sv-dependency-builds: any/include/boost/math/distributions/triangular.hpp annotate

annotate any/include/boost/math/distributions/triangular.hpp @ 160:cff480c41f97

Add some cross-platform Boost headers

author	Chris Cannam <cannam@all-day-breakfast.com>
date	Sat, 16 Feb 2019 16:31:25 +0000
parents
children

rev	line source
cannam@160	1 // Copyright John Maddock 2006, 2007.
cannam@160	2 // Copyright Paul A. Bristow 2006, 2007.
cannam@160	3 // Use, modification and distribution are subject to the
cannam@160	4 // Boost Software License, Version 1.0. (See accompanying file
cannam@160	5 // LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
cannam@160	6
cannam@160	7 #ifndef BOOST_STATS_TRIANGULAR_HPP
cannam@160	8 #define BOOST_STATS_TRIANGULAR_HPP
cannam@160	9
cannam@160	10 // http://mathworld.wolfram.com/TriangularDistribution.html
cannam@160	11 // Note that the 'constructors' defined by Wolfram are difference from those here,
cannam@160	12 // for example
cannam@160	13 // N[variance[triangulardistribution{1, +2}, 1.5], 50] computes
cannam@160	14 // 0.041666666666666666666666666666666666666666666666667
cannam@160	15 // TriangularDistribution{1, +2}, 1.5 is the analog of triangular_distribution(1, 1.5, 2)
cannam@160	16
cannam@160	17 // http://en.wikipedia.org/wiki/Triangular_distribution
cannam@160	18
cannam@160	19 #include <boost/math/distributions/fwd.hpp>
cannam@160	20 #include <boost/math/special_functions/expm1.hpp>
cannam@160	21 #include <boost/math/distributions/detail/common_error_handling.hpp>
cannam@160	22 #include <boost/math/distributions/complement.hpp>
cannam@160	23 #include <boost/math/constants/constants.hpp>
cannam@160	24
cannam@160	25 #include <utility>
cannam@160	26
cannam@160	27 namespace boost{ namespace math
cannam@160	28 {
cannam@160	29 namespace detail
cannam@160	30 {
cannam@160	31 template <class RealType, class Policy>
cannam@160	32 inline bool check_triangular_lower(
cannam@160	33 const char* function,
cannam@160	34 RealType lower,
cannam@160	35 RealType* result, const Policy& pol)
cannam@160	36 {
cannam@160	37 if((boost::math::isfinite)(lower))
cannam@160	38 { // Any finite value is OK.
cannam@160	39 return true;
cannam@160	40 }
cannam@160	41 else
cannam@160	42 { // Not finite: infinity or NaN.
cannam@160	43 *result = policies::raise_domain_error<RealType>(
cannam@160	44 function,
cannam@160	45 "Lower parameter is %1%, but must be finite!", lower, pol);
cannam@160	46 return false;
cannam@160	47 }
cannam@160	48 } // bool check_triangular_lower(
cannam@160	49
cannam@160	50 template <class RealType, class Policy>
cannam@160	51 inline bool check_triangular_mode(
cannam@160	52 const char* function,
cannam@160	53 RealType mode,
cannam@160	54 RealType* result, const Policy& pol)
cannam@160	55 {
cannam@160	56 if((boost::math::isfinite)(mode))
cannam@160	57 { // any finite value is OK.
cannam@160	58 return true;
cannam@160	59 }
cannam@160	60 else
cannam@160	61 { // Not finite: infinity or NaN.
cannam@160	62 *result = policies::raise_domain_error<RealType>(
cannam@160	63 function,
cannam@160	64 "Mode parameter is %1%, but must be finite!", mode, pol);
cannam@160	65 return false;
cannam@160	66 }
cannam@160	67 } // bool check_triangular_mode(
cannam@160	68
cannam@160	69 template <class RealType, class Policy>
cannam@160	70 inline bool check_triangular_upper(
cannam@160	71 const char* function,
cannam@160	72 RealType upper,
cannam@160	73 RealType* result, const Policy& pol)
cannam@160	74 {
cannam@160	75 if((boost::math::isfinite)(upper))
cannam@160	76 { // any finite value is OK.
