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[ceph.git] / ceph / src / boost / boost / accumulators / statistics / weighted_median.hpp
1 ///////////////////////////////////////////////////////////////////////////////
2 // weighted_median.hpp
3 //
4 // Copyright 2006 Eric Niebler, Olivier Gygi. Distributed under the Boost
5 // Software License, Version 1.0. (See accompanying file
6 // LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
7
8 #ifndef BOOST_ACCUMULATORS_STATISTICS_WEIGHTED_MEDIAN_HPP_EAN_28_10_2005
9 #define BOOST_ACCUMULATORS_STATISTICS_WEIGHTED_MEDIAN_HPP_EAN_28_10_2005
10
11 #include <boost/mpl/placeholders.hpp>
12 #include <boost/range/iterator_range.hpp>
13 #include <boost/accumulators/framework/accumulator_base.hpp>
14 #include <boost/accumulators/framework/extractor.hpp>
15 #include <boost/accumulators/numeric/functional.hpp>
16 #include <boost/accumulators/framework/parameters/sample.hpp>
17 #include <boost/accumulators/framework/depends_on.hpp>
18 #include <boost/accumulators/statistics_fwd.hpp>
19 #include <boost/accumulators/statistics/count.hpp>
20 #include <boost/accumulators/statistics/median.hpp>
21 #include <boost/accumulators/statistics/weighted_p_square_quantile.hpp>
22 #include <boost/accumulators/statistics/weighted_density.hpp>
23 #include <boost/accumulators/statistics/weighted_p_square_cumul_dist.hpp>
24
25 namespace boost { namespace accumulators
26 {
27
28 namespace impl
29 {
30 ///////////////////////////////////////////////////////////////////////////////
31 // weighted_median_impl
32 //
33 /**
34 @brief Median estimation for weighted samples based on the \f$P^2\f$ quantile estimator
35
36 The \f$P^2\f$ algorithm for weighted samples is invoked with a quantile probability of 0.5.
37 */
38 template<typename Sample>
39 struct weighted_median_impl
40 : accumulator_base
41 {
42 // for boost::result_of
43 typedef typename numeric::functional::fdiv<Sample, std::size_t>::result_type result_type;
44
45 weighted_median_impl(dont_care) {}
46
47 template<typename Args>
48 result_type result(Args const &args) const
49 {
50 return weighted_p_square_quantile_for_median(args);
51 }
52 };
53
54 ///////////////////////////////////////////////////////////////////////////////
55 // with_density_weighted_median_impl
56 //
57 /**
58 @brief Median estimation for weighted samples based on the density estimator
59
60 The algorithm determines the bin in which the \f$0.5*cnt\f$-th sample lies, \f$cnt\f$ being
61 the total number of samples. It returns the approximate horizontal position of this sample,
62 based on a linear interpolation inside the bin.
63 */
64 template<typename Sample>
65 struct with_density_weighted_median_impl
66 : accumulator_base
67 {
68 typedef typename numeric::functional::fdiv<Sample, std::size_t>::result_type float_type;
69 typedef std::vector<std::pair<float_type, float_type> > histogram_type;
70 typedef iterator_range<typename histogram_type::iterator> range_type;
71 // for boost::result_of
72 typedef float_type result_type;
73
74 template<typename Args>
75 with_density_weighted_median_impl(Args const &args)
76 : sum(numeric::fdiv(args[sample | Sample()], (std::size_t)1))
77 , is_dirty(true)
78 {
79 }
80
81 void operator ()(dont_care)
82 {
83 this->is_dirty = true;
84 }
85
86 template<typename Args>
87 result_type result(Args const &args) const
88 {
89 if (this->is_dirty)
90 {
91 this->is_dirty = false;
92
93 std::size_t cnt = count(args);
94 range_type histogram = weighted_density(args);
95 typename range_type::iterator it = histogram.begin();
96 while (this->sum < 0.5 * cnt)
97 {
98 this->sum += it->second * cnt;
99 ++it;
100 }
101 --it;
102 float_type over = numeric::fdiv(this->sum - 0.5 * cnt, it->second * cnt);
103 this->median = it->first * over + (it + 1)->first * ( 1. - over );
104 }
105
106 return this->median;
107 }
108
109 private:
110 mutable float_type sum;
111 mutable bool is_dirty;
112 mutable float_type median;
113 };
114
115 ///////////////////////////////////////////////////////////////////////////////
116 // with_p_square_cumulative_distribution_weighted_median_impl
117 //
118 /**
119 @brief Median estimation for weighted samples based on the \f$P^2\f$ cumulative distribution estimator
120
121 The algorithm determines the first (leftmost) bin with a height exceeding 0.5. It
122 returns the approximate horizontal position of where the cumulative distribution
123 equals 0.5, based on a linear interpolation inside the bin.
