Abseil Common Libraries (C++) (grcp 依赖)
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387 lines
14 KiB
387 lines
14 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 <stddef.h> |
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#include <cassert> |
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#include <iomanip> |
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#include <ostream> // NOLINT(readability/streams) |
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#include <sstream> |
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#include <string> |
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#include <type_traits> |
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#include "absl/base/optimization.h" |
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#include "absl/numeric/bits.h" |
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namespace absl { |
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ABSL_NAMESPACE_BEGIN |
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ABSL_DLL const uint128 kuint128max = MakeUint128( |
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std::numeric_limits<uint64_t>::max(), std::numeric_limits<uint64_t>::max()); |
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namespace { |
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// Returns the 0-based position of the last set bit (i.e., most significant bit) |
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// in the given uint128. The argument is not 0. |
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// |
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// For example: |
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// Given: 5 (decimal) == 101 (binary) |
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// Returns: 2 |
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inline ABSL_ATTRIBUTE_ALWAYS_INLINE int Fls128(uint128 n) { |
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if (uint64_t hi = Uint128High64(n)) { |
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ABSL_ASSUME(hi != 0); |
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return 127 - countl_zero(hi); |
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} |
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const uint64_t low = Uint128Low64(n); |
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ABSL_ASSUME(low != 0); |
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return 63 - countl_zero(low); |
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} |
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// Long division/modulo for uint128 implemented using the shift-subtract |
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// division algorithm adapted from: |
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// https://stackoverflow.com/questions/5386377/division-without-using |
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inline void DivModImpl(uint128 dividend, uint128 divisor, uint128* quotient_ret, |
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uint128* remainder_ret) { |
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assert(divisor != 0); |
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if (divisor > dividend) { |
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*quotient_ret = 0; |
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*remainder_ret = dividend; |
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return; |
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} |
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if (divisor == dividend) { |
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*quotient_ret = 1; |
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*remainder_ret = 0; |
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return; |
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} |
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uint128 denominator = divisor; |
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uint128 quotient = 0; |
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// Left aligns the MSB of the denominator and the dividend. |
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const int shift = Fls128(dividend) - Fls128(denominator); |
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denominator <<= shift; |
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// Uses shift-subtract algorithm to divide dividend by denominator. The |
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// remainder will be left in dividend. |
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for (int i = 0; i <= shift; ++i) { |
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quotient <<= 1; |
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if (dividend >= denominator) { |
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dividend -= denominator; |
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quotient |= 1; |
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} |
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denominator >>= 1; |
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} |
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*quotient_ret = quotient; |
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*remainder_ret = dividend; |
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} |
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template <typename T> |
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uint128 MakeUint128FromFloat(T v) { |
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static_assert(std::is_floating_point<T>::value, ""); |
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// Rounding behavior is towards zero, same as for built-in types. |
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// Undefined behavior if v is NaN or cannot fit into uint128. |
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assert(std::isfinite(v) && v > -1 && |
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(std::numeric_limits<T>::max_exponent <= 128 || |
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v < std::ldexp(static_cast<T>(1), 128))); |
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if (v >= std::ldexp(static_cast<T>(1), 64)) { |
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uint64_t hi = static_cast<uint64_t>(std::ldexp(v, -64)); |
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uint64_t lo = static_cast<uint64_t>(v - std::ldexp(static_cast<T>(hi), 64)); |
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return MakeUint128(hi, lo); |
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} |
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return MakeUint128(0, static_cast<uint64_t>(v)); |
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} |
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#if defined(__clang__) && !defined(__SSE3__) |
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// Workaround for clang bug: https://bugs.llvm.org/show_bug.cgi?id=38289 |
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// Casting from long double to uint64_t is miscompiled and drops bits. |
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// It is more work, so only use when we need the workaround. |
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uint128 MakeUint128FromFloat(long double v) { |
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// Go 50 bits at a time, that fits in a double |