cannam@160	77 return true;
cannam@160	78 }
cannam@160	79 else
cannam@160	80 { // Not finite: infinity or NaN.
cannam@160	81 *result = policies::raise_domain_error<RealType>(
cannam@160	82 function,
cannam@160	83 "Upper parameter is %1%, but must be finite!", upper, pol);
cannam@160	84 return false;
cannam@160	85 }
cannam@160	86 } // bool check_triangular_upper(
cannam@160	87
cannam@160	88 template <class RealType, class Policy>
cannam@160	89 inline bool check_triangular_x(
cannam@160	90 const char* function,
cannam@160	91 RealType const& x,
cannam@160	92 RealType* result, const Policy& pol)
cannam@160	93 {
cannam@160	94 if((boost::math::isfinite)(x))
cannam@160	95 { // Any finite value is OK
cannam@160	96 return true;
cannam@160	97 }
cannam@160	98 else
cannam@160	99 { // Not finite: infinity or NaN.
cannam@160	100 *result = policies::raise_domain_error<RealType>(
cannam@160	101 function,
cannam@160	102 "x parameter is %1%, but must be finite!", x, pol);
cannam@160	103 return false;
cannam@160	104 }
cannam@160	105 } // bool check_triangular_x
cannam@160	106
cannam@160	107 template <class RealType, class Policy>
cannam@160	108 inline bool check_triangular(
cannam@160	109 const char* function,
cannam@160	110 RealType lower,
cannam@160	111 RealType mode,
cannam@160	112 RealType upper,
cannam@160	113 RealType* result, const Policy& pol)
cannam@160	114 {
cannam@160	115 if ((check_triangular_lower(function, lower, result, pol) == false)
cannam@160	116 \|\| (check_triangular_mode(function, mode, result, pol) == false)
cannam@160	117 \|\| (check_triangular_upper(function, upper, result, pol) == false))
cannam@160	118 { // Some parameter not finite.
cannam@160	119 return false;
cannam@160	120 }
cannam@160	121 else if (lower >= upper) // lower == upper NOT useful.
cannam@160	122 { // lower >= upper.
cannam@160	123 *result = policies::raise_domain_error<RealType>(
cannam@160	124 function,
cannam@160	125 "lower parameter is %1%, but must be less than upper!", lower, pol);
cannam@160	126 return false;
cannam@160	127 }
cannam@160	128 else
cannam@160	129 { // Check lower <= mode <= upper.
cannam@160	130 if (mode < lower)
cannam@160	131 {
cannam@160	132 *result = policies::raise_domain_error<RealType>(
cannam@160	133 function,
cannam@160	134 "mode parameter is %1%, but must be >= than lower!", lower, pol);
cannam@160	135 return false;
cannam@160	136 }
cannam@160	137 if (mode > upper)
cannam@160	138 {
cannam@160	139 *result = policies::raise_domain_error<RealType>(
cannam@160	140 function,
cannam@160	141 "mode parameter is %1%, but must be <= than upper!", upper, pol);
cannam@160	142 return false;
cannam@160	143 }
cannam@160	144 return true; // All OK.
cannam@160	145 }
cannam@160	146 } // bool check_triangular
cannam@160	147 } // namespace detail
cannam@160	148
cannam@160	149 template <class RealType = double, class Policy = policies::policy<> >
cannam@160	150 class triangular_distribution
cannam@160	151 {
cannam@160	152 public:
cannam@160	153 typedef RealType value_type;
cannam@160	154 typedef Policy policy_type;
cannam@160	155
cannam@160	156 triangular_distribution(RealType l_lower = -1, RealType l_mode = 0, RealType l_upper = 1)
cannam@160	157 : m_lower(l_lower), m_mode(l_mode), m_upper(l_upper) // Constructor.
