/usr/include/trilinos/ROL_Minimax3.hpp is in libtrilinos-rol-dev 12.12.1-5.
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// ************************************************************************
//
// Rapid Optimization Library (ROL) Package
// Copyright (2014) Sandia Corporation
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#ifndef ROL_MINIMAX3_HPP
#define ROL_MINIMAX3_HPP
#include "ROL_Objective.hpp"
#include "ROL_Vector.hpp"
#include "ROL_StdVector.hpp"
#include "Teuchos_RCP.hpp"
namespace ROL {
template<class Real>
class Minimax3 : public Objective<Real> {
typedef std::vector<Real> vector;
typedef Vector<Real> V;
typedef StdVector<Real> SV;
private:
Teuchos::RCP<const vector> getVector( const V& x ) {
using Teuchos::dyn_cast;
return dyn_cast<const SV>(x).getVector();
}
Teuchos::RCP<vector> getVector( V& x ) {
using Teuchos::dyn_cast;
return dyn_cast<SV>(x).getVector();
}
public:
Minimax3(void) {}
Real value(const Vector<Real> &x, Real &tol) {
using Teuchos::RCP;
RCP<const vector> xp = getVector(x);
Real F = std::pow((*xp)[0],2.0) + std::pow((*xp)[1],2.0) + 2.0*std::pow((*xp)[2],2.0)
+ std::pow((*xp)[3],2.0) - 5.0*(*xp)[0] - 5.0*(*xp)[1] - 21.0*(*xp)[2] + 7.0*(*xp)[3];
Real g2 = -std::pow((*xp)[0],2.0)-std::pow((*xp)[1],2.0)-std::pow((*xp)[2],2.0)-std::pow((*xp)[3],2.0)
-(*xp)[0]+(*xp)[1]-(*xp)[2]+(*xp)[3]+8.0;
Real g3 = -std::pow((*xp)[0],2.0)-2.0*std::pow((*xp)[1],2.0)-std::pow((*xp)[2],2.0)
-2.0*std::pow((*xp)[3],2.0)+(*xp)[0]+(*xp)[3]+10.0;
Real g4 = -std::pow((*xp)[0],2.0)-std::pow((*xp)[1],2.0)-std::pow((*xp)[2],2.0)
-2.0*(*xp)[0]+(*xp)[1]+(*xp)[3]+5.0;
Real a2 = 10.0, a3 = 10.0, a4 = 10.0;
return std::max(F,std::max(F-a2*g2,std::max(F-a3*g3,F-a4*g4)));
}
void gradient(Vector<Real> &g, const Vector<Real> &x, Real &tol) {
using Teuchos::RCP;
RCP<const vector> xp = getVector(x);
RCP<vector> gp = getVector(g);
Real F = std::pow((*xp)[0],2.0) + std::pow((*xp)[1],2.0) + 2.0*std::pow((*xp)[2],2.0)
+ std::pow((*xp)[3],2.0) - 5.0*(*xp)[0] - 5.0*(*xp)[1] - 21.0*(*xp)[2] + 7.0*(*xp)[3];
Real g2 = -std::pow((*xp)[0],2.0)-std::pow((*xp)[1],2.0)-std::pow((*xp)[2],2.0)-std::pow((*xp)[3],2.0)
-(*xp)[0]+(*xp)[1]-(*xp)[2]+(*xp)[3]+8.0;
Real g3 = -std::pow((*xp)[0],2.0)-2.0*std::pow((*xp)[1],2.0)-std::pow((*xp)[2],2.0)
-2.0*std::pow((*xp)[3],2.0)+(*xp)[0]+(*xp)[3]+10.0;
Real g4 = -std::pow((*xp)[0],2.0)-std::pow((*xp)[1],2.0)-std::pow((*xp)[2],2.0)
-2.0*(*xp)[0]+(*xp)[1]+(*xp)[3]+5.0;
Real a2 = 10.0, a3 = 10.0, a4 = 10.0;
(*gp)[0] = 2.0*(*xp)[0] - 5.0;
(*gp)[1] = 2.0*(*xp)[1] - 5.0;
(*gp)[2] = 4.0*(*xp)[2] - 21.0;
(*gp)[3] = 2.0*(*xp)[3] + 7.0;
if ( F-a2*g2 >= std::max(F,std::max(F-a3*g3,F-a4*g4)) ) {
(*gp)[0] += a2*(2.0*(*xp)[0] + 1.0);
(*gp)[1] += a2*(2.0*(*xp)[1] - 1.0);
(*gp)[2] += a2*(2.0*(*xp)[2] + 1.0);
(*gp)[3] += a2*(2.0*(*xp)[3] - 1.0);
}
else if ( F-a3*g3 >= std::max(F,std::max(F-a2*g2,F-a4*g4)) ) {
(*gp)[0] += a2*(2.0*(*xp)[0] - 1.0);
(*gp)[1] += a2*(4.0*(*xp)[1]);
(*gp)[2] += a2*(2.0*(*xp)[2]);
(*gp)[3] += a2*(4.0*(*xp)[3] - 1.0);
}
else if ( F-a4*g4 >= std::max(F,std::max(F-a2*g2,F-a3*g3)) ) {
(*gp)[0] += a2*(2.0*(*xp)[0] + 2.0);
(*gp)[1] += a2*(2.0*(*xp)[1] - 1.0);
(*gp)[2] += a2*(2.0*(*xp)[2]);
(*gp)[3] += a2*(-1.0);
}
}
}; // class Minimax3
} // namespace ROL
#endif
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