian_ UNIT_ASSERT_EQUAL(byteArray[0], 1); for (size_t i = 1; i < 16; i++) { UNIT_ASSERT_EQUAL(byteArray[i], 0); } #elif defined(_big_endian_) UNIT_ASSERT_EQUAL(byteArray[15], 1); for (size_t i = 0; i < 15; i++) { UNIT_ASSERT_EQUAL(byteArray[i], 0); } #endif UNIT_ASSERT_EQUAL(std::memcmp((void*)&n, (void*)&number, 16), 0); UNIT_ASSERT_EQUAL(ToString(n), "1"); UNIT_ASSERT_EQUAL(FromString(ToString(n)), n); } #endif