// Protocol Buffers - Google's data interchange format // Copyright 2008 Google Inc. All rights reserved. // https://developers.google.com/protocol-buffers/ // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following disclaimer // in the documentation and/or other materials provided with the // distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived from // this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. #include #include #include #include #include #include namespace google { namespace protobuf { TEST(Int128, AllTests) { uint128 zero(0); uint128 one(1); uint128 one_2arg(0, 1); uint128 two(0, 2); uint128 three(0, 3); uint128 big(2000, 2); uint128 big_minus_one(2000, 1); uint128 bigger(2001, 1); uint128 biggest(kuint128max); uint128 high_low(1, 0); uint128 low_high(0, kuint64max); EXPECT_LT(one, two); EXPECT_GT(two, one); EXPECT_LT(one, big); EXPECT_LT(one, big); EXPECT_EQ(one, one_2arg); EXPECT_NE(one, two); EXPECT_GT(big, one); EXPECT_GE(big, two); EXPECT_GE(big, big_minus_one); EXPECT_GT(big, big_minus_one); EXPECT_LT(big_minus_one, big); EXPECT_LE(big_minus_one, big); EXPECT_NE(big_minus_one, big); EXPECT_LT(big, biggest); EXPECT_LE(big, biggest); EXPECT_GT(biggest, big); EXPECT_GE(biggest, big); EXPECT_EQ(big, ~~big); EXPECT_EQ(one, one | one); EXPECT_EQ(big, big | big); EXPECT_EQ(one, one | zero); EXPECT_EQ(one, one & one); EXPECT_EQ(big, big & big); EXPECT_EQ(zero, one & zero); EXPECT_EQ(zero, big & ~big); EXPECT_EQ(zero, one ^ one); EXPECT_EQ(zero, big ^ big); EXPECT_EQ(one, one ^ zero); // Shift operators. EXPECT_EQ(big, big << 0); EXPECT_EQ(big, big >> 0); EXPECT_GT(big << 1, big); EXPECT_LT(big >> 1, big); EXPECT_EQ(big, (big << 10) >> 10); EXPECT_EQ(big, (big >> 1) << 1); EXPECT_EQ(one, (one << 80) >> 80); EXPECT_EQ(zero, (one >> 80) << 80); EXPECT_EQ(zero, big >> 128); EXPECT_EQ(zero, big << 128); // Shift assignments. uint128 big_copy = big; EXPECT_EQ(big << 0, big_copy <<= 0); big_copy = big; EXPECT_EQ(big >> 0, big_copy >>= 0); big_copy = big; EXPECT_EQ(big << 1, big_copy <<= 1); big_copy = big; EXPECT_EQ(big >> 1, big_copy >>= 1); big_copy = big; EXPECT_EQ(big << 10, big_copy <<= 10); big_copy = big; EXPECT_EQ(big >> 10, big_copy >>= 10); big_copy = big; EXPECT_EQ(big << 64, big_copy <<= 64); big_copy = big; EXPECT_EQ(big >> 64, big_copy >>= 64); big_copy = big; EXPECT_EQ(big << 73, big_copy <<= 73); big_copy = big; EXPECT_EQ(big >> 73, big_copy >>= 73); big_copy = big; EXPECT_EQ(big << 128, big_copy <<= 128); big_copy = big; EXPECT_EQ(big >> 128, big_copy >>= 128); EXPECT_EQ(Uint128High64(biggest), kuint64max); EXPECT_EQ(Uint128Low64(biggest), kuint64max); EXPECT_EQ(zero + one, one); EXPECT_EQ(one + one, two); EXPECT_EQ(big_minus_one + one, big); EXPECT_EQ(one - one, zero); EXPECT_EQ(one - zero, one); EXPECT_EQ(zero - one, biggest); EXPECT_EQ(big - big, zero); EXPECT_EQ(big - one, big_minus_one); EXPECT_EQ(big + kuint64max, bigger); EXPECT_EQ(biggest + 1, zero); EXPECT_EQ(zero - 1, biggest); EXPECT_EQ(high_low - one, low_high); EXPECT_EQ(low_high + one, high_low); EXPECT_EQ(Uint128High64((uint128(1) << 64) - 1), 0); EXPECT_EQ(Uint128Low64((uint128(1) << 64) - 