Abseil Common Libraries (C++) (grcp 依赖)
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482 lines
16 KiB
482 lines
16 KiB
// Copyright 2017 The Abseil Authors. |
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// |
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// Licensed under the Apache License, Version 2.0 (the "License"); |
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// you may not use this file except in compliance with the License. |
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// You may obtain a copy of the License at |
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// |
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// https://www.apache.org/licenses/LICENSE-2.0 |
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// |
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// Unless required by applicable law or agreed to in writing, software |
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// distributed under the License is distributed on an "AS IS" BASIS, |
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. |
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// See the License for the specific language governing permissions and |
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// limitations under the License. |
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#include "absl/numeric/int128.h" |
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#include <algorithm> |
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#include <limits> |
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#include <random> |
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#include <type_traits> |
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#include <utility> |
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#include <vector> |
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#include "gtest/gtest.h" |
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#include "absl/base/internal/cycleclock.h" |
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#include "absl/hash/hash_testing.h" |
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#include "absl/meta/type_traits.h" |
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#if defined(_MSC_VER) && _MSC_VER == 1900 |
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// Disable "unary minus operator applied to unsigned type" warnings in Microsoft |
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// Visual C++ 14 (2015). |
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#pragma warning(disable:4146) |
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#endif |
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namespace { |
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template <typename T> |
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class Uint128IntegerTraitsTest : public ::testing::Test {}; |
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typedef ::testing::Types<bool, char, signed char, unsigned char, char16_t, |
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char32_t, wchar_t, |
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short, // NOLINT(runtime/int) |
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unsigned short, // NOLINT(runtime/int) |
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int, unsigned int, |
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long, // NOLINT(runtime/int) |
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unsigned long, // NOLINT(runtime/int) |
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long long, // NOLINT(runtime/int) |
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unsigned long long> // NOLINT(runtime/int) |
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IntegerTypes; |
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template <typename T> |
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class Uint128FloatTraitsTest : public ::testing::Test {}; |
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typedef ::testing::Types<float, double, long double> FloatingPointTypes; |
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TYPED_TEST_SUITE(Uint128IntegerTraitsTest, IntegerTypes); |
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TYPED_TEST(Uint128IntegerTraitsTest, ConstructAssignTest) { |
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static_assert(std::is_constructible<absl::uint128, TypeParam>::value, |
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"absl::uint128 must be constructible from TypeParam"); |
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static_assert(std::is_assignable<absl::uint128&, TypeParam>::value, |
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"absl::uint128 must be assignable from TypeParam"); |
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static_assert(!std::is_assignable<TypeParam&, absl::uint128>::value, |
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"TypeParam must not be assignable from absl::uint128"); |
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} |
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TYPED_TEST_SUITE(Uint128FloatTraitsTest, FloatingPointTypes); |
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TYPED_TEST(Uint128FloatTraitsTest, ConstructAssignTest) { |
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static_assert(std::is_constructible<absl::uint128, TypeParam>::value, |
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"absl::uint128 must be constructible from TypeParam"); |
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static_assert(!std::is_assignable<absl::uint128&, TypeParam>::value, |
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"absl::uint128 must not be assignable from TypeParam"); |
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static_assert(!std::is_assignable<TypeParam&, absl::uint128>::value, |
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"TypeParam must not be assignable from absl::uint128"); |
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} |
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#ifdef ABSL_HAVE_INTRINSIC_INT128 |
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// These type traits done separately as TYPED_TEST requires typeinfo, and not |
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// all platforms have this for __int128 even though they define the type. |
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TEST(Uint128, IntrinsicTypeTraitsTest) { |
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static_assert(std::is_constructible<absl::uint128, __int128>::value, |
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"absl::uint128 must be constructible from __int128"); |
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static_assert(std::is_assignable<absl::uint128&, __int128>::value, |
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"absl::uint128 must be assignable from __int128"); |
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static_assert(!std::is_assignable<__int128&, absl::uint128>::value, |
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"__int128 must not be assignable from absl::uint128"); |
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static_assert(std::is_constructible<absl::uint128, unsigned __int128>::value, |
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"absl::uint128 must be constructible from unsigned __int128"); |
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static_assert(std::is_assignable<absl::uint128&, unsigned __int128>::value, |
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"absl::uint128 must be assignable from unsigned __int128"); |
