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136 lines
4.9 KiB
C++
136 lines
4.9 KiB
C++
/*
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* Copyright (c) 2023, Dan Klishch <danilklishch@gmail.com>
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*
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* SPDX-License-Identifier: BSD-2-Clause
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*/
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#pragma once
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#include <AK/Diagnostics.h>
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#include <AK/UFixedBigInt.h>
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namespace AK {
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namespace Detail {
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template<size_t dividend_bit_size, size_t divisor_bit_size, bool restore_remainder>
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constexpr void div_mod_internal(
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StaticStorage<false, dividend_bit_size> const& operand1,
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StaticStorage<false, divisor_bit_size> const& operand2,
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StaticStorage<false, dividend_bit_size>& quotient,
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StaticStorage<false, divisor_bit_size>& remainder)
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{
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size_t dividend_len = operand1.size(), divisor_len = operand2.size();
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while (divisor_len > 0 && !operand2[divisor_len - 1])
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--divisor_len;
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while (dividend_len > 0 && !operand1[dividend_len - 1])
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--dividend_len;
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// FIXME: Should raise SIGFPE instead
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VERIFY(divisor_len); // VERIFY(divisor != 0)
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// Fast paths
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if (divisor_len == 1 && operand2[0] == 1) { // divisor == 1
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quotient = operand1;
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if constexpr (restore_remainder)
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StorageOperations::set(0, remainder);
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return;
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}
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if (dividend_len < divisor_len) { // dividend < divisor
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StorageOperations::set(0, quotient);
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if constexpr (restore_remainder)
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StorageOperations::copy(operand1, remainder);
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return;
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}
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if (divisor_len == 1 && dividend_len == 1) { // NativeWord / NativeWord
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StorageOperations::set(operand1[0] / operand2[0], quotient);
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if constexpr (restore_remainder)
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StorageOperations::set(operand1[0] % operand2[0], remainder);
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return;
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}
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if (divisor_len == 1) { // BigInt by NativeWord
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auto u = (static_cast<DoubleWord>(operand1[dividend_len - 1]) << word_size) + operand1[dividend_len - 2];
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auto divisor = operand2[0];
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auto top = u / divisor;
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quotient[dividend_len - 1] = static_cast<NativeWord>(top >> word_size);
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quotient[dividend_len - 2] = static_cast<NativeWord>(top);
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auto carry = static_cast<NativeWord>(u % divisor);
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for (size_t i = dividend_len - 2; i--;)
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quotient[i] = div_mod_words(operand1[i], carry, divisor, carry);
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for (size_t i = dividend_len; i < quotient.size(); ++i)
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quotient[i] = 0;
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if constexpr (restore_remainder)
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StorageOperations::set(carry, remainder);
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return;
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}
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// Knuth's algorithm D
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StaticStorage<false, dividend_bit_size + word_size> dividend;
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StorageOperations::copy(operand1, dividend);
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auto divisor = operand2;
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// D1. Normalize
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// FIXME: Investigate GCC producing bogus -Warray-bounds when dividing u128 by u32. This code
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// should not be reachable at all in this case because fast paths above cover all cases
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// when `operand2.size() == 1`.
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AK_IGNORE_DIAGNOSTIC("-Warray-bounds", size_t shift = count_leading_zeroes(divisor[divisor_len - 1]);)
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StorageOperations::shift_left(dividend, shift, dividend);
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StorageOperations::shift_left(divisor, shift, divisor);
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auto divisor_approx = divisor[divisor_len - 1];
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for (size_t i = dividend_len + 1; i-- > divisor_len;) {
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// D3. Calculate qhat
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NativeWord qhat;
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VERIFY(dividend[i] <= divisor_approx);
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if (dividend[i] == divisor_approx) {
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qhat = max_word;
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} else {
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NativeWord rhat;
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qhat = div_mod_words(dividend[i - 1], dividend[i], divisor_approx, rhat);
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auto is_qhat_too_large = [&] {
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return UFixedBigInt<word_size> { qhat }.wide_multiply(divisor[divisor_len - 2]) > u128 { dividend[i - 2], rhat };
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};
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if (is_qhat_too_large()) {
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--qhat;
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bool carry = false;
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rhat = add_words(rhat, divisor_approx, carry);
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if (!carry && is_qhat_too_large())
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--qhat;
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}
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}
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// D4. Multiply & subtract
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NativeWord mul_carry = 0;
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bool sub_carry = false;
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for (size_t j = 0; j < divisor_len; ++j) {
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auto mul_result = UFixedBigInt<word_size> { qhat }.wide_multiply(divisor[j]) + mul_carry;
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auto& output = dividend[i + j - divisor_len];
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output = sub_words(output, mul_result.low(), sub_carry);
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mul_carry = mul_result.high();
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}
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dividend[i] = sub_words(dividend[i], mul_carry, sub_carry);
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if (sub_carry) {
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// D6. Add back
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auto dividend_part = UnsignedStorageSpan { dividend.data() + i - divisor_len, divisor_len + 1 };
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VERIFY(StorageOperations::add<false>(dividend_part, divisor, dividend_part));
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}
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quotient[i - divisor_len] = qhat - sub_carry;
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}
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for (size_t i = dividend_len - divisor_len + 1; i < quotient.size(); ++i)
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quotient[i] = 0;
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// D8. Unnormalize
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if constexpr (restore_remainder)
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StorageOperations::shift_right(UnsignedStorageSpan { dividend.data(), remainder.size() }, shift, remainder);
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}
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}
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}
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