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annotate DEPENDENCIES/generic/include/boost/accumulators/statistics/covariance.hpp @ 133:4acb5d8d80b6 tip

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author Chris Cannam
date Tue, 30 Jul 2019 12:25:44 +0100
parents 2665513ce2d3
children
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Chris@16 1 ///////////////////////////////////////////////////////////////////////////////
Chris@16 2 // covariance.hpp
Chris@16 3 //
Chris@16 4 // Copyright 2006 Daniel Egloff, Olivier Gygi. Distributed under the Boost
Chris@16 5 // 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_ACCUMULATORS_STATISTICS_COVARIANCE_HPP_DE_01_01_2006
Chris@16 9 #define BOOST_ACCUMULATORS_STATISTICS_COVARIANCE_HPP_DE_01_01_2006
Chris@16 10
Chris@16 11 #include <vector>
Chris@16 12 #include <limits>
Chris@16 13 #include <numeric>
Chris@16 14 #include <functional>
Chris@16 15 #include <complex>
Chris@16 16 #include <boost/mpl/assert.hpp>
Chris@16 17 #include <boost/mpl/bool.hpp>
Chris@16 18 #include <boost/range.hpp>
Chris@16 19 #include <boost/parameter/keyword.hpp>
Chris@16 20 #include <boost/mpl/placeholders.hpp>
Chris@16 21 #include <boost/numeric/ublas/io.hpp>
Chris@16 22 #include <boost/numeric/ublas/matrix.hpp>
Chris@16 23 #include <boost/type_traits/is_scalar.hpp>
Chris@16 24 #include <boost/type_traits/is_same.hpp>
Chris@16 25 #include <boost/accumulators/framework/accumulator_base.hpp>
Chris@16 26 #include <boost/accumulators/framework/extractor.hpp>
Chris@16 27 #include <boost/accumulators/numeric/functional.hpp>
Chris@16 28 #include <boost/accumulators/framework/parameters/sample.hpp>
Chris@16 29 #include <boost/accumulators/statistics_fwd.hpp>
Chris@16 30 #include <boost/accumulators/statistics/count.hpp>
Chris@16 31 #include <boost/accumulators/statistics/mean.hpp>
Chris@16 32
Chris@16 33 namespace boost { namespace numeric
Chris@16 34 {
Chris@16 35 namespace functional
Chris@16 36 {
Chris@16 37 struct std_vector_tag;
Chris@16 38
Chris@16 39 ///////////////////////////////////////////////////////////////////////////////
Chris@16 40 // functional::outer_product
Chris@16 41 template<typename Left, typename Right, typename EnableIf = void>
Chris@16 42 struct outer_product_base
Chris@16 43 : functional::multiplies<Left, Right>
Chris@16 44 {};
Chris@16 45
Chris@16 46 template<typename Left, typename Right, typename LeftTag = typename tag<Left>::type, typename RightTag = typename tag<Right>::type>
Chris@16 47 struct outer_product
Chris@16 48 : outer_product_base<Left, Right, void>
Chris@16 49 {};
Chris@16 50
Chris@16 51 template<typename Left, typename Right>
Chris@16 52 struct outer_product<Left, Right, std_vector_tag, std_vector_tag>
Chris@16 53 : std::binary_function<
Chris@16 54 Left
Chris@16 55 , Right
Chris@16 56 , ublas::matrix<
Chris@16 57 typename functional::multiplies<
Chris@16 58 typename Left::value_type
Chris@16 59 , typename Right::value_type
Chris@16 60 >::result_type
Chris@16 61 >
Chris@16 62 >
Chris@16 63 {
Chris@16 64 typedef
Chris@16 65 ublas::matrix<
Chris@16 66 typename functional::multiplies<
Chris@16 67 typename Left::value_type
Chris@16 68 , typename Right::value_type
Chris@16 69 >::result_type
Chris@16 70 >
Chris@16 71 result_type;
Chris@16 72
Chris@16 73 result_type
Chris@16 74 operator ()(Left & left, Right & right) const
Chris@16 75 {
Chris@16 76 std::size_t left_size = left.size();
Chris@16 77 std::size_t right_size = right.size();
Chris@16 78 result_type result(left_size, right_size);
Chris@16 79 for (std::size_t i = 0; i < left_size; ++i)
Chris@16 80 for (std::size_t j = 0; j < right_size; ++j)
Chris@16 81 result(i,j) = numeric::multiplies(left[i], right[j]);
Chris@16 82 return result;
Chris@16 83 }
Chris@16 84 };
Chris@16 85 }
Chris@16 86
Chris@16 87 namespace op
Chris@16 88 {
Chris@16 89 struct outer_product
Chris@16 90 : boost::detail::function2<functional::outer_product<_1, _2, functional::tag<_1>, functional::tag<_2> > >
Chris@16 91 {};
Chris@16 92 }
Chris@16 93
Chris@16 94 namespace
Chris@16 95 {
Chris@16 96 op::outer_product const &outer_product = boost::detail::pod_singleton<op::outer_product>::instance;
Chris@16 97 }
Chris@16 98
Chris@16 99 }}
Chris@16 100
Chris@16 101 namespace boost { namespace accumulators
Chris@16 102 {
Chris@16 103
Chris@16 104 namespace impl
Chris@16 105 {
Chris@16 106 ///////////////////////////////////////////////////////////////////////////////
Chris@16 107 // covariance_impl
Chris@16 108 //
Chris@16 109 /**
Chris@16 110 @brief Covariance Estimator
Chris@16 111
Chris@16 112 An iterative Monte Carlo estimator for the covariance \f$\mathrm{Cov}(X,X')\f$, where \f$X\f$ is a sample
Chris@16 113 and \f$X'\f$ is a variate, is given by:
Chris@16 114
Chris@16 115 \f[
Chris@16 116 \hat{c}_n = \frac{n-1}{n} \hat{c}_{n-1} + \frac{1}{n-1}(X_n - \hat{\mu}_n)(X_n' - \hat{\mu}_n'),\quad n\ge2,\quad\hat{c}_1 = 0,
Chris@16 117 \f]
Chris@16 118
Chris@16 119 \f$\hat{\mu}_n\f$ and \f$\hat{\mu}_n'\f$ being the means of the samples and variates.