cannam@160	158 { // Evans says 'standard triangular' is lower 0, mode 1/2, upper 1,
cannam@160	159 // has median sqrt(c/2) for c <=1/2 and 1 - sqrt(1-c)/2 for c >= 1/2
cannam@160	160 // But this -1, 0, 1 is more useful in most applications to approximate normal distribution,
cannam@160	161 // where the central value is the most likely and deviations either side equally likely.
cannam@160	162 RealType result;
cannam@160	163 detail::check_triangular("boost::math::triangular_distribution<%1%>::triangular_distribution",l_lower, l_mode, l_upper, &result, Policy());
cannam@160	164 }
cannam@160	165 // Accessor functions.
cannam@160	166 RealType lower()const
cannam@160	167 {
cannam@160	168 return m_lower;
cannam@160	169 }
cannam@160	170 RealType mode()const
cannam@160	171 {
cannam@160	172 return m_mode;
cannam@160	173 }
cannam@160	174 RealType upper()const
cannam@160	175 {
cannam@160	176 return m_upper;
cannam@160	177 }
cannam@160	178 private:
cannam@160	179 // Data members:
cannam@160	180 RealType m_lower; // distribution lower aka a
cannam@160	181 RealType m_mode; // distribution mode aka c
cannam@160	182 RealType m_upper; // distribution upper aka b
cannam@160	183 }; // class triangular_distribution
cannam@160	184
cannam@160	185 typedef triangular_distribution<double> triangular;
cannam@160	186
cannam@160	187 template <class RealType, class Policy>
cannam@160	188 inline const std::pair<RealType, RealType> range(const triangular_distribution<RealType, Policy>& /* dist */)
cannam@160	189 { // Range of permissible values for random variable x.
cannam@160	190 using boost::math::tools::max_value;
cannam@160	191 return std::pair<RealType, RealType>(-max_value<RealType>(), max_value<RealType>());
cannam@160	192 }
cannam@160	193
cannam@160	194 template <class RealType, class Policy>
cannam@160	195 inline const std::pair<RealType, RealType> support(const triangular_distribution<RealType, Policy>& dist)
cannam@160	196 { // Range of supported values for random variable x.
cannam@160	197 // This is range where cdf rises from 0 to 1, and outside it, the pdf is zero.
cannam@160	198 return std::pair<RealType, RealType>(dist.lower(), dist.upper());
cannam@160	199 }
cannam@160	200
cannam@160	201 template <class RealType, class Policy>
cannam@160	202 RealType pdf(const triangular_distribution<RealType, Policy>& dist, const RealType& x)
cannam@160	203 {
cannam@160	204 static const char* function = "boost::math::pdf(const triangular_distribution<%1%>&, %1%)";
cannam@160	205 RealType lower = dist.lower();
cannam@160	206 RealType mode = dist.mode();
cannam@160	207 RealType upper = dist.upper();
cannam@160	208 RealType result = 0; // of checks.
cannam@160	209 if(false == detail::check_triangular(function, lower, mode, upper, &result, Policy()))
cannam@160	210 {
cannam@160	211 return result;
cannam@160	212 }
cannam@160	213 if(false == detail::check_triangular_x(function, x, &result, Policy()))
cannam@160	214 {
cannam@160	215 return result;
cannam@160	216 }
cannam@160	217 if((x < lower) \|\| (x > upper))
cannam@160	218 {
cannam@160	219 return 0;
cannam@160	220 }
cannam@160	221 if (x == lower)
cannam@160	222 { // (mode - lower) == 0 which would lead to divide by zero!
