WSJT-X/boost/libs/math/reporting/performance/table_helper.hpp

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// Copyright John Maddock 2015.
// Use, modification and distribution are subject to the
// Boost Software License, Version 1.0. (See accompanying file
// LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
#ifndef TABLE_HELPER_HPP
#define TABLE_HELPER_HPP
#include <vector>
#include <string>
#include <boost/version.hpp>
#include <boost/lexical_cast.hpp>
//
// Also include headers for whatever else we may be testing:
//
#ifdef TEST_LIBSTDCXX
#include <tr1/cmath>
#include <stdexcept>
#endif
#ifdef TEST_GSL
#include <gsl/gsl_sf.h>
#include <gsl/gsl_errno.h>
#include <gsl/gsl_version.h>
void gsl_handler(const char * reason, const char * file, int line, int gsl_errno)
{
if(gsl_errno == GSL_ERANGE) return; // handle zero or infinity in our test code.
#ifdef DISTRIBUTIONS_TEST
return;
#else
throw std::domain_error(reason);
#endif
}
struct gsl_error_handler_setter
{
gsl_error_handler_t * old_handler;
gsl_error_handler_setter()
{
old_handler = gsl_set_error_handler(gsl_handler);
}
~gsl_error_handler_setter()
{
gsl_set_error_handler(old_handler);
}
};
static const gsl_error_handler_setter handler;
#endif
#ifdef TEST_RMATH
// Rmath overloads ftrunc, leading to strange errors from GCC unless we include this:
#include <boost/math/special_functions.hpp>
#define MATHLIB_STANDALONE
#include <Rmath.h>
#endif
#ifdef TEST_DCDFLIB
extern "C" {
extern void cdfbet(int*, double*, double*, double*, double*, double*, double*, int*, double*);
extern void cdfbin(int*, double*, double*, double*, double*, double*, double*, int*, double*);
extern void cdfchi(int*, double*, double*, double*, double*, int*, double*);
extern void cdfchn(int*, double*, double*, double*, double*, double*, int*, double*);
extern void cdff(int*, double*, double*, double*, double*, double*, int*, double*);
extern void cdffnc(int*, double*, double*, double*, double*, double*, double*, int*s, double*);
extern void cdfgam(int*, double*, double*, double*, double*, double*, int*, double*);
extern void cdfnbn(int*, double*, double*, double*, double*, double*, double*, int*, double*);
extern void cdfnor(int*, double*, double*, double*, double*, double*, int*, double*);
extern void cdfpoi(int*, double*, double*, double*, double*, int*, double*);
extern void cdft(int*, double*, double*, double*, double*, int*, double*);
extern void cdftnc(int*, double*, double*, double*, double*, double*, int*, double*);
}
inline double dcdflib_beta_cdf(double x, double a, double b)
{
int what = 1;
int status = 0;
double p, q, bound, y(1-x);
cdfbet(&what, &p, &q, &x, &y, &a, &b, &status, &bound);
return p;
}
inline double dcdflib_beta_quantile(double p, double a, double b)
{
int what = 2;
int status = 0;
double x, y, bound, q(1 - p);
cdfbet(&what, &p, &q, &x, &y, &a, &b, &status, &bound);
return x;
}
inline double dcdflib_binomial_cdf(double x, double s, double sf)
{
int what = 1;
int status = 0;
double p, q, bound, sfc(1-sf);
cdfbin(&what, &p, &q, &x, &s, &sf, &sfc, &status, &bound);
return p;
}
inline double dcdflib_binomial_quantile(double p, double s, double sf)
{
int what = 2;
int status = 0;
double x, bound, q(1 - p), sfc(1-sf);
cdfbin(&what, &p, &q, &x, &s, &sf, &sfc, &status, &bound);
return x;
}
inline double dcdflib_chi_cdf(double x, double df)
{
int what = 1;
int status = 0;
double p, q, bound;
cdfchi(&what, &p, &q, &x, &df, &status, &bound);
return p;
}
inline double dcdflib_chi_quantile(double p, double df)
{
int what = 2;
int status = 0;
double x, bound, q(1 - p);
cdfchi(&what, &p, &q, &x, &df, &status, &bound);
return x;
}
inline double dcdflib_chi_n_cdf(double x, double df, double nc)
{
int what = 1;
int status = 0;
double p, q, bound;
cdfchn(&what, &p, &q, &x, &df, &nc, &status, &bound);
return p;
}
inline double dcdflib_chi_n_quantile(double p, double df, double nc)