1), kuint64max); EXPECT_TRUE(!!one); EXPECT_TRUE(!!high_low); EXPECT_FALSE(!!zero); EXPECT_FALSE(!one); EXPECT_FALSE(!high_low); EXPECT_TRUE(!zero); EXPECT_TRUE(zero == 0); EXPECT_FALSE(zero != 0); EXPECT_FALSE(one == 0); EXPECT_TRUE(one != 0); uint128 test = zero; EXPECT_EQ(++test, one); EXPECT_EQ(test, one); EXPECT_EQ(test++, one); EXPECT_EQ(test, two); EXPECT_EQ(test -= 2, zero); EXPECT_EQ(test, zero); EXPECT_EQ(test += 2, two); EXPECT_EQ(test, two); EXPECT_EQ(--test, one); EXPECT_EQ(test, one); EXPECT_EQ(test--, one); EXPECT_EQ(test, zero); EXPECT_EQ(test |= three, three); EXPECT_EQ(test &= one, one); EXPECT_EQ(test ^= three, two); EXPECT_EQ(test >>= 1, one); EXPECT_EQ(test <<= 1, two); EXPECT_EQ(big, -(-big)); EXPECT_EQ(two, -((-one) - 1)); EXPECT_EQ(kuint128max, -one); EXPECT_EQ(zero, -zero); GOOGLE_LOG(INFO) << one; GOOGLE_LOG(INFO) << big_minus_one; } TEST(Int128, PodTests) { uint128_pod pod = { 12345, 67890 }; uint128 from_pod(pod); EXPECT_EQ(12345, Uint128High64(from_pod)); EXPECT_EQ(67890, Uint128Low64(from_pod)); uint128 zero(0); uint128_pod zero_pod = {0, 0}; uint128 one(1); uint128_pod one_pod = {0, 1}; uint128 two(2); uint128_pod two_pod = {0, 2}; uint128 three(3); uint128_pod three_pod = {0, 3}; uint128 big(1, 0); uint128_pod big_pod = {1, 0}; EXPECT_EQ(zero, zero_pod); EXPECT_EQ(zero_pod, zero); EXPECT_EQ(zero_pod, zero_pod); EXPECT_EQ(one, one_pod); EXPECT_EQ(one_pod, one); EXPECT_EQ(one_pod, one_pod); EXPECT_EQ(two, two_pod); EXPECT_EQ(two_pod, two); EXPECT_EQ(two_pod, two_pod); EXPECT_NE(one, two_pod); EXPECT_NE(one_pod, two); EXPECT_NE(one_pod, two_pod); EXPECT_LT(one, two_pod); EXPECT_LT(one_pod, two); EXPECT_LT(one_pod, two_pod); EXPECT_LE(one, one_pod); EXPECT_LE(one_pod, one); EXPECT_LE(one_pod, one_pod); EXPECT_LE(one, two_pod); EXPECT_LE(one_pod, two); EXPECT_LE(one_pod, two_pod); EXPECT_GT(two, one_pod); EXPECT_GT(two_pod, one); EXPECT_GT(two_pod, one_pod); EXPECT_GE(two, two_pod); EXPECT_GE(two_pod, two); EXPECT_GE(two_pod, two_pod); EXPECT_GE(two, one_pod); EXPECT_GE(two_pod, one); EXPECT_GE(two_pod, one_pod); EXPECT_EQ(three, one | two_pod); EXPECT_EQ(three, one_pod | two); EXPECT_EQ(three, one_pod | two_pod); EXPECT_EQ(one, three & one_pod); EXPECT_EQ(one, three_pod & one); EXPECT_EQ(one, three_pod & one_pod); EXPECT_EQ(two, three ^ one_pod); EXPECT_EQ(two, three_pod ^ one); EXPECT_EQ(two, three_pod ^ one_pod); EXPECT_EQ(two, three & (~one)); EXPECT_EQ(three, ~~three); EXPECT_EQ(two, two_pod << 0); EXPECT_EQ(two, one_pod << 1); EXPECT_EQ(big, one_pod << 64); EXPECT_EQ(zero, one_pod << 128); EXPECT_EQ(two, two_pod >> 0); EXPECT_EQ(one, two_pod >> 1); EXPECT_EQ(one, big_pod >> 64); EXPECT_EQ(one, zero + one_pod); EXPECT_EQ(one, zero_pod + one); EXPECT_EQ(one, zero_pod + one_pod); EXPECT_EQ(one, two - one_pod); EXPECT_EQ(one, two_pod - one); EXPECT_EQ(one, two_pod - one_pod); } TEST(Int128, OperatorAssignReturnRef) { uint128 v(1); (v += 4) -= 3; EXPECT_EQ(2, v); } TEST(Int128, Multiply) { uint128 a, b, c; // Zero test. a = 0; b = 0; c = a * b; EXPECT_EQ(0, c); // Max carries. a = uint128(0) - 1; b = uint128(0) - 1; c = a * b; EXPECT_EQ(1, c); // Self-operation with max carries. c = uint128(0) - 1; c *= c; EXPECT_EQ(1, c); // 1-bit x 1-bit. for (int i = 0; i < 64; ++i) { for (int j = 0; j < 64; ++j) { a = uint128(1) << i; b = uint128(1) << j; c = a * b; EXPECT_EQ(uint128(1) << (i+j), c); } } // Verified with dc. a = uint128(GOOGLE_ULONGLONG(0xffffeeeeddddcccc), GOOGLE_ULONGLONG(0xbbbbaaaa99998888)); b = uint128(GOOGLE_ULONGLONG(0x7777666655554444), GOOGLE_ULONGLONG(0x3333222211110000)); c = a * b; EXPECT_EQ(uint128(GOOGLE_ULONGLONG(0x530EDA741C71D4C3), GOOGLE_ULONGLONG(0xBF25975319080000)), c); EXPECT_EQ(0, c - b * a); EXPECT_EQ(a*a - b*b, (a+b) * (a-b)); // Verified with dc. a = uint128(GOOGLE_ULONGLONG(0x0123456789abcdef), GOOGLE_ULONGLONG(0xfedcba9876543210)); b = uint128(GOOGLE_ULONGLONG(0x02468ace13579bdf), GOOGLE_ULONGLONG(0xfdb97531eca86420)); c = a * b; EXPECT_EQ(uint128(GOOGLE_ULONGLONG(0x97a87f4f261ba3f2), GOOGLE_ULONGLONG(0x342d0bbf48948200)), c); EXPECT_EQ(0, c - b * a); EXPECT_EQ(a*a - b*b, (a+b) * (a-b)); } TEST(Int128, AliasTests) { uint128 x1(1, 2); uint128 x2(2, 4); x1 += x1; EXPECT_EQ(x2, x1); uint128 x3(1, static_cast(1) << 63); uint128 x4(3, 0); x3 += x3; EXPECT_EQ(x4, x3); } #ifdef PROTOBUF_HAS_DEATH_TEST TEST(Int128, DivideByZeroCheckFails) { uint128 a = 0; uint128 b = 0; EXPECT_DEATH(a / b, "Division or mod by zero:"); a = 123; EXPECT_DEATH(a / b, "Division or mod by zero:"); } TEST(Int128, ModByZeroCheckFails) { uint128 a = 0; uint128 b = 0; EXPECT_DEATH(a % b, "Division or mod by zero:"); a = 123; EXPECT_DEATH(a % b, "Division or mod by zero:"); } #endif // PROTOBUF_HAS_DEATH_TEST TEST(Int128, DivideAndMod) { // a := q * b + r uint128 a, b, q, r; // Zero test. a = 0; b = 123; q = a / b; r = a % b; EXPECT_EQ(0, q); EXPECT_EQ(0, r); a = uint128(GOOGLE_ULONGLONG(0x530eda741c71d4c3), GOOGLE_ULONGLONG(0xbf25975319080000)); q = uint128(GOOGLE_ULONGLONG(0x4de2cab081), GOOGLE_ULONGLONG(0x14c34ab4676e4bab)); b = uint128(0x1110001); r = uint128(0x3eb455); ASSERT_EQ(a, q * b + r); // Sanity-check. uint128 result_q, result_r; result_q = a / b; result_r = a % b; EXPECT_EQ(q, result_q); EXPECT_EQ(r, result_r); // Try the other way around. std::swap(q, b); result_q = a / b; result_r = a % b; EXPECT_EQ(q, result_q); EXPECT_EQ(r, result_r); // Restore. std::swap(b, q); // Dividend < divisor; result should be q:0 r:. std::swap(a, b); result_q = a / b; result_r = a % b; EXPECT_EQ(0, result_q); EXPECT_EQ(a, result_r); // Try the other way around. std::swap(a, q); result_q = a / b; result_r = a % b; EXPECT_EQ(0, result_q); EXPECT_EQ(a, result_r); // Restore. std::swap(q, a); std::swap(b, a); // Try a large remainder. b = a / 2 + 1; uint128 expected_r(GOOGLE_ULONGLONG(0x29876d3a0e38ea61), GOOGLE_ULONGLONG(0xdf92cba98c83ffff)); // Sanity checks. ASSERT_EQ(a / 2 - 1, expected_r); ASSERT_EQ(a, b + expected_r); result_q = a / b; result_r = a % b; EXPECT_EQ(1, result_q); EXPECT_EQ(expected_r, result_r); } static uint64 RandomUint64() { uint64 v1 = rand(); uint64 v2 = rand(); uint64 v3 = rand(); return v1 * v2 + v3; } TEST(Int128, DivideAndModRandomInputs) { const int kNumIters = 1 << 18; for (int i = 0; i < kNumIters; ++i) { const uint128 a(RandomUint64(), RandomUint64()); const uint128 b(RandomUint64(), RandomUint64()); if (b == 0) { continue; // Avoid a div-by-zero. } const