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annotate DEPENDENCIES/generic/include/boost/math/distributions/find_scale.hpp @ 125:34e428693f5d vext

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Vext -> Repoint
author Chris Cannam
date Thu, 14 Jun 2018 11:15:39 +0100
parents 2665513ce2d3
children
rev   line source
Chris@16 1 // Copyright John Maddock 2007.
Chris@16 2 // Copyright Paul A. Bristow 2007.
Chris@16 3
Chris@16 4 // Use, modification and distribution are subject to the
Chris@16 5 // Boost Software License, Version 1.0. (See accompanying file
Chris@16 6 // LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
Chris@16 7
Chris@16 8 #ifndef BOOST_STATS_FIND_SCALE_HPP
Chris@16 9 #define BOOST_STATS_FIND_SCALE_HPP
Chris@16 10
Chris@16 11 #include <boost/math/distributions/fwd.hpp> // for all distribution signatures.
Chris@16 12 #include <boost/math/distributions/complement.hpp>
Chris@16 13 #include <boost/math/policies/policy.hpp>
Chris@16 14 // using boost::math::policies::policy;
Chris@16 15 #include <boost/math/tools/traits.hpp>
Chris@16 16 #include <boost/static_assert.hpp>
Chris@16 17 #include <boost/math/special_functions/fpclassify.hpp>
Chris@16 18 #include <boost/math/policies/error_handling.hpp>
Chris@16 19 // using boost::math::complement; // will be needed by users who want complement,
Chris@16 20 // but NOT placed here to avoid putting it in global scope.
Chris@16 21
Chris@16 22 namespace boost
Chris@16 23 {
Chris@16 24 namespace math
Chris@16 25 {
Chris@16 26 // Function to find location of random variable z
Chris@16 27 // to give probability p (given scale)
Chris@16 28 // Applies to normal, lognormal, extreme value, Cauchy, (and symmetrical triangular),
Chris@16 29 // distributions that have scale.
Chris@16 30 // BOOST_STATIC_ASSERTs, see below, are used to enforce this.
Chris@16 31
Chris@16 32 template <class Dist, class Policy>
Chris@16 33 inline
Chris@16 34 typename Dist::value_type find_scale( // For example, normal mean.
Chris@16 35 typename Dist::value_type z, // location of random variable z to give probability, P(X > z) == p.
Chris@16 36 // For example, a nominal minimum acceptable weight z, so that p * 100 % are > z
Chris@16 37 typename Dist::value_type p, // probability value desired at x, say 0.95 for 95% > z.
Chris@16 38 typename Dist::value_type location, // location parameter, for example, normal distribution mean.
Chris@16 39 const Policy& pol
Chris@16 40 )
Chris@16 41 {
Chris@16 42 #if !defined(BOOST_NO_SFINAE) && !BOOST_WORKAROUND(__SUNPRO_CC, BOOST_TESTED_AT(0x590))
Chris@16 43 BOOST_STATIC_ASSERT(::boost::math::tools::is_distribution<Dist>::value);
Chris@16 44 BOOST_STATIC_ASSERT(::boost::math::tools::is_scaled_distribution<Dist>::value);
Chris@16 45 #endif
Chris@16 46 static const char* function = "boost::math::find_scale<Dist, Policy>(%1%, %1%, %1%, Policy)";
Chris@16 47
Chris@16 48 if(!(boost::math::isfinite)(p) || (p < 0) || (p > 1))
Chris@16 49 {
Chris@16 50 return policies::raise_domain_error<typename Dist::value_type>(
Chris@16 51 function, "Probability parameter was %1%, but must be >= 0 and <= 1!", p, pol);
Chris@16 52 }
Chris@16 53 if(!(boost::math::isfinite)(z))
Chris@16 54 {
Chris@16 55 return policies::raise_domain_error<typename Dist::value_type>(
Chris@16 56 function, "find_scale z parameter was %1%, but must be finite!", z, pol);
Chris@16 57 }
Chris@16 58 if(!(boost::math::isfinite)(location))
Chris@16 59 {
Chris@16 60 return policies::raise_domain_error<typename Dist::value_type>(
Chris@16 61 function, "find_scale location parameter was %1%, but must be finite!", location, pol);
Chris@16 62 }
Chris@16 63
Chris@16 64 //cout << "z " << z << ", p " << p << ", quantile(Dist(), p) "
Chris@16 65 //<< quantile(Dist(), p) << ", z - mean " << z - location
Chris@16 66 //<<", sd " << (z - location) / quantile(Dist(), p) << endl;
Chris@16 67
Chris@16 68 //quantile(N01, 0.001) -3.09023
Chris@16 69 //quantile(N01, 0.01) -2.32635
Chris@16 70 //quantile(N01, 0.05) -1.64485
Chris@16 71 //quantile(N01, 0.333333) -0.430728
Chris@16 72 //quantile(N01, 0.5) 0
Chris@16 73 //quantile(N01, 0.666667) 0.430728
Chris@16 74 //quantile(N01, 0.9) 1.28155
Chris@16 75 //quantile(N01, 0.95) 1.64485
Chris@16 76 //quantile(N01, 0.99) 2.32635
Chris@16 77 //quantile(N01, 0.999) 3.09023
Chris@16 78
Chris@16 79 typename Dist::value_type result =
Chris@16 80 (z - location) // difference between desired x and current location.