cannam@160	223 return (mode == lower) ? 2 / (upper - lower) : RealType(0);
cannam@160	224 }
cannam@160	225 else if (x == upper)
cannam@160	226 {
cannam@160	227 return (mode == upper) ? 2 / (upper - lower) : RealType(0);
cannam@160	228 }
cannam@160	229 else if (x <= mode)
cannam@160	230 {
cannam@160	231 return 2 * (x - lower) / ((upper - lower) * (mode - lower));
cannam@160	232 }
cannam@160	233 else
cannam@160	234 { // (x > mode)
cannam@160	235 return 2 * (upper - x) / ((upper - lower) * (upper - mode));
cannam@160	236 }
cannam@160	237 } // RealType pdf(const triangular_distribution<RealType, Policy>& dist, const RealType& x)
cannam@160	238
cannam@160	239 template <class RealType, class Policy>
cannam@160	240 inline RealType cdf(const triangular_distribution<RealType, Policy>& dist, const RealType& x)
cannam@160	241 {
cannam@160	242 static const char* function = "boost::math::cdf(const triangular_distribution<%1%>&, %1%)";
cannam@160	243 RealType lower = dist.lower();
cannam@160	244 RealType mode = dist.mode();
cannam@160	245 RealType upper = dist.upper();
cannam@160	246 RealType result = 0; // of checks.
cannam@160	247 if(false == detail::check_triangular(function, lower, mode, upper, &result, Policy()))
cannam@160	248 {
cannam@160	249 return result;
cannam@160	250 }
cannam@160	251 if(false == detail::check_triangular_x(function, x, &result, Policy()))
cannam@160	252 {
cannam@160	253 return result;
cannam@160	254 }
cannam@160	255 if((x <= lower))
cannam@160	256 {
cannam@160	257 return 0;
cannam@160	258 }
cannam@160	259 if (x >= upper)
cannam@160	260 {
cannam@160	261 return 1;
cannam@160	262 }
cannam@160	263 // else lower < x < upper
cannam@160	264 if (x <= mode)
cannam@160	265 {
cannam@160	266 return ((x - lower) * (x - lower)) / ((upper - lower) * (mode - lower));
cannam@160	267 }
cannam@160	268 else
cannam@160	269 {
cannam@160	270 return 1 - (upper - x) * (upper - x) / ((upper - lower) * (upper - mode));
cannam@160	271 }
cannam@160	272 } // RealType cdf(const triangular_distribution<RealType, Policy>& dist, const RealType& x)
cannam@160	273
cannam@160	274 template <class RealType, class Policy>
cannam@160	275 RealType quantile(const triangular_distribution<RealType, Policy>& dist, const RealType& p)
cannam@160	276 {
cannam@160	277 BOOST_MATH_STD_USING // for ADL of std functions (sqrt).
cannam@160	278 static const char* function = "boost::math::quantile(const triangular_distribution<%1%>&, %1%)";
cannam@160	279 RealType lower = dist.lower();
cannam@160	280 RealType mode = dist.mode();
cannam@160	281 RealType upper = dist.upper();
cannam@160	282 RealType result = 0; // of checks
cannam@160	283 if(false == detail::check_triangular(function,lower, mode, upper, &result, Policy()))
cannam@160	284 {
cannam@160	285 return result;
cannam@160	286 }
cannam@160	287 if(false == detail::check_probability(function, p, &result, Policy()))
cannam@160	288 {
cannam@160	289 return result;
cannam@160	290 }
cannam@160	291 if(p == 0)
cannam@160	292 {
cannam@160	293 return lower;
cannam@160	294 }
cannam@160	295 if(p == 1)
cannam@160	296 {
cannam@160	297 return upper;
cannam@160	298 }
cannam@160	299 RealType p0 = (mode - lower) / (upper - lower);
cannam@160	300 RealType q = 1 - p;
cannam@160	301 if (p < p0)
cannam@160	302 {
cannam@160	303 result = sqrt((upper - lower) * (mode - lower) * p) + lower;
cannam@160	304 }
cannam@160	305 else if (p == p0)
cannam@160	306 {
cannam@160	307 result = mode;
cannam@160	308 }
cannam@160	309 else // p > p0
cannam@160	310 {
cannam@160	311 result = upper - sqrt((upper - lower) * (upper - mode) * q);
cannam@160	312 }
cannam@160	313 return result;
cannam@160	314
cannam@160	315 } // RealType quantile(const triangular_distribution<RealType, Policy>& dist, const RealType& q)
cannam@160	316
cannam@160	317 template <class RealType, class Policy>
cannam@160	318 RealType cdf(const complemented2_type<triangular_distribution<RealType, Policy>, RealType>& c)
cannam@160	319 {
cannam@160	320 static const char* function = "boost::math::cdf(const triangular_distribution<%1%>&, %1%)";
cannam@160	321 RealType lower = c.dist.lower();
cannam@160	322 RealType mode = c.dist.mode();
cannam@160	323 RealType upper = c.dist.upper();
cannam@160	324 RealType x = c.param;
cannam@160	325 RealType result = 0; // of checks.
