Mercurial > hg > vamp-build-and-test

annotate DEPENDENCIES/generic/include/boost/random/detail/const_mod.hpp @ 133:4acb5d8d80b6 tip

Find changesets by keywords (author, files, the commit message), revision number or hash, or revset expression.
Don't fail environmental check if README.md exists (but .txt and no-suffix don't)
author Chris Cannam
date Tue, 30 Jul 2019 12:25:44 +0100
parents c530137014c0
children
rev   line source
Chris@16 1 /* boost random/detail/const_mod.hpp header file
Chris@16 2 *
Chris@16 3 * Copyright Jens Maurer 2000-2001
Chris@16 4 * Distributed under the Boost Software License, Version 1.0. (See
Chris@16 5 * accompanying file LICENSE_1_0.txt or copy at
Chris@16 6 * http://www.boost.org/LICENSE_1_0.txt)
Chris@16 7 *
Chris@16 8 * See http://www.boost.org for most recent version including documentation.
Chris@16 9 *
Chris@101 10 * $Id$
Chris@16 11 *
Chris@16 12 * Revision history
Chris@16 13 * 2001-02-18 moved to individual header files
Chris@16 14 */
Chris@16 15
Chris@16 16 #ifndef BOOST_RANDOM_CONST_MOD_HPP
Chris@16 17 #define BOOST_RANDOM_CONST_MOD_HPP
Chris@16 18
Chris@16 19 #include <boost/assert.hpp>
Chris@16 20 #include <boost/static_assert.hpp>
Chris@16 21 #include <boost/integer_traits.hpp>
Chris@16 22 #include <boost/type_traits/make_unsigned.hpp>
Chris@16 23 #include <boost/random/detail/large_arithmetic.hpp>
Chris@16 24
Chris@16 25 #include <boost/random/detail/disable_warnings.hpp>
Chris@16 26
Chris@16 27 namespace boost {
Chris@16 28 namespace random {
Chris@16 29
Chris@16 30 template<class IntType, IntType m>
Chris@16 31 class const_mod
Chris@16 32 {
Chris@16 33 public:
Chris@16 34 static IntType apply(IntType x)
Chris@16 35 {
Chris@16 36 if(((unsigned_m() - 1) & unsigned_m()) == 0)
Chris@16 37 return (unsigned_type(x)) & (unsigned_m() - 1);
Chris@16 38 else {
Chris@101 39 IntType suppress_warnings = (m == 0);
Chris@101 40 BOOST_ASSERT(suppress_warnings == 0);
Chris@101 41 return x % (m + suppress_warnings);
Chris@16 42 }
Chris@16 43 }
Chris@16 44
Chris@16 45 static IntType add(IntType x, IntType c)
Chris@16 46 {
Chris@16 47 if(((unsigned_m() - 1) & unsigned_m()) == 0)
Chris@16 48 return (unsigned_type(x) + unsigned_type(c)) & (unsigned_m() - 1);
Chris@16 49 else if(c == 0)
Chris@16 50 return x;
Chris@16 51 else if(x < m - c)
Chris@16 52 return x + c;
Chris@16 53 else
Chris@16 54 return x - (m - c);
Chris@16 55 }
Chris@16 56
Chris@16 57 static IntType mult(IntType a, IntType x)
Chris@16 58 {
Chris@16 59 if(((unsigned_m() - 1) & unsigned_m()) == 0)
Chris@16 60 return unsigned_type(a) * unsigned_type(x) & (unsigned_m() - 1);
Chris@16 61 else if(a == 0)
Chris@16 62 return 0;
Chris@16 63 else if(a == 1)
Chris@16 64 return x;
Chris@16 65 else if(m <= traits::const_max/a) // i.e. a*m <= max
Chris@16 66 return mult_small(a, x);
Chris@16 67 else if(traits::is_signed && (m%a < m/a))
Chris@16 68 return mult_schrage(a, x);
Chris@16 69 else
Chris@16 70 return mult_general(a, x);
Chris@16 71 }
Chris@16 72
Chris@16 73 static IntType mult_add(IntType a, IntType x, IntType c)
Chris@16 74 {
Chris@16 75 if(((unsigned_m() - 1) & unsigned_m()) == 0)
Chris@16 76 return (unsigned_type(a) * unsigned_type(x) + unsigned_type(c)) & (unsigned_m() - 1);
Chris@16 77 else if(a == 0)
Chris@16 78 return c;
Chris@16 79 else if(m <= (traits::const_max-c)/a) { // i.e. a*m+c <= max
Chris@101 80 IntType suppress_warnings = (m == 0);
Chris@101 81 BOOST_ASSERT(suppress_warnings == 0);
Chris@101 82 return (a*x+c) % (m + suppress_warnings);
Chris@16 83 } else
Chris@16 84 return add(mult(a, x), c);
Chris@16 85 }
Chris@16 86
Chris@16 87 static IntType pow(IntType a, boost::uintmax_t exponent)
Chris@16 88 {
Chris@16 89 IntType result = 1;
Chris@16 90 while(exponent != 0) {
Chris@16 91 if(exponent % 2 == 1) {
Chris@16 92 result = mult(result, a);
Chris@16 93 }
Chris@16 94 a = mult(a, a);
Chris@16 95 exponent /= 2;
Chris@16 96 }
Chris@16 97 return result;
Chris@16 98 }
Chris@16 99
Chris@16 100 static IntType invert(IntType x)
