boost/libs/math/test/float128/test_factorials.cpp - nest-cam/4320010/boost - Git at Google

 //  Copyright John Maddock 2006.
 //  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)

 #ifdef _MSC_VER
 #  pragma warning(disable: 4127) // conditional expression is constant.
 #  pragma warning(disable: 4245) // int/unsigned int conversion
 #endif

 // Return infinities not exceptions:
 #define BOOST_MATH_OVERFLOW_ERROR_POLICY ignore_error

 #include <boost/cstdfloat.hpp>
 #define BOOST_TEST_MAIN
 #include <boost/test/unit_test.hpp>
 #include <boost/test/floating_point_comparison.hpp>
 #include <boost/math/special_functions/factorials.hpp>
 #include <boost/math/special_functions/gamma.hpp>
 #include <boost/math/tools/stats.hpp>
 #include <boost/math/tools/test.hpp>

 #include <iostream>
   using std::cout;
   using std::endl;

 template <class T>
 T naive_falling_factorial(T x, unsigned n)
 {
    if(n == 0)
       return 1;
    T result = x;
    while(--n)
    {
       x -= 1;
       result *= x;
    }
    return result;
 }

 template <class T>
 void test_spots(T)
 {
    //
    // Basic sanity checks.
    //
    T tolerance = boost::math::tools::epsilon<T>() * 100 * 2;  // 2 eps as a percent.
    BOOST_CHECK_CLOSE(
       ::boost::math::factorial<T>(0),
       static_cast<T>(1), tolerance);
    BOOST_CHECK_CLOSE(
       ::boost::math::factorial<T>(1),
       static_cast<T>(1), tolerance);
    BOOST_CHECK_CLOSE(
       ::boost::math::factorial<T>(10),
       static_cast<T>(3628800L), tolerance);
    BOOST_CHECK_CLOSE(
       ::boost::math::unchecked_factorial<T>(0),
       static_cast<T>(1), tolerance);
    BOOST_CHECK_CLOSE(
       ::boost::math::unchecked_factorial<T>(1),
       static_cast<T>(1), tolerance);
    BOOST_CHECK_CLOSE(
       ::boost::math::unchecked_factorial<T>(10),
       static_cast<T>(3628800L), tolerance);

    //
    // Try some double factorials:
    //
    BOOST_CHECK_CLOSE(
       ::boost::math::double_factorial<T>(0),
       static_cast<T>(1), tolerance);
    BOOST_CHECK_CLOSE(
       ::boost::math::double_factorial<T>(1),
       static_cast<T>(1), tolerance);
    BOOST_CHECK_CLOSE(
       ::boost::math::double_factorial<T>(2),
       static_cast<T>(2), tolerance);
    BOOST_CHECK_CLOSE(
       ::boost::math::double_factorial<T>(5),
       static_cast<T>(15), tolerance);
    BOOST_CHECK_CLOSE(
       ::boost::math::double_factorial<T>(10),
       static_cast<T>(3840), tolerance);
    BOOST_CHECK_CLOSE(
       ::boost::math::double_factorial<T>(19),
       static_cast<T>(6.547290750e8Q), tolerance);
    BOOST_CHECK_CLOSE(
       ::boost::math::double_factorial<T>(24),
       static_cast<T>(1.961990553600000e12Q), tolerance);
    BOOST_CHECK_CLOSE(
       ::boost::math::double_factorial<T>(33),
       static_cast<T>(6.33265987076285062500000e18Q), tolerance);
    BOOST_CHECK_CLOSE(
       ::boost::math::double_factorial<T>(42),
       static_cast<T>(1.0714547155728479551488000000e26Q), tolerance);
    BOOST_CHECK_CLOSE(
       ::boost::math::double_factorial<T>(47),
       static_cast<T>(1.19256819277443412353990764062500000e30Q), tolerance);