Chris@16 81 / quantile(Dist(), p); // standard distribution.
Chris@16 82
Chris@16 83 if (result <= 0)
Chris@16 84 { // If policy isn't to throw, return the scale <= 0.
Chris@16 85 policies::raise_evaluation_error<typename Dist::value_type>(function,
Chris@16 86 "Computed scale (%1%) is <= 0!" " Was the complement intended?",
Chris@16 87 result, Policy());
Chris@16 88 }
Chris@16 89 return result;
Chris@16 90 } // template <class Dist, class Policy> find_scale
Chris@16 91
Chris@16 92 template <class Dist>
Chris@16 93 inline // with default policy.
Chris@16 94 typename Dist::value_type find_scale( // For example, normal mean.
Chris@16 95 typename Dist::value_type z, // location of random variable z to give probability, P(X > z) == p.
Chris@16 96 // For example, a nominal minimum acceptable z, so that p * 100 % are > z
Chris@16 97 typename Dist::value_type p, // probability value desired at x, say 0.95 for 95% > z.
Chris@16 98 typename Dist::value_type location) // location parameter, for example, mean.
Chris@16 99 { // Forward to find_scale using the default policy.
Chris@16 100 return (find_scale<Dist>(z, p, location, policies::policy<>()));
Chris@16 101 } // find_scale
Chris@16 102
Chris@16 103 template <class Dist, class Real1, class Real2, class Real3, class Policy>
Chris@16 104 inline typename Dist::value_type find_scale(
Chris@16 105 complemented4_type<Real1, Real2, Real3, Policy> const& c)
Chris@16 106 {
Chris@16 107 //cout << "cparam1 q " << c.param1 // q
Chris@16 108 // << ", c.dist z " << c.dist // z
Chris@16 109 // << ", c.param2 l " << c.param2 // l
Chris@16 110 // << ", quantile (Dist(), c.param1 = q) "
Chris@16 111 // << quantile(Dist(), c.param1) //q
Chris@16 112 // << endl;
Chris@16 113
Chris@16 114 #if !defined(BOOST_NO_SFINAE) && !BOOST_WORKAROUND(__SUNPRO_CC, BOOST_TESTED_AT(0x590))
Chris@16 115 BOOST_STATIC_ASSERT(::boost::math::tools::is_distribution<Dist>::value);
Chris@16 116 BOOST_STATIC_ASSERT(::boost::math::tools::is_scaled_distribution<Dist>::value);
Chris@16 117 #endif
Chris@16 118 static const char* function = "boost::math::find_scale<Dist, Policy>(complement(%1%, %1%, %1%, Policy))";
Chris@16 119
Chris@16 120 // Checks on arguments, as not complemented version,
Chris@16 121 // Explicit policy.
Chris@16 122 typename Dist::value_type q = c.param1;
Chris@16 123 if(!(boost::math::isfinite)(q) || (q < 0) || (q > 1))
Chris@16 124 {
Chris@16 125 return policies::raise_domain_error<typename Dist::value_type>(
Chris@16 126 function, "Probability parameter was %1%, but must be >= 0 and <= 1!", q, c.param3);
Chris@16 127 }
Chris@16 128 typename Dist::value_type z = c.dist;
Chris@16 129 if(!(boost::math::isfinite)(z))
Chris@16 130 {
Chris@16 131 return policies::raise_domain_error<typename Dist::value_type>(
Chris@16 132 function, "find_scale z parameter was %1%, but must be finite!", z, c.param3);
Chris@16 133 }
Chris@16 134 typename Dist::value_type location = c.param2;
Chris@16 135 if(!(boost::math::isfinite)(location))
Chris@16 136 {
Chris@16 137 return policies::raise_domain_error<typename Dist::value_type>(
Chris@16 138 function, "find_scale location parameter was %1%, but must be finite!", location, c.param3);
Chris@16 139 }
Chris@16 140
Chris@16 141 typename Dist::value_type result =
Chris@16 142 (c.dist - c.param2) // difference between desired x and current location.