Chris@16 101 { return x == 0 ? 0 : (m == 0? invert_euclidian0(x) : invert_euclidian(x)); }
Chris@16 102
Chris@16 103 private:
Chris@16 104 typedef integer_traits<IntType> traits;
Chris@16 105 typedef typename make_unsigned<IntType>::type unsigned_type;
Chris@16 106
Chris@16 107 const_mod(); // don't instantiate
Chris@16 108
Chris@16 109 static IntType mult_small(IntType a, IntType x)
Chris@16 110 {
Chris@101 111 IntType suppress_warnings = (m == 0);
Chris@101 112 BOOST_ASSERT(suppress_warnings == 0);
Chris@101 113 return a*x % (m + suppress_warnings);
Chris@16 114 }
Chris@16 115
Chris@16 116 static IntType mult_schrage(IntType a, IntType value)
Chris@16 117 {
Chris@16 118 const IntType q = m / a;
Chris@16 119 const IntType r = m % a;
Chris@16 120
Chris@16 121 BOOST_ASSERT(r < q); // check that overflow cannot happen
Chris@16 122
Chris@16 123 return sub(a*(value%q), r*(value/q));
Chris@16 124 }
Chris@16 125
Chris@16 126 static IntType mult_general(IntType a, IntType b)
Chris@16 127 {
Chris@16 128 IntType suppress_warnings = (m == 0);
Chris@16 129 BOOST_ASSERT(suppress_warnings == 0);
Chris@16 130 IntType modulus = m + suppress_warnings;
Chris@16 131 BOOST_ASSERT(modulus == m);
Chris@16 132 if(::boost::uintmax_t(modulus) <=
Chris@16 133 (::std::numeric_limits< ::boost::uintmax_t>::max)() / modulus)
Chris@16 134 {
Chris@16 135 return static_cast<IntType>(boost::uintmax_t(a) * b % modulus);
Chris@16 136 } else {
Chris@16 137 return static_cast<IntType>(detail::mulmod(a, b, modulus));
Chris@16 138 }
Chris@16 139 }
Chris@16 140
Chris@16 141 static IntType sub(IntType a, IntType b)
Chris@16 142 {
Chris@16 143 if(a < b)
Chris@16 144 return m - (b - a);
Chris@16 145 else
Chris@16 146 return a - b;
Chris@16 147 }
Chris@16 148
Chris@16 149 static unsigned_type unsigned_m()
Chris@16 150 {
Chris@16 151 if(m == 0) {
Chris@16 152 return unsigned_type((std::numeric_limits<IntType>::max)()) + 1;
Chris@16 153 } else {
Chris@16 154 return unsigned_type(m);
Chris@16 155 }
Chris@16 156 }
Chris@16 157
Chris@16 158 // invert c in the finite field (mod m) (m must be prime)
Chris@16 159 static IntType invert_euclidian(IntType c)
Chris@16 160 {
Chris@16 161 // we are interested in the gcd factor for c, because this is our inverse
Chris@16 162 BOOST_ASSERT(c > 0);
Chris@16 163 IntType l1 = 0;
Chris@16 164 IntType l2 = 1;
Chris@16 165 IntType n = c;
Chris@16 166 IntType p = m;
Chris@16 167 for(;;) {
Chris@16 168 IntType q = p / n;
Chris@16 169 l1 += q * l2;
Chris@16 170 p -= q * n;
Chris@16 171 if(p == 0)
Chris@16 172 return l2;
Chris@16 173 IntType q2 = n / p;
Chris@16 174 l2 += q2 * l1;
Chris@16 175 n -= q2 * p;
Chris@16 176 if(n == 0)
Chris@16 177 return m - l1;
Chris@16 178 }
Chris@16 179 }
Chris@16 180
Chris@16 181 // invert c in the finite field (mod m) (c must be relatively prime to m)
Chris@16 182 static IntType invert_euclidian0(IntType c)
Chris@16 183 {
Chris@16 184 // we are interested in the gcd factor for c, because this is our inverse
Chris@16 185 BOOST_ASSERT(c > 0);
Chris@16 186 if(c == 1) return 1;
Chris@16 187 IntType l1 = 0;
Chris@16 188 IntType l2 = 1;
Chris@16 189 IntType n = c;
Chris@16 190 IntType p = m;
Chris@16 191 IntType max = (std::numeric_limits<IntType>::max)();
Chris@16 192 IntType q = max / n;
Chris@16 193 BOOST_ASSERT(max % n != n - 1 && "c must be relatively prime to m.");
Chris@16 194 l1 += q * l2;
Chris@16 195 p = max - q * n + 1;
Chris@16 196 for(;;) {
Chris@16 197 if(p == 0)
Chris@16 198 return l2;
Chris@16 199 IntType q2 = n / p;
Chris@16 200 l2 += q2 * l1;
Chris@16 201 n -= q2 * p;
Chris@16 202 if(n == 0)
Chris@16 203 return m - l1;
Chris@16 204 q = p / n;
Chris@16 205 l1 += q * l2;
Chris@16 206 p -= q * n;
Chris@16 207 }
Chris@16 208 }
Chris@16 209 };
Chris@16 210
Chris@16 211 } // namespace random
Chris@16 212 } // namespace boost
Chris@16 213
Chris@16 214 #include <boost/random/detail/enable_warnings.hpp>
Chris@16 215
Chris@16 216 #endif // BOOST_RANDOM_CONST_MOD_HPP