    if((std::numeric_limits<T>::has_infinity) && (std::numeric_limits<T>::max_exponent <= 1024))
    {
       BOOST_CHECK_EQUAL(
          ::boost::math::double_factorial<T>(320),
          std::numeric_limits<T>::infinity());
       BOOST_CHECK_EQUAL(
          ::boost::math::double_factorial<T>(301),
          std::numeric_limits<T>::infinity());
    }
    //
    // Rising factorials:
    //
    tolerance = boost::math::tools::epsilon<T>() * 100 * 20;  // 20 eps as a percent.
    if(std::numeric_limits<T>::is_specialized == 0)
       tolerance *= 5;  // higher error rates without Lanczos support
    BOOST_CHECK_CLOSE(
       ::boost::math::rising_factorial(static_cast<T>(3), 4),
       static_cast<T>(360), tolerance);
    BOOST_CHECK_CLOSE(
       ::boost::math::rising_factorial(static_cast<T>(7), -4),
       static_cast<T>(0.00277777777777777777777777777777777777777777777777777777777778Q), tolerance);
    BOOST_CHECK_CLOSE(
       ::boost::math::rising_factorial(static_cast<T>(120.5f), 8),
       static_cast<T>(5.58187566784927180664062500e16Q), tolerance);
    BOOST_CHECK_CLOSE(
       ::boost::math::rising_factorial(static_cast<T>(120.5f), -4),
       static_cast<T>(5.15881498170104646868208445266116850161120996179812063177241e-9Q), tolerance);
    BOOST_CHECK_CLOSE(
       ::boost::math::rising_factorial(static_cast<T>(5000.25f), 8),
       static_cast<T>(3.92974581976666067544013393509103775024414062500000e29Q), tolerance);
    BOOST_CHECK_CLOSE(
       ::boost::math::rising_factorial(static_cast<T>(5000.25f), -7),
       static_cast<T>(1.28674092710208810281923019294164707555099052561945725535047e-26Q), tolerance);
    BOOST_CHECK_CLOSE(
       ::boost::math::rising_factorial(static_cast<T>(30.25), 21),
       static_cast<T>(3.93286957998925490693364184100209193343633629069699964020401e33Q), tolerance * 2);
    BOOST_CHECK_CLOSE(
       ::boost::math::rising_factorial(static_cast<T>(30.25), -21),
       static_cast<T>(3.35010902064291983728782493133164809108646650368560147505884e-27Q), tolerance);
    BOOST_CHECK_CLOSE(
       ::boost::math::rising_factorial(static_cast<T>(-30.25), 21),
       static_cast<T>(-9.76168312768123676601980433377916854311706629232503473758698e26Q), tolerance * 2);
    BOOST_CHECK_CLOSE(
       ::boost::math::rising_factorial(static_cast<T>(-30.25), -21),
       static_cast<T>(-1.50079704000923674318934280259377728203516775215430875839823e-34Q), 2 * tolerance);
    BOOST_CHECK_CLOSE(
       ::boost::math::rising_factorial(static_cast<T>(-30.25), 5),
       static_cast<T>(-1.78799177197265625000000e7Q), tolerance);
    BOOST_CHECK_CLOSE(
       ::boost::math::rising_factorial(static_cast<T>(-30.25), -5),
       static_cast<T>(-2.47177487004482195012362027432181137141899692171397467859150e-8Q), tolerance);
    BOOST_CHECK_CLOSE(
       ::boost::math::rising_factorial(static_cast<T>(-30.25), 6),
       static_cast<T>(4.5146792242309570312500000e8Q), tolerance);
    BOOST_CHECK_CLOSE(
       ::boost::math::rising_factorial(static_cast<T>(-30.25), -6),
       static_cast<T>(6.81868929667537089689274558433603136943171564610751635473516e-10Q), tolerance);
    BOOST_CHECK_CLOSE(
       ::boost::math::rising_factorial(static_cast<T>(-3), 6),
       static_cast<T>(0), tolerance);
    BOOST_CHECK_CLOSE(
       ::boost::math::rising_factorial(static_cast<T>(-3.25), 6),
       static_cast<T>(2.99926757812500Q), tolerance);
    BOOST_CHECK_CLOSE(
       ::boost::math::rising_factorial(static_cast<T>(-5.25), 6),
       static_cast<T>(50.987548828125000000000000Q), tolerance);
    BOOST_CHECK_CLOSE(
       ::boost::math::rising_factorial(static_cast<T>(-5.25), 13),
       static_cast<T>(127230.91046623885631561279296875000Q), tolerance);
    BOOST_CHECK_CLOSE(
       ::boost::math::rising_factorial(static_cast<T>(-3.25), -6),
       static_cast<T>(0.0000129609865918182348202632178291407500332449622510474437452125Q), tolerance);
    BOOST_CHECK_CLOSE(
       ::boost::math::rising_factorial(static_cast<T>(-5.25), -6),
       static_cast<T>(2.50789821857946332294524052303699065683926911849535903362649e-6Q), tolerance);
    BOOST_CHECK_CLOSE(
       ::boost::math::rising_factorial(static_cast<T>(-5.25), -13),
       static_cast<T>(-1.38984989447269128946284683518361786049649013886981662962096e-14Q), tolerance);

