/usr/include/trilinos/ROL_Gamma.hpp is in libtrilinos-rol-dev 12.10.1-3.
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// ************************************************************************
//
// Rapid Optimization Library (ROL) Package
// Copyright (2014) Sandia Corporation
//
// Under terms of Contract DE-AC04-94AL85000, there is a non-exclusive
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#ifndef ROL_GAMMA_HPP
#define ROL_GAMMA_HPP
#include "ROL_Distribution.hpp"
#include "Teuchos_ParameterList.hpp"
#include <math.h>
namespace ROL {
template<class Real>
class Gamma : public Distribution<Real> {
private:
Real shape_;
Real scale_;
Real gamma_shape_;
Real coeff_;
Real igamma(const Real s, const Real x) const {
Real sum = 0., term = 1./s;
size_t n = 1;
while ( term != 0. ) {
sum += term;
term *= x/(s+(Real)n);
n++;
}
return std::pow(x,s)*std::exp(-x)*sum;
}
public:
Gamma(const Real shape = 1., const Real scale = 1.)
: shape_((shape > 0.) ? shape : 1.), scale_((scale > 0.) ? scale : 1.) {
gamma_shape_ = tgamma(shape_);
coeff_ = 1./(gamma_shape_*std::pow(scale_,shape_));
}
Gamma(Teuchos::ParameterList &parlist) {
shape_ = parlist.sublist("SOL").sublist("Distribution").sublist("Gamma").get("Shape",1.);
scale_ = parlist.sublist("SOL").sublist("Distribution").sublist("Gamma").get("Scale",1.);
shape_ = (shape_ > 0.) ? shape_ : 1.;
scale_ = (scale_ > 0.) ? scale_ : 1.;
gamma_shape_ = tgamma(shape_);
coeff_ = 1./(gamma_shape_*std::pow(scale_,shape_));
}
Real evaluatePDF(const Real input) const {
return ((input <= 0.) ? 0. : coeff_*std::pow(input,shape_-1.)*std::exp(-input/scale_));
}
Real evaluateCDF(const Real input) const {
return ((input <= 0.) ? 0. : igamma(shape_,input/scale_)/gamma_shape_);
}
Real integrateCDF(const Real input) const {
Real x = input/scale_;
return ((input <= 0.) ? 0. : (x*igamma(shape_,x) - igamma(shape_+1.,x))/scale_);
}
Real invertCDF(const Real input) const {
if ( input <= 0. ) {
return 0.;
}
Real x = input*gamma_shape_;
Real fx = evaluateCDF(x)-input;
Real s = 0., xs = 0., a = 1., tmp = 0.;
for (size_t i = 0; i < 100; i++) {
if ( std::abs(fx) < ROL_EPSILON<Real>() ) { break; }
s = -fx/evaluatePDF(x);
a = 1.0;
xs = x + a*s;
tmp = fx;
fx = evaluateCDF(xs)-input;
while ( std::abs(fx) > (1.0 - 1.e-4*a)*std::abs(tmp) ) {
a *= 0.5;
xs = x + a*s;
fx = evaluateCDF(xs)-input;
}
x = xs;
}
return x;
}
Real moment(const size_t m) const {
if ( m == 1 ) {
return shape_*scale_;
}
if ( m == 2 ) {
return shape_*scale_*scale_*(1. + shape_);
}
return std::pow(scale_,m)*tgamma(shape_+(Real)m)/gamma_shape_;
}
Real lowerBound(void) const {
return 0.;
}
Real upperBound(void) const {
return ROL_INF<Real>();
}
void test(std::ostream &outStream = std::cout ) const {
size_t size = 3;
std::vector<Real> X(size,0.);
std::vector<int> T(size,0);
X[0] = -4.0*(Real)rand()/(Real)RAND_MAX;
T[0] = 0;
X[1] = 0.;
T[1] = 1;
X[2] = 4.0*(Real)rand()/(Real)RAND_MAX;
T[2] = 0;
Distribution<Real>::test(X,T,outStream);
}
};
}
#endif
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