boost_1_45_0/libs/math/special_functions/atanh_test.hpp - nest-learning-thermostat/5.0/boost - Git at Google

 // unit test file atanh.hpp for the special functions test suite

 //  (C) Copyright Hubert Holin 2003.
 //  Distributed under 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)


 #include <functional>
 #include <iomanip>
 //#include <iostream>


 #include <boost/math/special_functions/atanh.hpp>


 #include <boost/test/unit_test.hpp>
 #include <boost/test/test_case_template.hpp>

 template<typename T>
 T    atanh_error_evaluator(T x)
 {
     using    ::std::abs;
     using    ::std::tanh;
     using    ::std::cosh;

     using    ::std::numeric_limits;

     using    ::boost::math::atanh;


     static T const   epsilon = numeric_limits<float>::epsilon();

     T                y = tanh(x);
     T                z = atanh(y);

     T                absolute_error = abs(z-x);
     T                relative_error = absolute_error/(cosh(x)*cosh(x));
     T                scaled_error = relative_error/epsilon;

     return(scaled_error);
 }


 BOOST_TEST_CASE_TEMPLATE_FUNCTION(atanh_test, T)
 {
     using    ::std::abs;
     using    ::std::tanh;
     using    ::std::log;

     using    ::std::numeric_limits;

     using    ::boost::math::atanh;


     BOOST_MESSAGE("Testing atanh in the real domain for "
         << string_type_name<T>::_() << ".");

     BOOST_CHECK_PREDICATE(::std::less_equal<T>(),
         (abs(atanh<T>(static_cast<T>(0))))
         (numeric_limits<T>::epsilon()));

     BOOST_CHECK_PREDICATE(::std::less_equal<T>(),
         (abs(atanh<T>(static_cast<T>(3)/5) - log(static_cast<T>(2))))
         (numeric_limits<T>::epsilon()));

     BOOST_CHECK_PREDICATE(::std::less_equal<T>(),
         (abs(atanh<T>(static_cast<T>(-3)/5) + log(static_cast<T>(2))))
         (numeric_limits<T>::epsilon()));

     for    (int i = 0; i <= 100; i++)
     {
         T    x = static_cast<T>(i-50)/static_cast<T>(5);
         T    y = tanh(x);

         if    (
                 (abs(y-static_cast<T>(1)) >= numeric_limits<T>::epsilon())&&
                 (abs(y+static_cast<T>(1)) >= numeric_limits<T>::epsilon())
             )
         {
             BOOST_CHECK_PREDICATE(::std::less_equal<T>(),
                 (atanh_error_evaluator(x))
                 (static_cast<T>(4)));
         }
     }
 }


 void    atanh_manual_check()
 {
     using    ::std::abs;
     using    ::std::tanh;

     using    ::std::numeric_limits;


     BOOST_MESSAGE(" ");
     BOOST_MESSAGE("atanh");

     for    (int i = 0; i <= 100; i++)
     {
         float        xf = static_cast<float>(i-50)/static_cast<float>(5);
         double       xd = static_cast<double>(i-50)/static_cast<double>(5);
         long double  xl =
                 static_cast<long double>(i-50)/static_cast<long double>(5);

         float        yf = tanh(xf);
         double       yd = tanh(xd);
         (void) &yd;        // avoid "unused variable" warning
         long double  yl = tanh(xl);
         (void) &yl;        // avoid "unused variable" warning

         if    (
                 std::numeric_limits<float>::has_infinity &&
                 std::numeric_limits<double>::has_infinity &&
                 std::numeric_limits<long double>::has_infinity
             )
         {
             BOOST_MESSAGE( ::std::setw(15)
                         << atanh_error_evaluator(xf)
                         << ::std::setw(15)
                         << atanh_error_evaluator(xd)
                         << ::std::setw(15)
                         << atanh_error_evaluator(xl));
         }
         else
         {
             if    (
                     (abs(yf-static_cast<float>(1)) <
                         numeric_limits<float>::epsilon())||
                     (abs(yf+static_cast<float>(1)) <
                         numeric_limits<float>::epsilon())||
                     (abs(yf-static_cast<double>(1)) <
                         numeric_limits<double>::epsilon())||
                     (abs(yf+static_cast<double>(1)) <
                         numeric_limits<double>::epsilon())||
                     (abs(yf-static_cast<long double>(1)) <
                         numeric_limits<long double>::epsilon())||
                     (abs(yf+static_cast<long double>(1)) <
                         numeric_limits<long double>::epsilon())
                 )
             {
                 BOOST_MESSAGE("Platform's numerics may lack precision.");
             }
             else
             {
                 BOOST_MESSAGE( ::std::setw(15)
                             << atanh_error_evaluator(xf)
                             << ::std::setw(15)
                             << atanh_error_evaluator(xd)
                             << ::std::setw(15)
                             << atanh_error_evaluator(xl));
             }
         }
     }

