boost_1_45_0/libs/math/doc/sf_and_dist/distributions/nag_library.qbk - nest-learning-thermostat/5.0/boost - Git at Google

 [section:nag_library Comparison with C, R, FORTRAN-style Free Functions]

 You are probably familiar with a statistics library that has free functions,
 for example the classic [@http://nag.com/numeric/CL/CLdescription.asp NAG C library]
 and matching [@http://nag.com/numeric/FL/FLdescription.asp NAG FORTRAN Library],
 [@http://office.microsoft.com/en-us/excel/HP052090051033.aspx Microsoft Excel BINOMDIST(number_s,trials,probability_s,cumulative)],
 [@http://www.r-project.org/ R], [@http://www.ptc.com/products/mathcad/mathcad14/mathcad_func_chart.htm MathCAD pbinom]
 and many others.

 If so, you may find 'Distributions as Objects' unfamiliar, if not alien.

 However, *do not panic*, both definition and usage are not really very different.

 A very simple example of generating the same values as the
 [@http://nag.com/numeric/CL/CLdescription.asp NAG C library]
 for the binomial distribution follows.
 (If you find slightly different values, the Boost C++ version, using double or better,
 is very likely to be the more accurate.
 Of course, accuracy is not usually a concern for most applications of this function).

 The [@http://www.nag.co.uk/numeric/cl/manual/pdf/G01/g01bjc.pdf NAG function specification] is

   void nag_binomial_dist(Integer n, double p, Integer k,
   double *plek, double *pgtk, double *peqk, NagError *fail)

 and is called

   g01bjc(n, p, k, &plek, &pgtk, &peqk, NAGERR_DEFAULT);

 The equivalent using this Boost C++ library is:

   using namespace boost::math;  // Using declaration avoids very long names.
   binomial my_dist(4, 0.5); // c.f. NAG n = 4, p = 0.5

 and values can be output thus:

   cout
     << my_dist.trials() << " "             // Echo the NAG input n = 4 trials.
     << my_dist.success_fraction() << " "   // Echo the NAG input p = 0.5
     << cdf(my_dist, 2) << "  "             // NAG plek with k = 2
     << cdf(complement(my_dist, 2)) << "  " // NAG pgtk with k = 2
     << pdf(my_dist, 2) << endl;            // NAG peqk with k = 2

 `cdf(dist, k)` is equivalent to NAG library `plek`, lower tail probability of <= k

 `cdf(complement(dist, k))` is equivalent to NAG library `pgtk`, upper tail probability of > k

 `pdf(dist, k)` is equivalent to NAG library `peqk`, point probability of == k

 See [@../../../example/binomial_example_nag.cpp binomial_example_nag.cpp] for details.

 [endsect] [/section:nag_library Comparison with C, R, FORTRAN-style Free Functions]

 [/
   Copyright 2006 John Maddock and Paul A. Bristow.
   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).
 ]
	[section:nag_library Comparison with C, R, FORTRAN-style Free Functions]

	You are probably familiar with a statistics library that has free functions,
	for example the classic [@http://nag.com/numeric/CL/CLdescription.asp NAG C library]
	and matching [@http://nag.com/numeric/FL/FLdescription.asp NAG FORTRAN Library],
	[@http://office.microsoft.com/en-us/excel/HP052090051033.aspx Microsoft Excel BINOMDIST(number_s,trials,probability_s,cumulative)],
	[@http://www.r-project.org/ R], [@http://www.ptc.com/products/mathcad/mathcad14/mathcad_func_chart.htm MathCAD pbinom]
	and many others.

	If so, you may find 'Distributions as Objects' unfamiliar, if not alien.

	However, do not panic, both definition and usage are not really very different.

	A very simple example of generating the same values as the
	[@http://nag.com/numeric/CL/CLdescription.asp NAG C library]
	for the binomial distribution follows.
	(If you find slightly different values, the Boost C++ version, using double or better,
	is very likely to be the more accurate.
	Of course, accuracy is not usually a concern for most applications of this function).

	The [@http://www.nag.co.uk/numeric/cl/manual/pdf/G01/g01bjc.pdf NAG function specification] is

	void nag_binomial_dist(Integer n, double p, Integer k,
	double plek, double pgtk, double peqk, NagError fail)

	and is called

	g01bjc(n, p, k, &plek, &pgtk, &peqk, NAGERR_DEFAULT);

	The equivalent using this Boost C++ library is:

	using namespace boost::math; // Using declaration avoids very long names.
	binomial my_dist(4, 0.5); // c.f. NAG n = 4, p = 0.5

	and values can be output thus:

	cout
	<< my_dist.trials() << " " // Echo the NAG input n = 4 trials.
	<< my_dist.success_fraction() << " " // Echo the NAG input p = 0.5
	<< cdf(my_dist, 2) << " " // NAG plek with k = 2
	<< cdf(complement(my_dist, 2)) << " " // NAG pgtk with k = 2
	<< pdf(my_dist, 2) << endl; // NAG peqk with k = 2

	`cdf(dist, k)` is equivalent to NAG library `plek`, lower tail probability of <= k

	`cdf(complement(dist, k))` is equivalent to NAG library `pgtk`, upper tail probability of > k

	`pdf(dist, k)` is equivalent to NAG library `peqk`, point probability of == k

	See [@../../../example/binomial_example_nag.cpp binomial_example_nag.cpp] for details.

	[endsect] [/section:nag_library Comparison with C, R, FORTRAN-style Free Functions]

	[/
	Copyright 2006 John Maddock and Paul A. Bristow.
	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).
	]