uint128 q = a / b; const uint128 r = a % b; ASSERT_EQ(a, b * q + r); } } #ifdef GOOGLE_PROTOBUF_HAS_CONSTEXPR TEST(Int128, ConstexprTest) { constexpr uint128 zero; constexpr uint128 one = 1; constexpr uint128_pod pod = {2, 3}; constexpr uint128 from_pod = pod; constexpr uint128 minus_two = -2; EXPECT_EQ(one, uint128(1)); EXPECT_EQ(from_pod, uint128(2, 3)); EXPECT_EQ(minus_two, uint128(-1ULL, -2ULL)); } TEST(Int128, Traits) { EXPECT_TRUE(std::is_trivially_copy_constructible::value); EXPECT_TRUE(std::is_trivially_copy_assignable::value); EXPECT_TRUE(std::is_trivially_destructible::value); } #endif // GOOGLE_PROTOBUF_HAS_CONSTEXPR TEST(Int128, OStream) { struct { uint128 val; std::ios_base::fmtflags flags; std::streamsize width; char fill; const char* rep; } cases[] = { // zero with different bases {uint128(0), std::ios::dec, 0, '_', "0"}, {uint128(0), std::ios::oct, 0, '_', "0"}, {uint128(0), std::ios::hex, 0, '_', "0"}, // crossover between lo_ and hi_ {uint128(0, -1), std::ios::dec, 0, '_', "18446744073709551615"}, {uint128(0, -1), std::ios::oct, 0, '_', "1777777777777777777777"}, {uint128(0, -1), std::ios::hex, 0, '_', "ffffffffffffffff"}, {uint128(1, 0), std::ios::dec, 0, '_', "18446744073709551616"}, {uint128(1, 0), std::ios::oct, 0, '_', "2000000000000000000000"}, {uint128(1, 0), std::ios::hex, 0, '_', "10000000000000000"}, // just the top bit {uint128(GOOGLE_ULONGLONG(0x8000000000000000), 0), std::ios::dec, 0, '_', "170141183460469231731687303715884105728"}, {uint128(GOOGLE_ULONGLONG(0x8000000000000000), 0), std::ios::oct, 0, '_', "2000000000000000000000000000000000000000000"}, {uint128(GOOGLE_ULONGLONG(0x8000000000000000), 0), std::ios::hex, 0, '_', "80000000000000000000000000000000"}, // maximum uint128 value {uint128(-1, -1), std::ios::dec, 0, '_', "340282366920938463463374607431768211455"}, {uint128(-1, -1), std::ios::oct, 0, '_', "3777777777777777777777777777777777777777777"}, {uint128(-1, -1), std::ios::hex, 0, '_', "ffffffffffffffffffffffffffffffff"}, // uppercase {uint128(-1, -1), std::ios::hex | std::ios::uppercase, 0, '_', "FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF"}, // showbase {uint128(1), std::ios::dec | std::ios::showbase, 0, '_', "1"}, {uint128(1), std::ios::oct | std::ios::showbase, 0, '_', "01"}, {uint128(1), std::ios::hex | std::ios::showbase, 0, '_', "0x1"}, // showbase does nothing on zero {uint128(0), std::ios::dec | std::ios::showbase, 0, '_', "0"}, {uint128(0), std::ios::oct | std::ios::showbase, 0, '_', "0"}, {uint128(0), std::ios::hex | std::ios::showbase, 0, '_', "0"}, // showpos does nothing on unsigned types {uint128(1), std::ios::dec | std::ios::showpos, 0, '_', "1"}, // padding {uint128(9), std::ios::dec, 6, '_', "_____9"}, {uint128(12345), std::ios::dec, 6, '_', "_12345"}, // left adjustment {uint128(9), std::ios::dec | std::ios::left, 6, '_', "9_____"}, {uint128(12345), std::ios::dec | std::ios::left, 6, '_', "12345_"}, }; for (size_t i = 0; i < GOOGLE_ARRAYSIZE(cases); ++i) { std::ostringstream os; os.flags(cases[i].flags); os.width(cases[i].width); os.fill(cases[i].fill); os << cases[i].val; EXPECT_EQ(cases[i].rep, os.str()); } } } // namespace protobuf } // namespace google