Chris@16 120 */
Chris@16 121 template<typename Sample, typename VariateType, typename VariateTag>
Chris@16 122 struct covariance_impl
Chris@16 123 : accumulator_base
Chris@16 124 {
Chris@16 125 typedef typename numeric::functional::fdiv<Sample, std::size_t>::result_type sample_type;
Chris@16 126 typedef typename numeric::functional::fdiv<VariateType, std::size_t>::result_type variate_type;
Chris@16 127 // for boost::result_of
Chris@16 128 typedef typename numeric::functional::outer_product<sample_type, variate_type>::result_type result_type;
Chris@16 129
Chris@16 130 template<typename Args>
Chris@16 131 covariance_impl(Args const &args)
Chris@16 132 : cov_(
Chris@16 133 numeric::outer_product(
Chris@16 134 numeric::fdiv(args[sample | Sample()], (std::size_t)1)
Chris@16 135 , numeric::fdiv(args[parameter::keyword<VariateTag>::get() | VariateType()], (std::size_t)1)
Chris@16 136 )
Chris@16 137 )
Chris@16 138 {
Chris@16 139 }
Chris@16 140
Chris@16 141 template<typename Args>
Chris@16 142 void operator ()(Args const &args)
Chris@16 143 {
Chris@16 144 std::size_t cnt = count(args);
Chris@16 145
Chris@16 146 if (cnt > 1)
Chris@16 147 {
Chris@16 148 extractor<tag::mean_of_variates<VariateType, VariateTag> > const some_mean_of_variates = {};
Chris@16 149
Chris@16 150 this->cov_ = this->cov_*(cnt-1.)/cnt
Chris@16 151 + numeric::outer_product(
Chris@16 152 some_mean_of_variates(args) - args[parameter::keyword<VariateTag>::get()]
Chris@16 153 , mean(args) - args[sample]
Chris@16 154 ) / (cnt-1.);
Chris@16 155 }
Chris@16 156 }
Chris@16 157
Chris@16 158 result_type result(dont_care) const
Chris@16 159 {
Chris@16 160 return this->cov_;
Chris@16 161 }
Chris@16 162
Chris@16 163 private:
Chris@16 164 result_type cov_;
Chris@16 165 };
Chris@16 166
Chris@16 167 } // namespace impl
Chris@16 168
Chris@16 169 ///////////////////////////////////////////////////////////////////////////////
Chris@16 170 // tag::covariance
Chris@16 171 //
Chris@16 172 namespace tag
Chris@16 173 {
Chris@16 174 template<typename VariateType, typename VariateTag>
Chris@16 175 struct covariance
Chris@16 176 : depends_on<count, mean, mean_of_variates<VariateType, VariateTag> >
Chris@16 177 {
Chris@16 178 typedef accumulators::impl::covariance_impl<mpl::_1, VariateType, VariateTag> impl;
Chris@16 179 };
Chris@16 180
Chris@16 181 struct abstract_covariance
Chris@16 182 : depends_on<>
Chris@16 183 {
Chris@16 184 };
Chris@16 185 }
Chris@16 186
Chris@16 187 ///////////////////////////////////////////////////////////////////////////////
Chris@16 188 // extract::covariance
Chris@16 189 //
Chris@16 190 namespace extract
Chris@16 191 {
Chris@16 192 extractor<tag::abstract_covariance> const covariance = {};
Chris@16 193
Chris@16 194 BOOST_ACCUMULATORS_IGNORE_GLOBAL(covariance)
Chris@16 195 }
Chris@16 196
Chris@16 197 using extract::covariance;
Chris@16 198
Chris@16 199 template<typename VariateType, typename VariateTag>
Chris@16 200 struct feature_of<tag::covariance<VariateType, VariateTag> >
Chris@16 201 : feature_of<tag::abstract_covariance>
Chris@16 202 {
Chris@16 203 };
Chris@16 204
Chris@16 205 // So that covariance can be automatically substituted with
Chris@16 206 // weighted_covariance when the weight parameter is non-void.
Chris@16 207 template<typename VariateType, typename VariateTag>
Chris@16 208 struct as_weighted_feature<tag::covariance<VariateType, VariateTag> >
Chris@16 209 {
Chris@16 210 typedef tag::weighted_covariance<VariateType, VariateTag> type;
Chris@16 211 };
Chris@16 212
Chris@16 213 template<typename VariateType, typename VariateTag>
Chris@16 214 struct feature_of<tag::weighted_covariance<VariateType, VariateTag> >
Chris@16 215 : feature_of<tag::covariance<VariateType, VariateTag> >
Chris@16 216 {};
Chris@16 217
Chris@16 218 }} // namespace boost::accumulators
Chris@16 219
Chris@16 220 #endif