    //
    // Falling factorials:
    //
    BOOST_CHECK_CLOSE(
       ::boost::math::falling_factorial(static_cast<T>(30.25), 0),
       static_cast<T>(naive_falling_factorial(30.25Q, 0)),
       tolerance);
    BOOST_CHECK_CLOSE(
       ::boost::math::falling_factorial(static_cast<T>(30.25), 1),
       static_cast<T>(naive_falling_factorial(30.25Q, 1)),
       tolerance);
    BOOST_CHECK_CLOSE(
       ::boost::math::falling_factorial(static_cast<T>(30.25), 2),
       static_cast<T>(naive_falling_factorial(30.25Q, 2)),
       tolerance);
    BOOST_CHECK_CLOSE(
       ::boost::math::falling_factorial(static_cast<T>(30.25), 5),
       static_cast<T>(naive_falling_factorial(30.25Q, 5)),
       tolerance);
    BOOST_CHECK_CLOSE(
       ::boost::math::falling_factorial(static_cast<T>(30.25), 22),
       static_cast<T>(naive_falling_factorial(30.25Q, 22)),
       tolerance);
    BOOST_CHECK_CLOSE(
       ::boost::math::falling_factorial(static_cast<T>(100.5), 6),
       static_cast<T>(naive_falling_factorial(100.5Q, 6)),
       tolerance);
    BOOST_CHECK_CLOSE(
       ::boost::math::falling_factorial(static_cast<T>(30.75), 30),
       static_cast<T>(naive_falling_factorial(30.75Q, 30)),
       tolerance * 3);
    if(boost::math::policies::digits<T, boost::math::policies::policy<> >() > 50)
    {
       BOOST_CHECK_CLOSE(
          ::boost::math::falling_factorial(static_cast<T>(-30.75Q), 30),
          static_cast<T>(naive_falling_factorial(-30.75Q, 30)),
          tolerance * 3);
       BOOST_CHECK_CLOSE(
          ::boost::math::falling_factorial(static_cast<T>(-30.75Q), 27),
          static_cast<T>(naive_falling_factorial(-30.75Q, 27)),
          tolerance * 3);
    }
    BOOST_CHECK_CLOSE(
       ::boost::math::falling_factorial(static_cast<T>(-12.0), 6),
       static_cast<T>(naive_falling_factorial(-12.0Q, 6)),
       tolerance);
    BOOST_CHECK_CLOSE(
       ::boost::math::falling_factorial(static_cast<T>(-12), 5),
       static_cast<T>(naive_falling_factorial(-12.0Q, 5)),
       tolerance);
    BOOST_CHECK_CLOSE(
       ::boost::math::falling_factorial(static_cast<T>(-3.0), 6),
       static_cast<T>(naive_falling_factorial(-3.0Q, 6)),
       tolerance);
    BOOST_CHECK_CLOSE(
       ::boost::math::falling_factorial(static_cast<T>(-3), 5),
       static_cast<T>(naive_falling_factorial(-3.0Q, 5)),
       tolerance);
    BOOST_CHECK_CLOSE(
       ::boost::math::falling_factorial(static_cast<T>(3.0), 6),
       static_cast<T>(naive_falling_factorial(3.0Q, 6)),
       tolerance);
    BOOST_CHECK_CLOSE(
       ::boost::math::falling_factorial(static_cast<T>(3), 5),
       static_cast<T>(naive_falling_factorial(3.0Q, 5)),
       tolerance);
    BOOST_CHECK_CLOSE(
       ::boost::math::falling_factorial(static_cast<T>(3.25), 4),
       static_cast<T>(naive_falling_factorial(3.25Q, 4)),
       tolerance);
    BOOST_CHECK_CLOSE(
       ::boost::math::falling_factorial(static_cast<T>(3.25), 5),
       static_cast<T>(naive_falling_factorial(3.25Q, 5)),
       tolerance);
    BOOST_CHECK_CLOSE(
       ::boost::math::falling_factorial(static_cast<T>(3.25), 6),
       static_cast<T>(naive_falling_factorial(3.25Q, 6)),
       tolerance);
    BOOST_CHECK_CLOSE(
       ::boost::math::falling_factorial(static_cast<T>(3.25), 7),
       static_cast<T>(naive_falling_factorial(3.25Q, 7)),
       tolerance);
    BOOST_CHECK_CLOSE(
       ::boost::math::falling_factorial(static_cast<T>(8.25), 12),
       static_cast<T>(naive_falling_factorial(8.25Q, 12)),
       tolerance);


