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路径: \\game3dprogramming\materials\GameFactory\GameFactoryDemo\references\boost_1_35_0\boost\math\distributions\rayleigh.hpp
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// Copyright Paul A. Bristow 2007. // 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 BOOST_STATS_rayleigh_HPP #define BOOST_STATS_rayleigh_HPP #include
#include
#include
#include
#include
#include
#include
#ifdef BOOST_MSVC # pragma warning(push) # pragma warning(disable: 4702) // unreachable code (return after domain_error throw). #endif #include
namespace boost{ namespace math{ namespace detail { // Error checks: template
inline bool verify_sigma(const char* function, RealType sigma, RealType* presult, const Policy& pol) { if(sigma <= 0) { *presult = policies::raise_domain_error
( function, "The scale parameter \"sigma\" must be > 0, but was: %1%.", sigma, pol); return false; } return true; } // bool verify_sigma template
inline bool verify_rayleigh_x(const char* function, RealType x, RealType* presult, const Policy& pol) { if(x < 0) { *presult = policies::raise_domain_error
( function, "The random variable must be >= 0, but was: %1%.", x, pol); return false; } return true; } // bool verify_rayleigh_x } // namespace detail template
> class rayleigh_distribution { public: typedef RealType value_type; typedef Policy policy_type; rayleigh_distribution(RealType sigma = 1) : m_sigma(sigma) { RealType err; detail::verify_sigma("boost::math::rayleigh_distribution<%1%>::rayleigh_distribution", sigma, &err, Policy()); } // rayleigh_distribution RealType sigma()const { // Accessor. return m_sigma; } private: RealType m_sigma; }; // class rayleigh_distribution typedef rayleigh_distribution
rayleigh; template
inline const std::pair
range(const rayleigh_distribution
& /*dist*/) { // Range of permissible values for random variable x. using boost::math::tools::max_value; return std::pair
(static_cast
(1), max_value
()); } template
inline const std::pair
support(const rayleigh_distribution
& /*dist*/) { // Range of supported values for random variable x. // This is range where cdf rises from 0 to 1, and outside it, the pdf is zero. using boost::math::tools::max_value; return std::pair
((1), max_value
()); } template
inline RealType pdf(const rayleigh_distribution
& dist, const RealType& x) { BOOST_MATH_STD_USING // for ADL of std function exp. RealType sigma = dist.sigma(); RealType result; static const char* function = "boost::math::pdf(const rayleigh_distribution<%1%>&, %1%)"; if(false == detail::verify_sigma(function, sigma, &result, Policy())) { return result; } if(false == detail::verify_rayleigh_x(function, x, &result, Policy())) { return result; } RealType sigmasqr = sigma * sigma; result = x * (exp(-(x * x) / ( 2 * sigmasqr))) / sigmasqr; return result; } // pdf template
inline RealType cdf(const rayleigh_distribution
& dist, const RealType& x) { BOOST_MATH_STD_USING // for ADL of std functions RealType result; RealType sigma = dist.sigma(); static const char* function = "boost::math::cdf(const rayleigh_distribution<%1%>&, %1%)"; if(false == detail::verify_sigma(function, sigma, &result, Policy())) { return result; } if(false == detail::verify_rayleigh_x(function, x, &result, Policy())) { return result; } result = -boost::math::expm1(-x * x / ( 2 * sigma * sigma), Policy()); return result; } // cdf template
inline RealType quantile(const rayleigh_distribution
& dist, const RealType& p) { BOOST_MATH_STD_USING // for ADL of std functions RealType result; RealType sigma = dist.sigma(); static const char* function = "boost::math::quantile(const rayleigh_distribution<%1%>&, %1%)"; if(false == detail::verify_sigma(function, sigma, &result, Policy())) return result; if(false == detail::check_probability(function, p, &result, Policy())) return result; if(p == 0) { return 0; } if(p == 1) { return policies::raise_overflow_error