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static_assert(!std::is_assignable<unsigned __int128&, absl::uint128>::value, |
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"unsigned __int128 must not be assignable from absl::uint128"); |
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} |
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#endif // ABSL_HAVE_INTRINSIC_INT128 |
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TEST(Uint128, TrivialTraitsTest) { |
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static_assert(absl::is_trivially_default_constructible<absl::uint128>::value, |
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""); |
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static_assert(absl::is_trivially_copy_constructible<absl::uint128>::value, |
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""); |
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static_assert(absl::is_trivially_copy_assignable<absl::uint128>::value, ""); |
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static_assert(std::is_trivially_destructible<absl::uint128>::value, ""); |
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} |
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TEST(Uint128, AllTests) { |
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absl::uint128 zero = 0; |
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absl::uint128 one = 1; |
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absl::uint128 one_2arg = absl::MakeUint128(0, 1); |
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absl::uint128 two = 2; |
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absl::uint128 three = 3; |
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absl::uint128 big = absl::MakeUint128(2000, 2); |
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absl::uint128 big_minus_one = absl::MakeUint128(2000, 1); |
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absl::uint128 bigger = absl::MakeUint128(2001, 1); |
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absl::uint128 biggest = absl::Uint128Max(); |
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absl::uint128 high_low = absl::MakeUint128(1, 0); |
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absl::uint128 low_high = |
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absl::MakeUint128(0, std::numeric_limits<uint64_t>::max()); |
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EXPECT_LT(one, two); |
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EXPECT_GT(two, one); |
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EXPECT_LT(one, big); |
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EXPECT_LT(one, big); |
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EXPECT_EQ(one, one_2arg); |
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EXPECT_NE(one, two); |
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EXPECT_GT(big, one); |
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EXPECT_GE(big, two); |
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EXPECT_GE(big, big_minus_one); |
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EXPECT_GT(big, big_minus_one); |
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EXPECT_LT(big_minus_one, big); |
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EXPECT_LE(big_minus_one, big); |
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EXPECT_NE(big_minus_one, big); |
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EXPECT_LT(big, biggest); |
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EXPECT_LE(big, biggest); |
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EXPECT_GT(biggest, big); |
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EXPECT_GE(biggest, big); |
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EXPECT_EQ(big, ~~big); |
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EXPECT_EQ(one, one | one); |
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EXPECT_EQ(big, big | big); |
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EXPECT_EQ(one, one | zero); |
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EXPECT_EQ(one, one & one); |
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EXPECT_EQ(big, big & big); |
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EXPECT_EQ(zero, one & zero); |
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EXPECT_EQ(zero, big & ~big); |
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EXPECT_EQ(zero, one ^ one); |
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EXPECT_EQ(zero, big ^ big); |
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EXPECT_EQ(one, one ^ zero); |
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// Shift operators. |
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EXPECT_EQ(big, big << 0); |
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EXPECT_EQ(big, big >> 0); |
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EXPECT_GT(big << 1, big); |
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EXPECT_LT(big >> 1, big); |
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EXPECT_EQ(big, (big << 10) >> 10); |
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EXPECT_EQ(big, (big >> 1) << 1); |
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EXPECT_EQ(one, (one << 80) >> 80); |
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EXPECT_EQ(zero, (one >> 80) << 80); |
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// Shift assignments. |
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absl::uint128 big_copy = big; |
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EXPECT_EQ(big << 0, big_copy <<= 0); |
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big_copy = big; |
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EXPECT_EQ(big >> 0, big_copy >>= 0); |
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big_copy = big; |
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EXPECT_EQ(big << 1, big_copy <<= 1); |
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big_copy = big; |
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EXPECT_EQ(big >> 1, big_copy >>= 1); |
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big_copy = big; |
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EXPECT_EQ(big << 10, big_copy <<= 10); |
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big_copy = big; |
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EXPECT_EQ(big >> 10, big_copy >>= 10); |
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big_copy = big; |
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EXPECT_EQ(big << 64, big_copy <<= 64); |
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big_copy = big; |
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EXPECT_EQ(big >> 64, big_copy >>= 64); |
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big_copy = big; |
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EXPECT_EQ(big << 73, big_copy <<= 73); |
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big_copy = big; |
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EXPECT_EQ(big >> 73, big_copy >>= 73); |
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EXPECT_EQ(absl::Uint128High64(biggest), std::numeric_limits<uint64_t>::max()); |
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EXPECT_EQ(absl::Uint128Low64(biggest), std::numeric_limits<uint64_t>::max()); |
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EXPECT_EQ(zero + one, one); |
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EXPECT_EQ(one + one, two); |
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EXPECT_EQ(big_minus_one + one, big); |
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EXPECT_EQ(one - one, zero); |