     BOOST_MESSAGE(" ");
 }
	// unit test file atanh.hpp for the special functions test suite

	// (C) Copyright Hubert Holin 2003.
	// Distributed under 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)


	#include <functional>
	#include <iomanip>
	//#include <iostream>


	#include <boost/math/special_functions/atanh.hpp>


	#include <boost/test/unit_test.hpp>
	#include <boost/test/test_case_template.hpp>

	template<typename T>
	T atanh_error_evaluator(T x)
	{
	using ::std::abs;
	using ::std::tanh;
	using ::std::cosh;

	using ::std::numeric_limits;

	using ::boost::math::atanh;


	static T const epsilon = numeric_limits<float>::epsilon();

	T y = tanh(x);
	T z = atanh(y);

	T absolute_error = abs(z-x);
	T relative_error = absolute_error/(cosh(x)*cosh(x));
	T scaled_error = relative_error/epsilon;

	return(scaled_error);
	}


	BOOST_TEST_CASE_TEMPLATE_FUNCTION(atanh_test, T)
	{
	using ::std::abs;
	using ::std::tanh;
	using ::std::log;

	using ::std::numeric_limits;

	using ::boost::math::atanh;


	BOOST_MESSAGE("Testing atanh in the real domain for "
	<< string_type_name<T>::_() << ".");

	BOOST_CHECK_PREDICATE(::std::less_equal<T>(),
	(abs(atanh<T>(static_cast<T>(0))))
	(numeric_limits<T>::epsilon()));

	BOOST_CHECK_PREDICATE(::std::less_equal<T>(),
	(abs(atanh<T>(static_cast<T>(3)/5) - log(static_cast<T>(2))))
	(numeric_limits<T>::epsilon()));

	BOOST_CHECK_PREDICATE(::std::less_equal<T>(),
	(abs(atanh<T>(static_cast<T>(-3)/5) + log(static_cast<T>(2))))
	(numeric_limits<T>::epsilon()));

	for (int i = 0; i <= 100; i++)
	{
	T x = static_cast<T>(i-50)/static_cast<T>(5);
	T y = tanh(x);

	if (
	(abs(y-static_cast<T>(1)) >= numeric_limits<T>::epsilon())&&
	(abs(y+static_cast<T>(1)) >= numeric_limits<T>::epsilon())
	)
	{
	BOOST_CHECK_PREDICATE(::std::less_equal<T>(),
	(atanh_error_evaluator(x))
	(static_cast<T>(4)));
	}
	}
	}


	void atanh_manual_check()
	{
	using ::std::abs;
	using ::std::tanh;

	using ::std::numeric_limits;


	BOOST_MESSAGE(" ");
	BOOST_MESSAGE("atanh");

	for (int i = 0; i <= 100; i++)
	{
	float xf = static_cast<float>(i-50)/static_cast<float>(5);
	double xd = static_cast<double>(i-50)/static_cast<double>(5);
	long double xl =
	static_cast<long double>(i-50)/static_cast<long double>(5);

	float yf = tanh(xf);
	double yd = tanh(xd);
	(void) &yd; // avoid "unused variable" warning
	long double yl = tanh(xl);
	(void) &yl; // avoid "unused variable" warning

	if (
	std::numeric_limits<float>::has_infinity &&
	std::numeric_limits<double>::has_infinity &&
	std::numeric_limits<long double>::has_infinity
	)
	{
	BOOST_MESSAGE( ::std::setw(15)
	<< atanh_error_evaluator(xf)
	<< ::std::setw(15)
	<< atanh_error_evaluator(xd)
	<< ::std::setw(15)
	<< atanh_error_evaluator(xl));
	}
	else
	{
	if (
	(abs(yf-static_cast<float>(1)) <
	numeric_limits<float>::epsilon())\|\|
	(abs(yf+static_cast<float>(1)) <
	numeric_limits<float>::epsilon())\|\|
	(abs(yf-static_cast<double>(1)) <
	numeric_limits<double>::epsilon())\|\|
	(abs(yf+static_cast<double>(1)) <
	numeric_limits<double>::epsilon())\|\|
	(abs(yf-static_cast<long double>(1)) <
	numeric_limits<long double>::epsilon())\|\|
	(abs(yf+static_cast<long double>(1)) <
	numeric_limits<long double>::epsilon())
	)
	{
	BOOST_MESSAGE("Platform's numerics may lack precision.");
	}
	else
	{
	BOOST_MESSAGE( ::std::setw(15)
	<< atanh_error_evaluator(xf)
	<< ::std::setw(15)
	<< atanh_error_evaluator(xd)
	<< ::std::setw(15)
	<< atanh_error_evaluator(xl));
	}
	}
	}

	BOOST_MESSAGE(" ");
	}