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184 lines
5.5 KiB
C++
184 lines
5.5 KiB
C++
// Copyright John Maddock 2007.
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// Copyright Paul A. Bristow 2010
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// Use, modification and distribution are subject to the
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// Boost Software License, Version 1.0. (See accompanying file
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// LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
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// Note that this file contains quickbook mark-up as well as code
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// and comments, don't change any of the special comment mark-ups!
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//[policy_eg_10
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/*`
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To understand how the rounding policies for
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the discrete distributions can be used, we'll
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use the 50-sample binomial distribution with a
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success fraction of 0.5 once again, and calculate
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all the possible quantiles at 0.05 and 0.95.
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Begin by including the needed headers (and some using statements for conciseness):
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*/
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#include <iostream>
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using std::cout; using std::endl;
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using std::left; using std::fixed; using std::right; using std::scientific;
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#include <iomanip>
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using std::setw;
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using std::setprecision;
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#include <boost/math/distributions/binomial.hpp>
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/*`
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Next we'll bring the needed declarations into scope, and
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define distribution types for all the available rounding policies:
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*/
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// Avoid
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// using namespace std; // and
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// using namespace boost::math;
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// to avoid potential ambiguity of names, like binomial.
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// using namespace boost::math::policies; is small risk, but
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// the necessary items are brought into scope thus:
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using boost::math::binomial_distribution;
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using boost::math::policies::policy;
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using boost::math::policies::discrete_quantile;
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using boost::math::policies::integer_round_outwards;
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using boost::math::policies::integer_round_down;
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using boost::math::policies::integer_round_up;
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using boost::math::policies::integer_round_nearest;
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using boost::math::policies::integer_round_inwards;
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using boost::math::policies::real;
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using boost::math::binomial_distribution; // Not std::binomial_distribution.
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typedef binomial_distribution<
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double,
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policy<discrete_quantile<integer_round_outwards> > >
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binom_round_outwards;
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typedef binomial_distribution<
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double,
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policy<discrete_quantile<integer_round_inwards> > >
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binom_round_inwards;
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typedef binomial_distribution<
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double,
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policy<discrete_quantile<integer_round_down> > >
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binom_round_down;
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typedef binomial_distribution<
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double,
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policy<discrete_quantile<integer_round_up> > >
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binom_round_up;
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typedef binomial_distribution<
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double,
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policy<discrete_quantile<integer_round_nearest> > >
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binom_round_nearest;
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typedef binomial_distribution<
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double,
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policy<discrete_quantile<real> > >
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binom_real_quantile;
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/*`
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Now let's set to work calling those quantiles:
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*/
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int main()
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{
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cout <<
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"Testing rounding policies for a 50 sample binomial distribution,\n"
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"with a success fraction of 0.5.\n\n"
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"Lower quantiles are calculated at p = 0.05\n\n"
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"Upper quantiles at p = 0.95.\n\n";
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cout << setw(25) << right
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<< "Policy"<< setw(18) << right
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<< "Lower Quantile" << setw(18) << right
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<< "Upper Quantile" << endl;
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// Test integer_round_outwards:
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cout << setw(25) << right
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<< "integer_round_outwards"
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<< setw(18) << right
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<< quantile(binom_round_outwards(50, 0.5), 0.05)
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<< setw(18) << right
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<< quantile(binom_round_outwards(50, 0.5), 0.95)
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<< endl;
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// Test integer_round_inwards:
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cout << setw(25) << right
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<< "integer_round_inwards"
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<< setw(18) << right
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<< quantile(binom_round_inwards(50, 0.5), 0.05)
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<< setw(18) << right
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<< quantile(binom_round_inwards(50, 0.5), 0.95)
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<< endl;
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// Test integer_round_down:
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cout << setw(25) << right
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<< "integer_round_down"
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<< setw(18) << right
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<< quantile(binom_round_down(50, 0.5), 0.05)
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<< setw(18) << right
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<< quantile(binom_round_down(50, 0.5), 0.95)
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<< endl;
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// Test integer_round_up:
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cout << setw(25) << right
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<< "integer_round_up"
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<< setw(18) << right
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<< quantile(binom_round_up(50, 0.5), 0.05)
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<< setw(18) << right
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<< quantile(binom_round_up(50, 0.5), 0.95)
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<< endl;
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// Test integer_round_nearest:
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cout << setw(25) << right
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<< "integer_round_nearest"
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<< setw(18) << right
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<< quantile(binom_round_nearest(50, 0.5), 0.05)
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<< setw(18) << right
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<< quantile(binom_round_nearest(50, 0.5), 0.95)
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<< endl;
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// Test real:
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cout << setw(25) << right
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<< "real"
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<< setw(18) << right
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<< quantile(binom_real_quantile(50, 0.5), 0.05)
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<< setw(18) << right
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<< quantile(binom_real_quantile(50, 0.5), 0.95)
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<< endl;
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} // int main()
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/*`
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Which produces the program output:
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[pre
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policy_eg_10.vcxproj -> J:\Cpp\MathToolkit\test\Math_test\Release\policy_eg_10.exe
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Testing rounding policies for a 50 sample binomial distribution,
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with a success fraction of 0.5.
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Lower quantiles are calculated at p = 0.05
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Upper quantiles at p = 0.95.
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Policy Lower Quantile Upper Quantile
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integer_round_outwards 18 31
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integer_round_inwards 19 30
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integer_round_down 18 30
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integer_round_up 19 31
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integer_round_nearest 19 30
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real 18.701 30.299
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]
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*/
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//] //[policy_eg_10] ends quickbook import.
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