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EXPECT_EQ(one - zero, one); |
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EXPECT_EQ(zero - one, biggest); |
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EXPECT_EQ(big - big, zero); |
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EXPECT_EQ(big - one, big_minus_one); |
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EXPECT_EQ(big + std::numeric_limits<uint64_t>::max(), bigger); |
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EXPECT_EQ(biggest + 1, zero); |
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EXPECT_EQ(zero - 1, biggest); |
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EXPECT_EQ(high_low - one, low_high); |
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EXPECT_EQ(low_high + one, high_low); |
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EXPECT_EQ(absl::Uint128High64((absl::uint128(1) << 64) - 1), 0); |
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EXPECT_EQ(absl::Uint128Low64((absl::uint128(1) << 64) - 1), |
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std::numeric_limits<uint64_t>::max()); |
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EXPECT_TRUE(!!one); |
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EXPECT_TRUE(!!high_low); |
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EXPECT_FALSE(!!zero); |
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EXPECT_FALSE(!one); |
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EXPECT_FALSE(!high_low); |
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EXPECT_TRUE(!zero); |
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EXPECT_TRUE(zero == 0); // NOLINT(readability/check) |
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EXPECT_FALSE(zero != 0); // NOLINT(readability/check) |
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EXPECT_FALSE(one == 0); // NOLINT(readability/check) |
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EXPECT_TRUE(one != 0); // NOLINT(readability/check) |
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EXPECT_FALSE(high_low == 0); // NOLINT(readability/check) |
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EXPECT_TRUE(high_low != 0); // NOLINT(readability/check) |
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absl::uint128 test = zero; |
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EXPECT_EQ(++test, one); |
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EXPECT_EQ(test, one); |
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EXPECT_EQ(test++, one); |
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EXPECT_EQ(test, two); |
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EXPECT_EQ(test -= 2, zero); |
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EXPECT_EQ(test, zero); |
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EXPECT_EQ(test += 2, two); |
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EXPECT_EQ(test, two); |
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EXPECT_EQ(--test, one); |
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EXPECT_EQ(test, one); |
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EXPECT_EQ(test--, one); |
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EXPECT_EQ(test, zero); |
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EXPECT_EQ(test |= three, three); |
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EXPECT_EQ(test &= one, one); |
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EXPECT_EQ(test ^= three, two); |
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EXPECT_EQ(test >>= 1, one); |
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EXPECT_EQ(test <<= 1, two); |
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EXPECT_EQ(big, -(-big)); |
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EXPECT_EQ(two, -((-one) - 1)); |
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EXPECT_EQ(absl::Uint128Max(), -one); |
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EXPECT_EQ(zero, -zero); |
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EXPECT_EQ(absl::Uint128Max(), absl::kuint128max); |
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} |
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TEST(Uint128, ConversionTests) { |
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EXPECT_TRUE(absl::MakeUint128(1, 0)); |
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#ifdef ABSL_HAVE_INTRINSIC_INT128 |
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unsigned __int128 intrinsic = |
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(static_cast<unsigned __int128>(0x3a5b76c209de76f6) << 64) + |
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0x1f25e1d63a2b46c5; |
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absl::uint128 custom = |
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absl::MakeUint128(0x3a5b76c209de76f6, 0x1f25e1d63a2b46c5); |
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EXPECT_EQ(custom, absl::uint128(intrinsic)); |
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EXPECT_EQ(custom, absl::uint128(static_cast<__int128>(intrinsic))); |
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EXPECT_EQ(intrinsic, static_cast<unsigned __int128>(custom)); |
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EXPECT_EQ(intrinsic, static_cast<__int128>(custom)); |
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#endif // ABSL_HAVE_INTRINSIC_INT128 |
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// verify that an integer greater than 2**64 that can be stored precisely |
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// inside a double is converted to a absl::uint128 without loss of |
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// information. |
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double precise_double = 0x530e * std::pow(2.0, 64.0) + 0xda74000000000000; |
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absl::uint128 from_precise_double(precise_double); |
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absl::uint128 from_precise_ints = |
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absl::MakeUint128(0x530e, 0xda74000000000000); |
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EXPECT_EQ(from_precise_double, from_precise_ints); |
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EXPECT_DOUBLE_EQ(static_cast<double>(from_precise_ints), precise_double); |
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double approx_double = 0xffffeeeeddddcccc * std::pow(2.0, 64.0) + |
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0xbbbbaaaa99998888; |
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absl::uint128 from_approx_double(approx_double); |
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EXPECT_DOUBLE_EQ(static_cast<double>(from_approx_double), approx_double); |
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double round_to_zero = 0.7; |
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double round_to_five = 5.8; |
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double round_to_nine = 9.3; |
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EXPECT_EQ(static_cast<absl::uint128>(round_to_zero), 0); |
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EXPECT_EQ(static_cast<absl::uint128>(round_to_five), 5); |
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EXPECT_EQ(static_cast<absl::uint128>(round_to_nine), 9); |
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absl::uint128 highest_precision_in_long_double = |
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~absl::uint128{} >> (128 - std::numeric_limits<long double>::digits); |
