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- //////////////////////////////////////////////////////////////////////////////
- //
- // (C) Copyright Stephen Cleary 2000.
- // (C) Copyright Ion Gaztanaga 2007-2013.
- //
- // Distributed under the Boost Software License, Version 1.0.
- // (See accompanying file LICENSE_1_0.txt or copy at
- // http://www.boost.org/LICENSE_1_0.txt)
- //
- // See http://www.boost.org/libs/container for documentation.
- //
- // This file is a slightly modified file from Boost.Pool
- //
- //////////////////////////////////////////////////////////////////////////////
- #ifndef BOOST_CONTAINER_DETAIL_MATH_FUNCTIONS_HPP
- #define BOOST_CONTAINER_DETAIL_MATH_FUNCTIONS_HPP
- #ifndef BOOST_CONFIG_HPP
- # include <boost/config.hpp>
- #endif
- #if defined(BOOST_HAS_PRAGMA_ONCE)
- # pragma once
- #endif
- #include <boost/container/detail/config_begin.hpp>
- #include <boost/container/detail/workaround.hpp>
- #include <climits>
- #include <boost/static_assert.hpp>
- namespace boost {
- namespace container {
- namespace dtl {
- // Greatest common divisor and least common multiple
- //
- // gcd is an algorithm that calculates the greatest common divisor of two
- // integers, using Euclid's algorithm.
- //
- // Pre: A > 0 && B > 0
- // Recommended: A > B
- template <typename Integer>
- inline Integer gcd(Integer A, Integer B)
- {
- do
- {
- const Integer tmp(B);
- B = A % B;
- A = tmp;
- } while (B != 0);
- return A;
- }
- //
- // lcm is an algorithm that calculates the least common multiple of two
- // integers.
- //
- // Pre: A > 0 && B > 0
- // Recommended: A > B
- template <typename Integer>
- inline Integer lcm(const Integer & A, const Integer & B)
- {
- Integer ret = A;
- ret /= gcd(A, B);
- ret *= B;
- return ret;
- }
- template <typename Integer>
- inline Integer log2_ceil(const Integer & A)
- {
- Integer i = 0;
- Integer power_of_2 = 1;
- while(power_of_2 < A){
- power_of_2 <<= 1;
- ++i;
- }
- return i;
- }
- template <typename Integer>
- inline Integer upper_power_of_2(const Integer & A)
- {
- Integer power_of_2 = 1;
- while(power_of_2 < A){
- power_of_2 <<= 1;
- }
- return power_of_2;
- }
- template <typename Integer, bool Loop = true>
- struct upper_power_of_2_loop_ct
- {
- template <Integer I, Integer P>
- struct apply
- {
- static const Integer value =
- upper_power_of_2_loop_ct<Integer, (I > P*2)>::template apply<I, P*2>::value;
- };
- };
- template <typename Integer>
- struct upper_power_of_2_loop_ct<Integer, false>
- {
- template <Integer I, Integer P>
- struct apply
- {
- static const Integer value = P;
- };
- };
- template <typename Integer, Integer I>
- struct upper_power_of_2_ct
- {
- static const Integer value = upper_power_of_2_loop_ct<Integer, (I > 1)>::template apply<I, 2>::value;
- };
- //This function uses binary search to discover the
- //highest set bit of the integer
- inline std::size_t floor_log2 (std::size_t x)
- {
- const std::size_t Bits = sizeof(std::size_t)*CHAR_BIT;
- const bool Size_t_Bits_Power_2= !(Bits & (Bits-1));
- BOOST_STATIC_ASSERT(((Size_t_Bits_Power_2)== true));
- std::size_t n = x;
- std::size_t log2 = 0;
- for(std::size_t shift = Bits >> 1; shift; shift >>= 1){
- std::size_t tmp = n >> shift;
- if (tmp)
- log2 += shift, n = tmp;
- }
- return log2;
- }
- template<std::size_t I1, std::size_t I2>
- struct gcd_ct
- {
- static const std::size_t Max = I1 > I2 ? I1 : I2;
- static const std::size_t Min = I1 < I2 ? I1 : I2;
- static const std::size_t value = gcd_ct<Min, Max % Min>::value;
- };
- template<std::size_t I1>
- struct gcd_ct<I1, 0>
- {
- static const std::size_t value = I1;
- };
- template<std::size_t I1>
- struct gcd_ct<0, I1>
- {
- static const std::size_t value = I1;
- };
- template<std::size_t I1, std::size_t I2>
- struct lcm_ct
- {
- static const std::size_t value = I1 * I2 / gcd_ct<I1, I2>::value;
- };
- } // namespace dtl
- } // namespace container
- } // namespace boost
- #include <boost/container/detail/config_end.hpp>
- #endif
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