Chris@16 143 / quantile(complement(Dist(), c.param1));
Chris@16 144 // ( z - location) / (quantile(complement(Dist(), q))
Chris@16 145 if (result <= 0)
Chris@16 146 { // If policy isn't to throw, return the scale <= 0.
Chris@16 147 policies::raise_evaluation_error<typename Dist::value_type>(function,
Chris@16 148 "Computed scale (%1%) is <= 0!" " Was the complement intended?",
Chris@16 149 result, Policy());
Chris@16 150 }
Chris@16 151 return result;
Chris@16 152 } // template <class Dist, class Policy, class Real1, class Real2, class Real3> typename Dist::value_type find_scale
Chris@16 153
Chris@16 154 // So the user can start from the complement q = (1 - p) of the probability p,
Chris@16 155 // for example, s = find_scale<normal>(complement(z, q, l));
Chris@16 156
Chris@16 157 template <class Dist, class Real1, class Real2, class Real3>
Chris@16 158 inline typename Dist::value_type find_scale(
Chris@16 159 complemented3_type<Real1, Real2, Real3> const& c)
Chris@16 160 {
Chris@16 161 //cout << "cparam1 q " << c.param1 // q
Chris@16 162 // << ", c.dist z " << c.dist // z
Chris@16 163 // << ", c.param2 l " << c.param2 // l
Chris@16 164 // << ", quantile (Dist(), c.param1 = q) "
Chris@16 165 // << quantile(Dist(), c.param1) //q
Chris@16 166 // << endl;
Chris@16 167
Chris@16 168 #if !defined(BOOST_NO_SFINAE) && !BOOST_WORKAROUND(__SUNPRO_CC, BOOST_TESTED_AT(0x590))
Chris@16 169 BOOST_STATIC_ASSERT(::boost::math::tools::is_distribution<Dist>::value);
Chris@16 170 BOOST_STATIC_ASSERT(::boost::math::tools::is_scaled_distribution<Dist>::value);
Chris@16 171 #endif
Chris@16 172 static const char* function = "boost::math::find_scale<Dist, Policy>(complement(%1%, %1%, %1%, Policy))";
Chris@16 173
Chris@16 174 // Checks on arguments, as not complemented version,
Chris@16 175 // default policy policies::policy<>().
Chris@16 176 typename Dist::value_type q = c.param1;
Chris@16 177 if(!(boost::math::isfinite)(q) || (q < 0) || (q > 1))
Chris@16 178 {
Chris@16 179 return policies::raise_domain_error<typename Dist::value_type>(
Chris@16 180 function, "Probability parameter was %1%, but must be >= 0 and <= 1!", q, policies::policy<>());
Chris@16 181 }
Chris@16 182 typename Dist::value_type z = c.dist;
Chris@16 183 if(!(boost::math::isfinite)(z))
Chris@16 184 {
Chris@16 185 return policies::raise_domain_error<typename Dist::value_type>(
Chris@16 186 function, "find_scale z parameter was %1%, but must be finite!", z, policies::policy<>());
Chris@16 187 }
Chris@16 188 typename Dist::value_type location = c.param2;
Chris@16 189 if(!(boost::math::isfinite)(location))
Chris@16 190 {
Chris@16 191 return policies::raise_domain_error<typename Dist::value_type>(
Chris@16 192 function, "find_scale location parameter was %1%, but must be finite!", location, policies::policy<>());
Chris@16 193 }
Chris@16 194
Chris@16 195 typename Dist::value_type result =
Chris@16 196 (z - location) // difference between desired x and current location.
Chris@16 197 / quantile(complement(Dist(), q));
Chris@16 198 // ( z - location) / (quantile(complement(Dist(), q))
Chris@16 199 if (result <= 0)
Chris@16 200 { // If policy isn't to throw, return the scale <= 0.
Chris@16 201 policies::raise_evaluation_error<typename Dist::value_type>(function,
Chris@16 202 "Computed scale (%1%) is <= 0!" " Was the complement intended?",
Chris@16 203 result, policies::policy<>()); // This is only the default policy - also Want a version with Policy here.
Chris@16 204 }
Chris@16 205 return result;
Chris@16 206 } // template <class Dist, class Real1, class Real2, class Real3> typename Dist::value_type find_scale
Chris@16 207
Chris@16 208 } // namespace boost
Chris@16 209 } // namespace math
Chris@16 210
Chris@16 211 #endif // BOOST_STATS_FIND_SCALE_HPP