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EXPECT_EQ(highest_precision_in_long_double, |
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static_cast<absl::uint128>( |
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static_cast<long double>(highest_precision_in_long_double))); |
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// Apply a mask just to make sure all the bits are the right place. |
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const absl::uint128 arbitrary_mask = |
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absl::MakeUint128(0xa29f622677ded751, 0xf8ca66add076f468); |
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EXPECT_EQ(highest_precision_in_long_double & arbitrary_mask, |
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static_cast<absl::uint128>(static_cast<long double>( |
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highest_precision_in_long_double & arbitrary_mask))); |
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EXPECT_EQ(static_cast<absl::uint128>(-0.1L), 0); |
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} |
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TEST(Uint128, OperatorAssignReturnRef) { |
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absl::uint128 v(1); |
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(v += 4) -= 3; |
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EXPECT_EQ(2, v); |
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} |
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TEST(Uint128, Multiply) { |
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absl::uint128 a, b, c; |
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// Zero test. |
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a = 0; |
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b = 0; |
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c = a * b; |
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EXPECT_EQ(0, c); |
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// Max carries. |
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a = absl::uint128(0) - 1; |
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b = absl::uint128(0) - 1; |
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c = a * b; |
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EXPECT_EQ(1, c); |
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// Self-operation with max carries. |
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c = absl::uint128(0) - 1; |
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c *= c; |
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EXPECT_EQ(1, c); |
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// 1-bit x 1-bit. |
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for (int i = 0; i < 64; ++i) { |
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for (int j = 0; j < 64; ++j) { |
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a = absl::uint128(1) << i; |
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b = absl::uint128(1) << j; |
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c = a * b; |
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EXPECT_EQ(absl::uint128(1) << (i + j), c); |
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} |
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} |
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// Verified with dc. |
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a = absl::MakeUint128(0xffffeeeeddddcccc, 0xbbbbaaaa99998888); |
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b = absl::MakeUint128(0x7777666655554444, 0x3333222211110000); |
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c = a * b; |
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EXPECT_EQ(absl::MakeUint128(0x530EDA741C71D4C3, 0xBF25975319080000), c); |
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EXPECT_EQ(0, c - b * a); |
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EXPECT_EQ(a*a - b*b, (a+b) * (a-b)); |
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// Verified with dc. |
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a = absl::MakeUint128(0x0123456789abcdef, 0xfedcba9876543210); |
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b = absl::MakeUint128(0x02468ace13579bdf, 0xfdb97531eca86420); |
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c = a * b; |
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EXPECT_EQ(absl::MakeUint128(0x97a87f4f261ba3f2, 0x342d0bbf48948200), c); |
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EXPECT_EQ(0, c - b * a); |
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EXPECT_EQ(a*a - b*b, (a+b) * (a-b)); |
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} |
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TEST(Uint128, AliasTests) { |
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absl::uint128 x1 = absl::MakeUint128(1, 2); |
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absl::uint128 x2 = absl::MakeUint128(2, 4); |
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x1 += x1; |
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EXPECT_EQ(x2, x1); |
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absl::uint128 x3 = absl::MakeUint128(1, static_cast<uint64_t>(1) << 63); |
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absl::uint128 x4 = absl::MakeUint128(3, 0); |
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x3 += x3; |
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EXPECT_EQ(x4, x3); |
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} |
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TEST(Uint128, DivideAndMod) { |
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using std::swap; |
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// a := q * b + r |
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absl::uint128 a, b, q, r; |
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// Zero test. |
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a = 0; |
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b = 123; |
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q = a / b; |
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r = a % b; |
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EXPECT_EQ(0, q); |
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EXPECT_EQ(0, r); |
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a = absl::MakeUint128(0x530eda741c71d4c3, 0xbf25975319080000); |
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q = absl::MakeUint128(0x4de2cab081, 0x14c34ab4676e4bab); |
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b = absl::uint128(0x1110001); |
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r = absl::uint128(0x3eb455); |
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ASSERT_EQ(a, q * b + r); // Sanity-check. |
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absl::uint128 result_q, result_r; |
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result_q = a / b; |
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result_r = a % b; |
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EXPECT_EQ(q, result_q); |
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EXPECT_EQ(r, result_r); |
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// Try the other way around. |
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swap(q, b); |
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result_q = a / b; |
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result_r = a % b; |
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EXPECT_EQ(q, result_q); |
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EXPECT_EQ(r, result_r); |