    tolerance = boost::math::tools::epsilon<T>() * 100 * 20;  // 20 eps as a percent.
    unsigned i = boost::math::max_factorial<T>::value;
    if((boost::is_floating_point<T>::value) && (sizeof(T) <= sizeof(double)))
    {
       // Without Lanczos support, tgamma isn't accurate enough for this test:
       BOOST_CHECK_CLOSE(
          ::boost::math::unchecked_factorial<T>(i),
          boost::math::tgamma(static_cast<T>(i+1)), tolerance);
    }

    i += 10;
    while(boost::math::lgamma(static_cast<T>(i+1)) < boost::math::tools::log_max_value<T>())
    {
       BOOST_CHECK_CLOSE(
          ::boost::math::factorial<T>(i),
          boost::math::tgamma(static_cast<T>(i+1)), tolerance);
       i += 10;
    }
 } // template <class T> void test_spots(T)

 BOOST_AUTO_TEST_CASE( test_main )
 {
    BOOST_MATH_CONTROL_FP;
    test_spots(0.0Q);
    cout << "max factorial for __float128"  << boost::math::max_factorial<boost::floatmax_t>::value  << endl;
 }
	// Copyright John Maddock 2006.
	// 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)

	#ifdef _MSC_VER
	# pragma warning(disable: 4127) // conditional expression is constant.
	# pragma warning(disable: 4245) // int/unsigned int conversion
	#endif

	// Return infinities not exceptions:
	#define BOOST_MATH_OVERFLOW_ERROR_POLICY ignore_error

	#include <boost/cstdfloat.hpp>
	#define BOOST_TEST_MAIN
	#include <boost/test/unit_test.hpp>
	#include <boost/test/floating_point_comparison.hpp>
	#include <boost/math/special_functions/factorials.hpp>
	#include <boost/math/special_functions/gamma.hpp>
	#include <boost/math/tools/stats.hpp>
	#include <boost/math/tools/test.hpp>

	#include <iostream>
	using std::cout;
	using std::endl;

	template <class T>
	T naive_falling_factorial(T x, unsigned n)
	{
	if(n == 0)
	return 1;
	T result = x;
	while(--n)
	{
	x -= 1;
	result *= x;
	}
	return result;
	}

	template <class T>
	void test_spots(T)
	{
	//
	// Basic sanity checks.
	//
	T tolerance = boost::math::tools::epsilon<T>() * 100 * 2; // 2 eps as a percent.
	BOOST_CHECK_CLOSE(
	::boost::math::factorial<T>(0),
	static_cast<T>(1), tolerance);
	BOOST_CHECK_CLOSE(
	::boost::math::factorial<T>(1),
	static_cast<T>(1), tolerance);
	BOOST_CHECK_CLOSE(
	::boost::math::factorial<T>(10),
	static_cast<T>(3628800L), tolerance);
	BOOST_CHECK_CLOSE(
	::boost::math::unchecked_factorial<T>(0),
	static_cast<T>(1), tolerance);
	BOOST_CHECK_CLOSE(
	::boost::math::unchecked_factorial<T>(1),
	static_cast<T>(1), tolerance);
	BOOST_CHECK_CLOSE(
	::boost::math::unchecked_factorial<T>(10),
	static_cast<T>(3628800L), tolerance);