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static_assert(std::numeric_limits<double>::digits >= 50, ""); |
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static_assert(std::numeric_limits<long double>::digits <= 150, ""); |
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// Undefined behavior if v is not finite or cannot fit into uint128. |
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assert(std::isfinite(v) && v > -1 && v < std::ldexp(1.0L, 128)); |
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v = std::ldexp(v, -100); |
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uint64_t w0 = static_cast<uint64_t>(static_cast<double>(std::trunc(v))); |
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v = std::ldexp(v - static_cast<double>(w0), 50); |
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uint64_t w1 = static_cast<uint64_t>(static_cast<double>(std::trunc(v))); |
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v = std::ldexp(v - static_cast<double>(w1), 50); |
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uint64_t w2 = static_cast<uint64_t>(static_cast<double>(std::trunc(v))); |
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return (static_cast<uint128>(w0) << 100) | (static_cast<uint128>(w1) << 50) | |
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static_cast<uint128>(w2); |
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} |
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#endif // __clang__ && !__SSE3__ |
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} // namespace |
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uint128::uint128(float v) : uint128(MakeUint128FromFloat(v)) {} |
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uint128::uint128(double v) : uint128(MakeUint128FromFloat(v)) {} |
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uint128::uint128(long double v) : uint128(MakeUint128FromFloat(v)) {} |
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#if !defined(ABSL_HAVE_INTRINSIC_INT128) |
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uint128 operator/(uint128 lhs, uint128 rhs) { |
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uint128 quotient = 0; |
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uint128 remainder = 0; |
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DivModImpl(lhs, rhs, "ient, &remainder); |
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return quotient; |
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} |
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uint128 operator%(uint128 lhs, uint128 rhs) { |
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uint128 quotient = 0; |
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uint128 remainder = 0; |
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DivModImpl(lhs, rhs, "ient, &remainder); |
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return remainder; |
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} |
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#endif // !defined(ABSL_HAVE_INTRINSIC_INT128) |
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namespace { |
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std::string Uint128ToFormattedString(uint128 v, std::ios_base::fmtflags flags) { |
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// Select a divisor which is the largest power of the base < 2^64. |
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uint128 div; |
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int div_base_log; |
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switch (flags & std::ios::basefield) { |
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case std::ios::hex: |
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div = 0x1000000000000000; // 16^15 |
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div_base_log = 15; |
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break; |
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case std::ios::oct: |
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div = 01000000000000000000000; // 8^21 |
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div_base_log = 21; |
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break; |
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default: // std::ios::dec |
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div = 10000000000000000000u; // 10^19 |
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div_base_log = 19; |
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break; |
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} |
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// Now piece together the uint128 representation from three chunks of the |
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// original value, each less than "div" and therefore representable as a |
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// uint64_t. |
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std::ostringstream os; |
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std::ios_base::fmtflags copy_mask = |
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std::ios::basefield | std::ios::showbase | std::ios::uppercase; |
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os.setf(flags & copy_mask, copy_mask); |
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uint128 high = v; |
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uint128 low; |
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DivModImpl(high, div, &high, &low); |
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uint128 mid; |
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DivModImpl(high, div, &high, &mid); |
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if (Uint128Low64(high) != 0) { |
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os << Uint128Low64(high); |
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os << std::noshowbase << std::setfill('0') << std::setw(div_base_log); |
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os << Uint128Low64(mid); |
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os << std::setw(div_base_log); |
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} else if (Uint128Low64(mid) != 0) { |
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os << Uint128Low64(mid); |
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os << std::noshowbase << std::setfill('0') << std::setw(div_base_log); |
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} |
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os << Uint128Low64(low); |
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return os.str(); |
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} |
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} // namespace |
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std::ostream& operator<<(std::ostream& os, uint128 v) { |
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std::ios_base::fmtflags flags = os.flags(); |
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std::string rep = Uint128ToFormattedString(v, flags); |
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// Add the requisite padding. |
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std::streamsize width = os.width(0); |
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if (static_cast<size_t>(width) > rep.size()) { |
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const size_t count = static_cast<size_t>(width) - rep.size(); |