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// Restore. |
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swap(b, q); |
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// Dividend < divisor; result should be q:0 r:<dividend>. |
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swap(a, b); |
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result_q = a / b; |
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result_r = a % b; |
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EXPECT_EQ(0, result_q); |
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EXPECT_EQ(a, result_r); |
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// Try the other way around. |
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swap(a, q); |
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result_q = a / b; |
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result_r = a % b; |
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EXPECT_EQ(0, result_q); |
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EXPECT_EQ(a, result_r); |
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// Restore. |
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swap(q, a); |
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swap(b, a); |
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// Try a large remainder. |
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b = a / 2 + 1; |
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absl::uint128 expected_r = |
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absl::MakeUint128(0x29876d3a0e38ea61, 0xdf92cba98c83ffff); |
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// Sanity checks. |
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ASSERT_EQ(a / 2 - 1, expected_r); |
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ASSERT_EQ(a, b + expected_r); |
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result_q = a / b; |
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result_r = a % b; |
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EXPECT_EQ(1, result_q); |
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EXPECT_EQ(expected_r, result_r); |
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} |
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TEST(Uint128, DivideAndModRandomInputs) { |
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const int kNumIters = 1 << 18; |
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std::minstd_rand random(testing::UnitTest::GetInstance()->random_seed()); |
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std::uniform_int_distribution<uint64_t> uniform_uint64; |
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for (int i = 0; i < kNumIters; ++i) { |
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const absl::uint128 a = |
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absl::MakeUint128(uniform_uint64(random), uniform_uint64(random)); |
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const absl::uint128 b = |
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absl::MakeUint128(uniform_uint64(random), uniform_uint64(random)); |
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if (b == 0) { |
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continue; // Avoid a div-by-zero. |
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} |
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const absl::uint128 q = a / b; |
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const absl::uint128 r = a % b; |
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ASSERT_EQ(a, b * q + r); |
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} |
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} |
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TEST(Uint128, ConstexprTest) { |
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constexpr absl::uint128 zero = absl::uint128(); |
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constexpr absl::uint128 one = 1; |
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constexpr absl::uint128 minus_two = -2; |
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EXPECT_EQ(zero, absl::uint128(0)); |
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EXPECT_EQ(one, absl::uint128(1)); |
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EXPECT_EQ(minus_two, absl::MakeUint128(-1, -2)); |
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} |
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TEST(Uint128, NumericLimitsTest) { |
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static_assert(std::numeric_limits<absl::uint128>::is_specialized, ""); |
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static_assert(!std::numeric_limits<absl::uint128>::is_signed, ""); |
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static_assert(std::numeric_limits<absl::uint128>::is_integer, ""); |
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EXPECT_EQ(static_cast<int>(128 * std::log10(2)), |
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std::numeric_limits<absl::uint128>::digits10); |
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EXPECT_EQ(0, std::numeric_limits<absl::uint128>::min()); |
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EXPECT_EQ(0, std::numeric_limits<absl::uint128>::lowest()); |
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EXPECT_EQ(absl::Uint128Max(), std::numeric_limits<absl::uint128>::max()); |
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} |
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TEST(Uint128, Hash) { |
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EXPECT_TRUE(absl::VerifyTypeImplementsAbslHashCorrectly({ |
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// Some simple values |
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absl::uint128{0}, |
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absl::uint128{1}, |
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~absl::uint128{}, |
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// 64 bit limits |
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absl::uint128{std::numeric_limits<int64_t>::max()}, |
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absl::uint128{std::numeric_limits<uint64_t>::max()} + 0, |
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absl::uint128{std::numeric_limits<uint64_t>::max()} + 1, |
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absl::uint128{std::numeric_limits<uint64_t>::max()} + 2, |
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// Keeping high same |
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absl::uint128{1} << 62, |
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absl::uint128{1} << 63, |
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// Keeping low same |
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absl::uint128{1} << 64, |
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absl::uint128{1} << 65, |
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// 128 bit limits |
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std::numeric_limits<absl::uint128>::max(), |
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std::numeric_limits<absl::uint128>::max() - 1, |
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std::numeric_limits<absl::uint128>::min() + 1, |
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std::numeric_limits<absl::uint128>::min(), |
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})); |
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} |
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|
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} // namespace
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|