	//
	// Try some double factorials:
	//
	BOOST_CHECK_CLOSE(
	::boost::math::double_factorial<T>(0),
	static_cast<T>(1), tolerance);
	BOOST_CHECK_CLOSE(
	::boost::math::double_factorial<T>(1),
	static_cast<T>(1), tolerance);
	BOOST_CHECK_CLOSE(
	::boost::math::double_factorial<T>(2),
	static_cast<T>(2), tolerance);
	BOOST_CHECK_CLOSE(
	::boost::math::double_factorial<T>(5),
	static_cast<T>(15), tolerance);
	BOOST_CHECK_CLOSE(
	::boost::math::double_factorial<T>(10),
	static_cast<T>(3840), tolerance);
	BOOST_CHECK_CLOSE(
	::boost::math::double_factorial<T>(19),
	static_cast<T>(6.547290750e8Q), tolerance);
	BOOST_CHECK_CLOSE(
	::boost::math::double_factorial<T>(24),
	static_cast<T>(1.961990553600000e12Q), tolerance);
	BOOST_CHECK_CLOSE(
	::boost::math::double_factorial<T>(33),
	static_cast<T>(6.33265987076285062500000e18Q), tolerance);
	BOOST_CHECK_CLOSE(
	::boost::math::double_factorial<T>(42),
	static_cast<T>(1.0714547155728479551488000000e26Q), tolerance);
	BOOST_CHECK_CLOSE(
	::boost::math::double_factorial<T>(47),
	static_cast<T>(1.19256819277443412353990764062500000e30Q), tolerance);