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std::ios::fmtflags adjustfield = flags & std::ios::adjustfield; |
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if (adjustfield == std::ios::left) { |
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rep.append(count, os.fill()); |
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} else if (adjustfield == std::ios::internal && |
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(flags & std::ios::showbase) && |
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(flags & std::ios::basefield) == std::ios::hex && v != 0) { |
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rep.insert(2, count, os.fill()); |
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} else { |
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rep.insert(0, count, os.fill()); |
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} |
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} |
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return os << rep; |
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} |
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namespace { |
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uint128 UnsignedAbsoluteValue(int128 v) { |
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// Cast to uint128 before possibly negating because -Int128Min() is undefined. |
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return Int128High64(v) < 0 ? -uint128(v) : uint128(v); |
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} |
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} // namespace |
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#if !defined(ABSL_HAVE_INTRINSIC_INT128) |
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namespace { |
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template <typename T> |
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int128 MakeInt128FromFloat(T v) { |
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// Conversion when v is NaN or cannot fit into int128 would be undefined |
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// behavior if using an intrinsic 128-bit integer. |
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assert(std::isfinite(v) && (std::numeric_limits<T>::max_exponent <= 127 || |
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(v >= -std::ldexp(static_cast<T>(1), 127) && |
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v < std::ldexp(static_cast<T>(1), 127)))); |
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// We must convert the absolute value and then negate as needed, because |
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// floating point types are typically sign-magnitude. Otherwise, the |
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// difference between the high and low 64 bits when interpreted as two's |
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// complement overwhelms the precision of the mantissa. |
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uint128 result = v < 0 ? -MakeUint128FromFloat(-v) : MakeUint128FromFloat(v); |
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return MakeInt128(int128_internal::BitCastToSigned(Uint128High64(result)), |
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Uint128Low64(result)); |
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} |
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} // namespace |
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int128::int128(float v) : int128(MakeInt128FromFloat(v)) {} |
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int128::int128(double v) : int128(MakeInt128FromFloat(v)) {} |
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int128::int128(long double v) : int128(MakeInt128FromFloat(v)) {} |
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int128 operator/(int128 lhs, int128 rhs) { |
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assert(lhs != Int128Min() || rhs != -1); // UB on two's complement. |
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uint128 quotient = 0; |
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uint128 remainder = 0; |
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DivModImpl(UnsignedAbsoluteValue(lhs), UnsignedAbsoluteValue(rhs), |
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"ient, &remainder); |
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if ((Int128High64(lhs) < 0) != (Int128High64(rhs) < 0)) quotient = -quotient; |
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return MakeInt128(int128_internal::BitCastToSigned(Uint128High64(quotient)), |
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Uint128Low64(quotient)); |
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} |
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int128 operator%(int128 lhs, int128 rhs) { |
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assert(lhs != Int128Min() || rhs != -1); // UB on two's complement. |
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uint128 quotient = 0; |
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uint128 remainder = 0; |
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DivModImpl(UnsignedAbsoluteValue(lhs), UnsignedAbsoluteValue(rhs), |
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"ient, &remainder); |
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if (Int128High64(lhs) < 0) remainder = -remainder; |
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return MakeInt128(int128_internal::BitCastToSigned(Uint128High64(remainder)), |
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Uint128Low64(remainder)); |
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} |
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#endif // ABSL_HAVE_INTRINSIC_INT128 |
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std::ostream& operator<<(std::ostream& os, int128 v) { |
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std::ios_base::fmtflags flags = os.flags(); |
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std::string rep; |
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// Add the sign if needed. |
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bool print_as_decimal = |
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(flags & std::ios::basefield) == std::ios::dec || |
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(flags & std::ios::basefield) == std::ios_base::fmtflags(); |
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if (print_as_decimal) { |
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if (Int128High64(v) < 0) { |
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rep = "-"; |
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} else if (flags & std::ios::showpos) { |
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rep = "+"; |
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} |
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} |
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rep.append(Uint128ToFormattedString( |
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print_as_decimal ? UnsignedAbsoluteValue(v) : uint128(v), os.flags())); |
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// Add the requisite padding. |
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std::streamsize width = os.width(0); |
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if (static_cast<size_t>(width) > rep.size()) { |