cannam@160	326 if(false == detail::check_triangular(function, lower, mode, upper, &result, Policy()))
cannam@160	327 {
cannam@160	328 return result;
cannam@160	329 }
cannam@160	330 if(false == detail::check_triangular_x(function, x, &result, Policy()))
cannam@160	331 {
cannam@160	332 return result;
cannam@160	333 }
cannam@160	334 if (x <= lower)
cannam@160	335 {
cannam@160	336 return 1;
cannam@160	337 }
cannam@160	338 if (x >= upper)
cannam@160	339 {
cannam@160	340 return 0;
cannam@160	341 }
cannam@160	342 if (x <= mode)
cannam@160	343 {
cannam@160	344 return 1 - ((x - lower) * (x - lower)) / ((upper - lower) * (mode - lower));
cannam@160	345 }
cannam@160	346 else
cannam@160	347 {
cannam@160	348 return (upper - x) * (upper - x) / ((upper - lower) * (upper - mode));
cannam@160	349 }
cannam@160	350 } // RealType cdf(const complemented2_type<triangular_distribution<RealType, Policy>, RealType>& c)
cannam@160	351
cannam@160	352 template <class RealType, class Policy>
cannam@160	353 RealType quantile(const complemented2_type<triangular_distribution<RealType, Policy>, RealType>& c)
cannam@160	354 {
cannam@160	355 BOOST_MATH_STD_USING // Aid ADL for sqrt.
cannam@160	356 static const char* function = "boost::math::quantile(const triangular_distribution<%1%>&, %1%)";
cannam@160	357 RealType l = c.dist.lower();
cannam@160	358 RealType m = c.dist.mode();
cannam@160	359 RealType u = c.dist.upper();
cannam@160	360 RealType q = c.param; // probability 0 to 1.
cannam@160	361 RealType result = 0; // of checks.
cannam@160	362 if(false == detail::check_triangular(function, l, m, u, &result, Policy()))
cannam@160	363 {
cannam@160	364 return result;
cannam@160	365 }
cannam@160	366 if(false == detail::check_probability(function, q, &result, Policy()))
cannam@160	367 {
cannam@160	368 return result;
cannam@160	369 }
cannam@160	370 if(q == 0)
cannam@160	371 {
cannam@160	372 return u;
cannam@160	373 }
cannam@160	374 if(q == 1)
cannam@160	375 {
cannam@160	376 return l;
cannam@160	377 }
cannam@160	378 RealType lower = c.dist.lower();
cannam@160	379 RealType mode = c.dist.mode();
cannam@160	380 RealType upper = c.dist.upper();
cannam@160	381
cannam@160	382 RealType p = 1 - q;
cannam@160	383 RealType p0 = (mode - lower) / (upper - lower);
cannam@160	384 if(p < p0)
cannam@160	385 {
cannam@160	386 RealType s = (upper - lower) * (mode - lower);
cannam@160	387 s *= p;
cannam@160	388 result = sqrt((upper - lower) * (mode - lower) * p) + lower;
cannam@160	389 }
cannam@160	390 else if (p == p0)
cannam@160	391 {
cannam@160	392 result = mode;
cannam@160	393 }
cannam@160	394 else // p > p0
cannam@160	395 {
cannam@160	396 result = upper - sqrt((upper - lower) * (upper - mode) * q);
cannam@160	397 }
cannam@160	398 return result;
cannam@160	399 } // RealType quantile(const complemented2_type<triangular_distribution<RealType, Policy>, RealType>& c)
cannam@160	400
cannam@160	401 template <class RealType, class Policy>
cannam@160	402 inline RealType mean(const triangular_distribution<RealType, Policy>& dist)
cannam@160	403 {
cannam@160	404 static const char* function = "boost::math::mean(const triangular_distribution<%1%>&)";
cannam@160	405 RealType lower = dist.lower();
cannam@160	406 RealType mode = dist.mode();
cannam@160	407 RealType upper = dist.upper();
cannam@160	408 RealType result = 0; // of checks.