(function, 0, Policy()); } result = sqrt(-2 * sigma * sigma * boost::math::log1p(-p, Policy())); return result; } // quantile template
inline RealType cdf(const complemented2_type
, RealType>& c) { BOOST_MATH_STD_USING // for ADL of std functions RealType result; RealType sigma = c.dist.sigma(); static const char* function = "boost::math::cdf(const rayleigh_distribution<%1%>&, %1%)"; if(false == detail::verify_sigma(function, sigma, &result, Policy())) { return result; } RealType x = c.param; if(false == detail::verify_rayleigh_x(function, x, &result, Policy())) { return result; } result = exp(-x * x / ( 2 * sigma * sigma)); return result; } // cdf complement template
inline RealType quantile(const complemented2_type
, RealType>& c) { BOOST_MATH_STD_USING // for ADL of std functions, log & sqrt. RealType result; RealType sigma = c.dist.sigma(); static const char* function = "boost::math::quantile(const rayleigh_distribution<%1%>&, %1%)"; if(false == detail::verify_sigma(function, sigma, &result, Policy())) { return result; } RealType q = c.param; if(false == detail::check_probability(function, q, &result, Policy())) { return result; } if(q == 1) { return 0; } if(q == 0) { return policies::raise_overflow_error
(function, 0, Policy()); } result = sqrt(-2 * sigma * sigma * log(q)); return result; } // quantile complement template
inline RealType mean(const rayleigh_distribution
& dist) { RealType result; RealType sigma = dist.sigma(); static const char* function = "boost::math::mean(const rayleigh_distribution<%1%>&, %1%)"; if(false == detail::verify_sigma(function, sigma, &result, Policy())) { return result; } using boost::math::constants::root_half_pi; return sigma * root_half_pi
(); } // mean template
inline RealType variance(const rayleigh_distribution
& dist) { RealType result; RealType sigma = dist.sigma(); static const char* function = "boost::math::variance(const rayleigh_distribution<%1%>&, %1%)"; if(false == detail::verify_sigma(function, sigma, &result, Policy())) { return result; } using boost::math::constants::four_minus_pi; return four_minus_pi
() * sigma * sigma / 2; } // variance template
inline RealType mode(const rayleigh_distribution
& dist) { return dist.sigma(); } template
inline RealType median(const rayleigh_distribution
& dist) { using boost::math::constants::root_ln_four; return root_ln_four
() * dist.sigma(); } template
inline RealType skewness(const rayleigh_distribution
& /*dist*/) { // using namespace boost::math::constants; return static_cast
(0.63111065781893713819189935154422777984404221106391L); // Computed using NTL at 150 bit, about 50 decimal digits. // return 2 * root_pi
() * pi_minus_three
() / pow23_four_minus_pi
(); } template
inline RealType kurtosis(const rayleigh_distribution
& /*dist*/) { // using namespace boost::math::constants; return static_cast
(3.2450893006876380628486604106197544154170667057995L); // Computed using NTL at 150 bit, about 50 decimal digits. // return 3 - (6 * pi
() * pi
() - 24 * pi
() + 16) / // (four_minus_pi
() * four_minus_pi
()); } template
inline RealType kurtosis_excess(const rayleigh_distribution
& /*dist*/) { //using namespace boost::math::constants; // Computed using NTL at 150 bit, about 50 decimal digits. return static_cast
(0.2450893006876380628486604106197544154170667057995L); // return -(6 * pi
() * pi
() - 24 * pi
() + 16) / // (four_minus_pi
() * four_minus_pi
()); } // kurtosis } // namespace math } // namespace boost #ifdef BOOST_MSVC # pragma warning(pop) #endif // This include must be at the end, *after* the accessors // for this distribution have been defined, in order to // keep compilers that support two-phase lookup happy. #include
#endif // BOOST_STATS_rayleigh_HPP
rayleigh.hpp
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