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const size_t count = static_cast<size_t>(width) - rep.size(); |
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switch (flags & std::ios::adjustfield) { |
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case std::ios::left: |
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rep.append(count, os.fill()); |
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break; |
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case std::ios::internal: |
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if (print_as_decimal && (rep[0] == '+' || rep[0] == '-')) { |
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rep.insert(1, count, os.fill()); |
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} else if ((flags & std::ios::basefield) == std::ios::hex && |
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(flags & std::ios::showbase) && v != 0) { |
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rep.insert(2, count, os.fill()); |
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} else { |
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rep.insert(0, count, os.fill()); |
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} |
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break; |
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default: // std::ios::right |
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rep.insert(0, count, os.fill()); |
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break; |
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} |
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} |
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return os << rep; |
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} |
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ABSL_NAMESPACE_END |
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} // namespace absl |
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#ifdef ABSL_INTERNAL_NEED_REDUNDANT_CONSTEXPR_DECL |
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namespace std { |
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constexpr bool numeric_limits<absl::uint128>::is_specialized; |
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constexpr bool numeric_limits<absl::uint128>::is_signed; |
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constexpr bool numeric_limits<absl::uint128>::is_integer; |
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constexpr bool numeric_limits<absl::uint128>::is_exact; |
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constexpr bool numeric_limits<absl::uint128>::has_infinity; |
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constexpr bool numeric_limits<absl::uint128>::has_quiet_NaN; |
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constexpr bool numeric_limits<absl::uint128>::has_signaling_NaN; |
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constexpr float_denorm_style numeric_limits<absl::uint128>::has_denorm; |
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constexpr bool numeric_limits<absl::uint128>::has_denorm_loss; |
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constexpr float_round_style numeric_limits<absl::uint128>::round_style; |
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constexpr bool numeric_limits<absl::uint128>::is_iec559; |
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constexpr bool numeric_limits<absl::uint128>::is_bounded; |
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constexpr bool numeric_limits<absl::uint128>::is_modulo; |
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constexpr int numeric_limits<absl::uint128>::digits; |
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constexpr int numeric_limits<absl::uint128>::digits10; |
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constexpr int numeric_limits<absl::uint128>::max_digits10; |
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constexpr int numeric_limits<absl::uint128>::radix; |
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constexpr int numeric_limits<absl::uint128>::min_exponent; |
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constexpr int numeric_limits<absl::uint128>::min_exponent10; |
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constexpr int numeric_limits<absl::uint128>::max_exponent; |
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constexpr int numeric_limits<absl::uint128>::max_exponent10; |
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constexpr bool numeric_limits<absl::uint128>::traps; |
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constexpr bool numeric_limits<absl::uint128>::tinyness_before; |
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constexpr bool numeric_limits<absl::int128>::is_specialized; |
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constexpr bool numeric_limits<absl::int128>::is_signed; |
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constexpr bool numeric_limits<absl::int128>::is_integer; |
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constexpr bool numeric_limits<absl::int128>::is_exact; |
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constexpr bool numeric_limits<absl::int128>::has_infinity; |
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constexpr bool numeric_limits<absl::int128>::has_quiet_NaN; |
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constexpr bool numeric_limits<absl::int128>::has_signaling_NaN; |
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constexpr float_denorm_style numeric_limits<absl::int128>::has_denorm; |
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constexpr bool numeric_limits<absl::int128>::has_denorm_loss; |
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constexpr float_round_style numeric_limits<absl::int128>::round_style; |
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constexpr bool numeric_limits<absl::int128>::is_iec559; |
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constexpr bool numeric_limits<absl::int128>::is_bounded; |
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constexpr bool numeric_limits<absl::int128>::is_modulo; |
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constexpr int numeric_limits<absl::int128>::digits; |
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constexpr int numeric_limits<absl::int128>::digits10; |
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constexpr int numeric_limits<absl::int128>::max_digits10; |
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constexpr int numeric_limits<absl::int128>::radix; |
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constexpr int numeric_limits<absl::int128>::min_exponent; |
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constexpr int numeric_limits<absl::int128>::min_exponent10; |
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constexpr int numeric_limits<absl::int128>::max_exponent; |
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constexpr int numeric_limits<absl::int128>::max_exponent10; |
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constexpr bool numeric_limits<absl::int128>::traps; |
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constexpr bool numeric_limits<absl::int128>::tinyness_before; |
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} // namespace std |
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#endif
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