cannam@160	409 if(false == detail::check_triangular(function, lower, mode, upper, &result, Policy()))
cannam@160	410 {
cannam@160	411 return result;
cannam@160	412 }
cannam@160	413 return (lower + upper + mode) / 3;
cannam@160	414 } // RealType mean(const triangular_distribution<RealType, Policy>& dist)
cannam@160	415
cannam@160	416
cannam@160	417 template <class RealType, class Policy>
cannam@160	418 inline RealType variance(const triangular_distribution<RealType, Policy>& dist)
cannam@160	419 {
cannam@160	420 static const char* function = "boost::math::mean(const triangular_distribution<%1%>&)";
cannam@160	421 RealType lower = dist.lower();
cannam@160	422 RealType mode = dist.mode();
cannam@160	423 RealType upper = dist.upper();
cannam@160	424 RealType result = 0; // of checks.
cannam@160	425 if(false == detail::check_triangular(function, lower, mode, upper, &result, Policy()))
cannam@160	426 {
cannam@160	427 return result;
cannam@160	428 }
cannam@160	429 return (lower * lower + upper * upper + mode * mode - lower * upper - lower * mode - upper * mode) / 18;
cannam@160	430 } // RealType variance(const triangular_distribution<RealType, Policy>& dist)
cannam@160	431
cannam@160	432 template <class RealType, class Policy>
cannam@160	433 inline RealType mode(const triangular_distribution<RealType, Policy>& dist)
cannam@160	434 {
cannam@160	435 static const char* function = "boost::math::mode(const triangular_distribution<%1%>&)";
cannam@160	436 RealType mode = dist.mode();
cannam@160	437 RealType result = 0; // of checks.
cannam@160	438 if(false == detail::check_triangular_mode(function, mode, &result, Policy()))
cannam@160	439 { // This should never happen!
cannam@160	440 return result;
cannam@160	441 }
cannam@160	442 return mode;
cannam@160	443 } // RealType mode
cannam@160	444
cannam@160	445 template <class RealType, class Policy>
cannam@160	446 inline RealType median(const triangular_distribution<RealType, Policy>& dist)
cannam@160	447 {
cannam@160	448 BOOST_MATH_STD_USING // ADL of std functions.
cannam@160	449 static const char* function = "boost::math::median(const triangular_distribution<%1%>&)";
cannam@160	450 RealType mode = dist.mode();
cannam@160	451 RealType result = 0; // of checks.
cannam@160	452 if(false == detail::check_triangular_mode(function, mode, &result, Policy()))
cannam@160	453 { // This should never happen!
cannam@160	454 return result;
cannam@160	455 }
cannam@160	456 RealType lower = dist.lower();
cannam@160	457 RealType upper = dist.upper();
cannam@160	458 if (mode >= (upper + lower) / 2)
cannam@160	459 {
cannam@160	460 return lower + sqrt((upper - lower) * (mode - lower)) / constants::root_two<RealType>();
cannam@160	461 }
cannam@160	462 else
cannam@160	463 {
cannam@160	464 return upper - sqrt((upper - lower) * (upper - mode)) / constants::root_two<RealType>();
cannam@160	465 }
cannam@160	466 } // RealType mode
cannam@160	467
cannam@160	468 template <class RealType, class Policy>
cannam@160	469 inline RealType skewness(const triangular_distribution<RealType, Policy>& dist)
cannam@160	470 {
cannam@160	471 BOOST_MATH_STD_USING // for ADL of std functions
cannam@160	472 using namespace boost::math::constants; // for root_two
cannam@160	473 static const char* function = "boost::math::skewness(const triangular_distribution<%1%>&)";
cannam@160	474
cannam@160	475 RealType lower = dist.lower();
cannam@160	476 RealType mode = dist.mode();
cannam@160	477 RealType upper = dist.upper();
cannam@160	478 RealType result = 0; // of checks.