	if((std::numeric_limits<T>::has_infinity) && (std::numeric_limits<T>::max_exponent <= 1024))
	{
	BOOST_CHECK_EQUAL(
	::boost::math::double_factorial<T>(320),
	std::numeric_limits<T>::infinity());
	BOOST_CHECK_EQUAL(
	::boost::math::double_factorial<T>(301),
	std::numeric_limits<T>::infinity());
	}
	//
	// Rising factorials:
	//
	tolerance = boost::math::tools::epsilon<T>() * 100 * 20; // 20 eps as a percent.
	if(std::numeric_limits<T>::is_specialized == 0)
	tolerance *= 5; // higher error rates without Lanczos support
	BOOST_CHECK_CLOSE(
	::boost::math::rising_factorial(static_cast<T>(3), 4),
	static_cast<T>(360), tolerance);
	BOOST_CHECK_CLOSE(
	::boost::math::rising_factorial(static_cast<T>(7), -4),
	static_cast<T>(0.00277777777777777777777777777777777777777777777777777777777778Q), tolerance);
	BOOST_CHECK_CLOSE(
	::boost::math::rising_factorial(static_cast<T>(120.5f), 8),
	static_cast<T>(5.58187566784927180664062500e16Q), tolerance);
	BOOST_CHECK_CLOSE(
	::boost::math::rising_factorial(static_cast<T>(120.5f), -4),
	static_cast<T>(5.15881498170104646868208445266116850161120996179812063177241e-9Q), tolerance);
	BOOST_CHECK_CLOSE(
	::boost::math::rising_factorial(static_cast<T>(5000.25f), 8),
	static_cast<T>(3.92974581976666067544013393509103775024414062500000e29Q), tolerance);
	BOOST_CHECK_CLOSE(
	::boost::math::rising_factorial(static_cast<T>(5000.25f), -7),
	static_cast<T>(1.28674092710208810281923019294164707555099052561945725535047e-26Q), tolerance);
	BOOST_CHECK_CLOSE(
	::boost::math::rising_factorial(static_cast<T>(30.25), 21),
	static_cast<T>(3.93286957998925490693364184100209193343633629069699964020401e33Q), tolerance * 2);
	BOOST_CHECK_CLOSE(
	::boost::math::rising_factorial(static_cast<T>(30.25), -21),
	static_cast<T>(3.35010902064291983728782493133164809108646650368560147505884e-27Q), tolerance);
	BOOST_CHECK_CLOSE(
	::boost::math::rising_factorial(static_cast<T>(-30.25), 21),
	static_cast<T>(-9.76168312768123676601980433377916854311706629232503473758698e26Q), tolerance * 2);
	BOOST_CHECK_CLOSE(
	::boost::math::rising_factorial(static_cast<T>(-30.25), -21),
	static_cast<T>(-1.50079704000923674318934280259377728203516775215430875839823e-34Q), 2 * tolerance);
	BOOST_CHECK_CLOSE(
	::boost::math::rising_factorial(static_cast<T>(-30.25), 5),
	static_cast<T>(-1.78799177197265625000000e7Q), tolerance);
	BOOST_CHECK_CLOSE(
	::boost::math::rising_factorial(static_cast<T>(-30.25), -5),
	static_cast<T>(-2.47177487004482195012362027432181137141899692171397467859150e-8Q), tolerance);
	BOOST_CHECK_CLOSE(
	::boost::math::rising_factorial(static_cast<T>(-30.25), 6),
	static_cast<T>(4.5146792242309570312500000e8Q), tolerance);
	BOOST_CHECK_CLOSE(
	::boost::math::rising_factorial(static_cast<T>(-30.25), -6),
	static_cast<T>(6.81868929667537089689274558433603136943171564610751635473516e-10Q), tolerance);
	BOOST_CHECK_CLOSE(
	::boost::math::rising_factorial(static_cast<T>(-3), 6),
	static_cast<T>(0), tolerance);
	BOOST_CHECK_CLOSE(
	::boost::math::rising_factorial(static_cast<T>(-3.25), 6),
	static_cast<T>(2.99926757812500Q), tolerance);
	BOOST_CHECK_CLOSE(
	::boost::math::rising_factorial(static_cast<T>(-5.25), 6),
	static_cast<T>(50.987548828125000000000000Q), tolerance);
	BOOST_CHECK_CLOSE(
	::boost::math::rising_factorial(static_cast<T>(-5.25), 13),
	static_cast<T>(127230.91046623885631561279296875000Q), tolerance);
	BOOST_CHECK_CLOSE(
	::boost::math::rising_factorial(static_cast<T>(-3.25), -6),
	static_cast<T>(0.0000129609865918182348202632178291407500332449622510474437452125Q), tolerance);
	BOOST_CHECK_CLOSE(
	::boost::math::rising_factorial(static_cast<T>(-5.25), -6),
	static_cast<T>(2.50789821857946332294524052303699065683926911849535903362649e-6Q), tolerance);
	BOOST_CHECK_CLOSE(
	::boost::math::rising_factorial(static_cast<T>(-5.25), -13),
	static_cast<T>(-1.38984989447269128946284683518361786049649013886981662962096e-14Q), tolerance);

