// Copyright 2014 the V8 project authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "src/base/division-by-constant.h" #include <stdint.h> #include "src/base/logging.h" #include "src/base/macros.h" namespace v8 { namespace base { template <class T> bool MagicNumbersForDivision<T>::operator==( const MagicNumbersForDivision& rhs) const { return multiplier == rhs.multiplier && shift == rhs.shift && add == rhs.add; } template <class T> MagicNumbersForDivision<T> SignedDivisionByConstant(T d) { STATIC_ASSERT(static_cast<T>(0) < static_cast<T>(-1)); DCHECK(d != static_cast<T>(-1) && d != 0 && d != 1); const unsigned bits = static_cast<unsigned>(sizeof(T)) * 8; const T min = (static_cast<T>(1) << (bits - 1)); const bool neg = (min & d) != 0; const T ad = neg ? (0 - d) : d; const T t = min + (d >> (bits - 1)); const T anc = t - 1 - t % ad; // Absolute value of nc unsigned p = bits - 1; // Init. p. T q1 = min / anc; // Init. q1 = 2**p/|nc|. T r1 = min - q1 * anc; // Init. r1 = rem(2**p, |nc|). T q2 = min / ad; // Init. q2 = 2**p/|d|. T r2 = min - q2 * ad; // Init. r2 = rem(2**p, |d|). T delta; do { p = p + 1; q1 = 2 * q1; // Update q1 = 2**p/|nc|. r1 = 2 * r1; // Update r1 = rem(2**p, |nc|). if (r1 >= anc) { // Must be an unsigned comparison here. q1 = q1 + 1; r1 = r1 - anc; } q2 = 2 * q2; // Update q2 = 2**p/|d|. r2 = 2 * r2; // Update r2 = rem(2**p, |d|). if (r2 >= ad) { // Must be an unsigned comparison here. q2 = q2 + 1; r2 = r2 - ad; } delta = ad - r2; } while (q1 < delta || (q1 == delta && r1 == 0)); T mul = q2 + 1; return {neg ? (0 - mul) : mul, p - bits, false}; } template <class T> MagicNumbersForDivision<T> UnsignedDivisionByConstant(T d, unsigned leading_zeros) { STATIC_ASSERT(static_cast<T>(0) < static_cast<T>(-1)); DCHECK(d != 0); const unsigned bits = static_cast<unsigned>(sizeof(T)) * 8; const T ones = ~static_cast<T>(0) >> leading_zeros; const T min = static_cast<T>(1) << (bits - 1); const T max = ~static_cast<T>(0) >> 1; const T nc = ones - (ones - d) % d; bool a = false; // Init. "add" indicator. unsigned p = bits - 1; // Init. p. T q1 = min / nc; // Init. q1 = 2**p/nc T r1 = min - q1 * nc; // Init. r1 = rem(2**p,nc) T q2 = max / d; // Init. q2 = (2**p - 1)/d. T r2 = max - q2 * d; // Init. r2 = rem(2**p - 1, d). T delta; do { p = p + 1; if (r1 >= nc - r1) { q1 = 2 * q1 + 1; r1 = 2 * r1 - nc; } else { q1 = 2 * q1; r1 = 2 * r1; } if (r2 + 1 >= d - r2) { if (q2 >= max) a = true; q2 = 2 * q2 + 1; r2 = 2 * r2 + 1 - d; } else { if (q2 >= min) a = true; q2 = 2 * q2; r2 = 2 * r2 + 1; } delta = d - 1 - r2; } while (p < bits * 2 && (q1 < delta || (q1 == delta && r1 == 0))); return {q2 + 1, p - bits, a}; } // ----------------------------------------------------------------------------- // Instantiations. template struct MagicNumbersForDivision<uint32_t>; template struct MagicNumbersForDivision<uint64_t>; template MagicNumbersForDivision<uint32_t> SignedDivisionByConstant(uint32_t d); template MagicNumbersForDivision<uint64_t> SignedDivisionByConstant(uint64_t d); template MagicNumbersForDivision<uint32_t> UnsignedDivisionByConstant( uint32_t d, unsigned leading_zeros); template MagicNumbersForDivision<uint64_t> UnsignedDivisionByConstant( uint64_t d, unsigned leading_zeros); } // namespace base } // namespace v8