cannam@160	479 if(false == boost::math::detail::check_triangular(function,lower, mode, upper, &result, Policy()))
cannam@160	480 {
cannam@160	481 return result;
cannam@160	482 }
cannam@160	483 return root_two<RealType>() * (lower + upper - 2 * mode) * (2 * lower - upper - mode) * (lower - 2 * upper + mode) /
cannam@160	484 (5 * pow((lower * lower + upper * upper + mode * mode
cannam@160	485 - lower * upper - lower * mode - upper * mode), RealType(3)/RealType(2)));
cannam@160	486 // #11768: Skewness formula for triangular distribution is incorrect - corrected 29 Oct 2015 for release 1.61.
cannam@160	487 } // RealType skewness(const triangular_distribution<RealType, Policy>& dist)
cannam@160	488
cannam@160	489 template <class RealType, class Policy>
cannam@160	490 inline RealType kurtosis(const triangular_distribution<RealType, Policy>& dist)
cannam@160	491 { // These checks may be belt and braces as should have been checked on construction?
cannam@160	492 static const char* function = "boost::math::kurtosis(const triangular_distribution<%1%>&)";
cannam@160	493 RealType lower = dist.lower();
cannam@160	494 RealType upper = dist.upper();
cannam@160	495 RealType mode = dist.mode();
cannam@160	496 RealType result = 0; // of checks.
cannam@160	497 if(false == detail::check_triangular(function,lower, mode, upper, &result, Policy()))
cannam@160	498 {
cannam@160	499 return result;
cannam@160	500 }
cannam@160	501 return static_cast<RealType>(12)/5; // 12/5 = 2.4;
cannam@160	502 } // RealType kurtosis_excess(const triangular_distribution<RealType, Policy>& dist)
cannam@160	503
cannam@160	504 template <class RealType, class Policy>
cannam@160	505 inline RealType kurtosis_excess(const triangular_distribution<RealType, Policy>& dist)
cannam@160	506 { // These checks may be belt and braces as should have been checked on construction?
cannam@160	507 static const char* function = "boost::math::kurtosis_excess(const triangular_distribution<%1%>&)";
cannam@160	508 RealType lower = dist.lower();
cannam@160	509 RealType upper = dist.upper();
cannam@160	510 RealType mode = dist.mode();
cannam@160	511 RealType result = 0; // of checks.
cannam@160	512 if(false == detail::check_triangular(function,lower, mode, upper, &result, Policy()))
cannam@160	513 {
cannam@160	514 return result;
cannam@160	515 }
cannam@160	516 return static_cast<RealType>(-3)/5; // - 3/5 = -0.6
cannam@160	517 // Assuming mathworld really means kurtosis excess? Wikipedia now corrected to match this.
cannam@160	518 }
cannam@160	519
cannam@160	520 } // namespace math
cannam@160	521 } // namespace boost
cannam@160	522
cannam@160	523 // This include must be at the end, after the accessors
cannam@160	524 // for this distribution have been defined, in order to
cannam@160	525 // keep compilers that support two-phase lookup happy.
cannam@160	526 #include <boost/math/distributions/detail/derived_accessors.hpp>
cannam@160	527
cannam@160	528 #endif // BOOST_STATS_TRIANGULAR_HPP
cannam@160	529
cannam@160	530
cannam@160	531

Mercurial > hg > sv-dependency-builds

annotate any/include/boost/math/distributions/triangular.hpp @ 160:cff480c41f97