124 */
125 template<typename Sample, typename Weight>
126 struct with_p_square_cumulative_distribution_weighted_median_impl
127 : accumulator_base
128 {
129 typedef typename numeric::functional::multiplies<Sample, Weight>::result_type weighted_sample;
130 typedef typename numeric::functional::fdiv<weighted_sample, std::size_t>::result_type float_type;
131 typedef std::vector<std::pair<float_type, float_type> > histogram_type;
132 typedef iterator_range<typename histogram_type::iterator> range_type;
133 // for boost::result_of
134 typedef float_type result_type;
135
136 with_p_square_cumulative_distribution_weighted_median_impl(dont_care)
137 : is_dirty(true)
138 {
139 }
140
141 void operator ()(dont_care)
142 {
143 this->is_dirty = true;
144 }
145
146 template<typename Args>
147 result_type result(Args const &args) const
148 {
149 if (this->is_dirty)
150 {
151 this->is_dirty = false;
152
153 range_type histogram = weighted_p_square_cumulative_distribution(args);
154 typename range_type::iterator it = histogram.begin();
155 while (it->second < 0.5)
156 {
157 ++it;
158 }
159 float_type over = numeric::fdiv(it->second - 0.5, it->second - (it - 1)->second);
160 this->median = it->first * over + (it + 1)->first * ( 1. - over );
161 }
162
163 return this->median;
164 }
165 private:
166 mutable bool is_dirty;
167 mutable float_type median;
168 };
169
170 } // namespace impl
171
172 ///////////////////////////////////////////////////////////////////////////////
173 // tag::weighted_median
174 // tag::with_density_weighted_median
175 // tag::with_p_square_cumulative_distribution_weighted_median
176 //
177 namespace tag
178 {
179 struct weighted_median
180 : depends_on<weighted_p_square_quantile_for_median>
181 {
182 /// INTERNAL ONLY
183 ///
184 typedef accumulators::impl::weighted_median_impl<mpl::_1> impl;
185 };
186 struct with_density_weighted_median
187 : depends_on<count, weighted_density>
188 {
189 /// INTERNAL ONLY
190 ///
191 typedef accumulators::impl::with_density_weighted_median_impl<mpl::_1> impl;
192 };
193 struct with_p_square_cumulative_distribution_weighted_median
194 : depends_on<weighted_p_square_cumulative_distribution>
195 {
196 /// INTERNAL ONLY
197 ///
198 typedef accumulators::impl::with_p_square_cumulative_distribution_weighted_median_impl<mpl::_1, mpl::_2> impl;
199 };
200
201 }
202
203 ///////////////////////////////////////////////////////////////////////////////
204 // extract::weighted_median
205 //
206 namespace extract
207 {
208 extractor<tag::median> const weighted_median = {};
209
210 BOOST_ACCUMULATORS_IGNORE_GLOBAL(weighted_median)
211 }
212
213 using extract::weighted_median;
214 // weighted_median(with_p_square_quantile) -> weighted_median
215 template<>
216 struct as_feature<tag::weighted_median(with_p_square_quantile)>
217 {
218 typedef tag::weighted_median type;
219 };
220
221 // weighted_median(with_density) -> with_density_weighted_median
222 template<>
223 struct as_feature<tag::weighted_median(with_density)>
224 {
225 typedef tag::with_density_weighted_median type;
226 };
227
228 // weighted_median(with_p_square_cumulative_distribution) -> with_p_square_cumulative_distribution_weighted_median
229 template<>
230 struct as_feature<tag::weighted_median(with_p_square_cumulative_distribution)>
231 {
232 typedef tag::with_p_square_cumulative_distribution_weighted_median type;
233 };
234
235 }} // namespace boost::accumulators
236
237 #endif
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