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// 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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// http://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 <iostream> // NOLINT(readability/streams)
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#include <sstream>
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#include <string>
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namespace absl {
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const uint128 kuint128max = MakeUint128(std::numeric_limits<uint64_t>::max(),
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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 uint64_t. The argument may not be 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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#define STEP(T, n, pos, sh) \
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do { \
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if ((n) >= (static_cast<T>(1) << (sh))) { \
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(n) = (n) >> (sh); \
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(pos) |= (sh); \
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} \
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} while (0)
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static inline int Fls64(uint64_t n) {
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assert(n != 0);
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int pos = 0;
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STEP(uint64_t, n, pos, 0x20);
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uint32_t n32 = static_cast<uint32_t>(n);
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STEP(uint32_t, n32, pos, 0x10);
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STEP(uint32_t, n32, pos, 0x08);
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STEP(uint32_t, n32, pos, 0x04);
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return pos + ((uint64_t{0x3333333322221100} >> (n32 << 2)) & 0x3);
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}
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#undef STEP
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// Like Fls64() above, but returns the 0-based position of the last set bit
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// (i.e., most significant bit) in the given uint128. The argument may not be 0.
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static inline int Fls128(uint128 n) {
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if (uint64_t hi = Uint128High64(n)) {
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return Fls64(hi) + 64;
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}
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return Fls64(Uint128Low64(n));
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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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// http://stackoverflow.com/questions/5386377/division-without-using
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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 Initialize128FromFloat(T v) {
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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::isnan(v) && v > -1 && 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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} // namespace
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uint128::uint128(float v) : uint128(Initialize128FromFloat(v)) {}
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uint128::uint128(double v) : uint128(Initialize128FromFloat(v)) {}
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uint128::uint128(long double v) : uint128(Initialize128FromFloat(v)) {}
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uint128& uint128::operator/=(uint128 other) {
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uint128 quotient = 0;
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uint128 remainder = 0;
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DivModImpl(*this, other, "ient, &remainder);
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*this = quotient;
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return *this;
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}
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uint128& uint128::operator%=(uint128 other) {
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uint128 quotient = 0;
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uint128 remainder = 0;
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DivModImpl(*this, other, "ient, &remainder);
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*this = remainder;
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return *this;
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}
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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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std::ios::fmtflags adjustfield = flags & std::ios::adjustfield;
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if (adjustfield == std::ios::left) {
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rep.append(width - rep.size(), 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, width - rep.size(), os.fill());
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} else {
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rep.insert(0, width - rep.size(), 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 absl
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