/usr/include/trilinos/ROL_TruncatedGaussian.hpp is in libtrilinos-rol-dev 12.12.1-5.
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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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// @HEADER
#ifndef ROL_TRUNCATEDGAUSSIAN_HPP
#define ROL_TRUNCATEDGAUSSIAN_HPP
#include "ROL_Distribution.hpp"
#include "ROL_Gaussian.hpp"
#include "Teuchos_RCP.hpp"
#include "Teuchos_ParameterList.hpp"
namespace ROL {
template<class Real>
class TruncatedGaussian : public Distribution<Real> {
private:
Real a_;
Real b_;
Real mean_;
Real sdev_;
Teuchos::RCP<Gaussian<Real> > gauss_;
Real alpha_;
Real beta_;
Real phi_;
Real Z_;
public:
TruncatedGaussian(const Real lo = -1., const Real up = 1.,
const Real mean = 0., const Real sdev = 1.)
: a_((lo < up) ? lo : up), b_((up > lo) ? up : lo),
mean_(mean), sdev_((sdev>0) ? sdev : 1) {
//Real var = sdev_*sdev_;
gauss_ = Teuchos::rcp(new Gaussian<Real>());
alpha_ = (a_-mean_)/sdev_;
beta_ = (b_-mean_)/sdev_;
phi_ = gauss_->evaluateCDF(alpha_);
Z_ = gauss_->evaluateCDF(beta_)-gauss_->evaluateCDF(alpha_);
}
TruncatedGaussian(Teuchos::ParameterList &parlist) {
const Real zero(0), one(1);
Teuchos::ParameterList TGlist
= parlist.sublist("SOL").sublist("Distribution").sublist("Truncated Gaussian");
a_ = TGlist.get("Lower Bound",-one);
b_ = TGlist.get("Upper Bound", one);
Real tmp = a_;
a_ = std::min(a_,b_);
b_ = std::max(b_,tmp);
mean_ = TGlist.get("Mean",zero);
sdev_ = TGlist.get("Standard Deviation",one);
sdev_ = (sdev_ > zero) ? sdev_ : one;
//Real var = sdev_*sdev_;
gauss_ = Teuchos::rcp(new Gaussian<Real>());
alpha_ = (a_-mean_)/sdev_;
beta_ = (b_-mean_)/sdev_;
phi_ = gauss_->evaluateCDF(alpha_);
Z_ = gauss_->evaluateCDF(beta_)-gauss_->evaluateCDF(alpha_);
}
Real evaluatePDF(const Real input) const {
const Real zero(0), xi = (input-mean_)/sdev_;
return ((input <= a_) ? zero : ((input >= b_) ? zero :
gauss_->evaluatePDF(xi)/(sdev_*Z_)));
}
Real evaluateCDF(const Real input) const {
const Real zero(0), one(1), xi = (input-mean_)/sdev_;
return ((input <= a_) ? zero : ((input >= b_) ? one :
(gauss_->evaluateCDF(xi)-phi_)/Z_));
}
Real integrateCDF(const Real input) const {
TEUCHOS_TEST_FOR_EXCEPTION( true, std::invalid_argument,
">>> ERROR (ROL::TruncatedGaussian): Truncated Gaussian integrateCDF not implemented!");
//return ((input < 0.5*(a_+b_)) ? 0.0 : input - 0.5*(a_+b_));
}
Real invertCDF(const Real input) const {
const Real x = gauss_->invertCDF(Z_*input+phi_);
return sdev_*x + mean_;
}
Real moment(const size_t m) const {
const Real phiA = gauss_->evaluatePDF(alpha_);
const Real phiB = gauss_->evaluatePDF(beta_);
const Real mean = mean_ + sdev_*(phiA-phiB)/Z_;
const Real var = sdev_*sdev_;
const Real one(1);
Real val(0);
switch(m) {
case 1: val = mean; break;
case 2: val = var*(one+(alpha_*phiA-beta_*phiB)/Z_-std::pow((phiA-phiB)/Z_,2))+mean*mean; break;
default:
TEUCHOS_TEST_FOR_EXCEPTION( true, std::invalid_argument,
">>> ERROR (ROL::TruncatedGaussian): Truncated Gaussian moment not implemented for m > 2!");
}
return val;
}
Real lowerBound(void) const {
return a_;
}
Real upperBound(void) const {
return b_;
}
void test(std::ostream &outStream = std::cout ) const {
size_t size = 5;
std::vector<Real> X(size,0);
std::vector<int> T(size,0);
const Real four(4);
X[0] = a_-four*(Real)rand()/(Real)RAND_MAX;
T[0] = 0;
X[1] = a_;
T[1] = 1;
X[2] = (b_-a_)*(Real)rand()/(Real)RAND_MAX + a_;
T[2] = 0;
X[3] = b_;
T[3] = 1;
X[4] = b_+four*(Real)rand()/(Real)RAND_MAX;
T[4] = 0;
Distribution<Real>::test(X,T,outStream);
}
};
}
#endif
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