{
int what = 2;
int status = 0;
double x, bound, q(1 - p);
cdfchn(&what, &p, &q, &x, &df, &nc, &status, &bound);
return x;
}
inline double dcdflib_f_cdf(double x, double df1, double df2)
{
int what = 1;
int status = 0;
double p, q, bound;
cdff(&what, &p, &q, &x, &df1, &df2, &status, &bound);
return p;
}
inline double dcdflib_f_quantile(double p, double df1, double df2)
{
int what = 2;
int status = 0;
double x, bound, q(1 - p);
cdff(&what, &p, &q, &x, &df1, &df2, &status, &bound);
return x;
}
inline double dcdflib_f_n_cdf(double x, double df1, double df2, double nc)
{
int what = 1;
int status = 0;
double p, q, bound;
cdffnc(&what, &p, &q, &x, &df1, &df2, &nc, &status, &bound);
return p;
}
inline double dcdflib_f_n_quantile(double p, double df1, double df2, double nc)
{
int what = 2;
int status = 0;
double x, bound, q(1 - p);
cdffnc(&what, &p, &q, &x, &df1, &df2, &nc, &status, &bound);
return x;
}
inline double dcdflib_gamma_cdf(double x, double shape, double scale)
{
int what = 1;
int status = 0;
double p, q, bound;
scale = 1 / scale;
cdfgam(&what, &p, &q, &x, &shape, &scale, &status, &bound);
return p;
}
inline double dcdflib_gamma_quantile(double p, double shape, double scale)
{
int what = 2;
int status = 0;
double x, bound, q(1 - p);
scale = 1 / scale;
cdfgam(&what, &p, &q, &x, &shape, &scale, &status, &bound);
return x;
}
inline double dcdflib_nbin_cdf(double x, double r, double sf)
{
int what = 1;
int status = 0;
double p, q, bound, sfc(1 - sf);
cdfnbn(&what, &p, &q, &x, &r, &sf, &sfc, &status, &bound);
return p;
}
inline double dcdflib_nbin_quantile(double p, double r, double sf)
{
int what = 2;
int status = 0;
double x, bound, q(1 - p), sfc(1 - sf);
cdfnbn(&what, &p, &q, &x, &r, &sf, &sfc, &status, &bound);
return x;
}
inline double dcdflib_norm_cdf(double x, double mean, double sd)
{
int what = 1;
int status = 0;
double p, q, bound;
cdfnor(&what, &p, &q, &x, &mean, &sd, &status, &bound);
return p;
}
inline double dcdflib_norm_quantile(double p, double mean, double sd)
{
int what = 2;
int status = 0;
double x, bound, q(1 - p);
cdfnor(&what, &p, &q, &x, &mean, &sd, &status, &bound);
return x;
}
inline double dcdflib_poisson_cdf(double x, double param)
{
int what = 1;
int status = 0;
double p, q, bound;
cdfpoi(&what, &p, &q, &x, &param, &status, &bound);
return p;
}
inline double dcdflib_poisson_quantile(double p, double param)
{
int what = 2;
int status = 0;
double x, bound, q(1 - p);
cdfpoi(&what, &p, &q, &x, &param, &status, &bound);
return x;
}
inline double dcdflib_t_cdf(double x, double param)
{
int what = 1;
int status = 0;
double p, q, bound;
cdft(&what, &p, &q, &x, &param, &status, &bound);
return p;
}
inline double dcdflib_t_quantile(double p, double param)
{
int what = 2;
int status = 0;
double x, bound, q(1 - p);
cdft(&what, &p, &q, &x, &param, &status, &bound);
return x;
}
inline double dcdflib_t_n_cdf(double x, double param, double nc)
{
int what = 1;
int status = 0;
double p, q, bound;
cdftnc(&what, &p, &q, &x, &param, &nc, &status, &bound);
return p;
}
inline double dcdflib_t_n_quantile(double p, double param, double nc)
{
int what = 2;
int status = 0;
double x, bound, q(1 - p);
cdftnc(&what, &p, &q, &x, &param, &nc, &status, &bound);
return x;
}
#endif
extern std::vector<std::vector<double> > data;
void report_execution_time(double t, std::string table, std::string row, std::string heading);
std::string get_compiler_options_name();
inline std::string boost_name()
{
return "boost " + boost::lexical_cast<std::string>(BOOST_VERSION / 100000) + "." + boost::lexical_cast<std::string>((BOOST_VERSION / 100) % 1000);
}
inline std::string compiler_name()
{
#ifdef COMPILER_NAME
return COMPILER_NAME;
#else
return BOOST_COMPILER;
#endif
}
inline std::string platform_name()
{
#ifdef _WIN32
return "Windows x64";
#else
return BOOST_PLATFORM;
#endif
}
#endif // TABLE_HELPER_HPP