	//
	// Falling factorials:
	//
	BOOST_CHECK_CLOSE(
	::boost::math::falling_factorial(static_cast<T>(30.25), 0),
	static_cast<T>(naive_falling_factorial(30.25Q, 0)),
	tolerance);
	BOOST_CHECK_CLOSE(
	::boost::math::falling_factorial(static_cast<T>(30.25), 1),
	static_cast<T>(naive_falling_factorial(30.25Q, 1)),
	tolerance);
	BOOST_CHECK_CLOSE(
	::boost::math::falling_factorial(static_cast<T>(30.25), 2),
	static_cast<T>(naive_falling_factorial(30.25Q, 2)),
	tolerance);
	BOOST_CHECK_CLOSE(
	::boost::math::falling_factorial(static_cast<T>(30.25), 5),
	static_cast<T>(naive_falling_factorial(30.25Q, 5)),
	tolerance);
	BOOST_CHECK_CLOSE(
	::boost::math::falling_factorial(static_cast<T>(30.25), 22),
	static_cast<T>(naive_falling_factorial(30.25Q, 22)),
	tolerance);
	BOOST_CHECK_CLOSE(
	::boost::math::falling_factorial(static_cast<T>(100.5), 6),
	static_cast<T>(naive_falling_factorial(100.5Q, 6)),
	tolerance);
	BOOST_CHECK_CLOSE(
	::boost::math::falling_factorial(static_cast<T>(30.75), 30),
	static_cast<T>(naive_falling_factorial(30.75Q, 30)),
	tolerance * 3);
	if(boost::math::policies::digits<T, boost::math::policies::policy<> >() > 50)
	{
	BOOST_CHECK_CLOSE(
	::boost::math::falling_factorial(static_cast<T>(-30.75Q), 30),
	static_cast<T>(naive_falling_factorial(-30.75Q, 30)),
	tolerance * 3);
	BOOST_CHECK_CLOSE(
	::boost::math::falling_factorial(static_cast<T>(-30.75Q), 27),
	static_cast<T>(naive_falling_factorial(-30.75Q, 27)),
	tolerance * 3);
	}
	BOOST_CHECK_CLOSE(
	::boost::math::falling_factorial(static_cast<T>(-12.0), 6),
	static_cast<T>(naive_falling_factorial(-12.0Q, 6)),
	tolerance);
	BOOST_CHECK_CLOSE(
	::boost::math::falling_factorial(static_cast<T>(-12), 5),
	static_cast<T>(naive_falling_factorial(-12.0Q, 5)),
	tolerance);
	BOOST_CHECK_CLOSE(
	::boost::math::falling_factorial(static_cast<T>(-3.0), 6),
	static_cast<T>(naive_falling_factorial(-3.0Q, 6)),
	tolerance);
	BOOST_CHECK_CLOSE(
	::boost::math::falling_factorial(static_cast<T>(-3), 5),
	static_cast<T>(naive_falling_factorial(-3.0Q, 5)),
	tolerance);
	BOOST_CHECK_CLOSE(
	::boost::math::falling_factorial(static_cast<T>(3.0), 6),
	static_cast<T>(naive_falling_factorial(3.0Q, 6)),
	tolerance);
	BOOST_CHECK_CLOSE(
	::boost::math::falling_factorial(static_cast<T>(3), 5),
	static_cast<T>(naive_falling_factorial(3.0Q, 5)),
	tolerance);
	BOOST_CHECK_CLOSE(
	::boost::math::falling_factorial(static_cast<T>(3.25), 4),
	static_cast<T>(naive_falling_factorial(3.25Q, 4)),
	tolerance);
	BOOST_CHECK_CLOSE(
	::boost::math::falling_factorial(static_cast<T>(3.25), 5),
	static_cast<T>(naive_falling_factorial(3.25Q, 5)),
	tolerance);
	BOOST_CHECK_CLOSE(
	::boost::math::falling_factorial(static_cast<T>(3.25), 6),
	static_cast<T>(naive_falling_factorial(3.25Q, 6)),
	tolerance);
	BOOST_CHECK_CLOSE(
	::boost::math::falling_factorial(static_cast<T>(3.25), 7),
	static_cast<T>(naive_falling_factorial(3.25Q, 7)),
	tolerance);
	BOOST_CHECK_CLOSE(
	::boost::math::falling_factorial(static_cast<T>(8.25), 12),
	static_cast<T>(naive_falling_factorial(8.25Q, 12)),
	tolerance);


	tolerance = boost::math::tools::epsilon<T>() * 100 * 20; // 20 eps as a percent.
	unsigned i = boost::math::max_factorial<T>::value;
	if((boost::is_floating_point<T>::value) && (sizeof(T) <= sizeof(double)))
	{
	// Without Lanczos support, tgamma isn't accurate enough for this test:
	BOOST_CHECK_CLOSE(
	::boost::math::unchecked_factorial<T>(i),
	boost::math::tgamma(static_cast<T>(i+1)), tolerance);
	}

	i += 10;
	while(boost::math::lgamma(static_cast<T>(i+1)) < boost::math::tools::log_max_value<T>())
	{
	BOOST_CHECK_CLOSE(
	::boost::math::factorial<T>(i),
	boost::math::tgamma(static_cast<T>(i+1)), tolerance);
	i += 10;
	}
	} // template <class T> void test_spots(T)

	BOOST_AUTO_TEST_CASE( test_main )
	{
	BOOST_MATH_CONTROL_FP;
	test_spots(0.0Q);
	cout << "max factorial for __float128" << boost::math::max_factorial<boost::floatmax_t>::value << endl;
	}