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// Rapid Optimization Library (ROL) Package
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#ifndef ROL_NONLINEARLEASTSQUARESOBJECTIVE_H
#define ROL_NONLINEARLEASTSQUARESOBJECTIVE_H
#include "ROL_Objective.hpp"
#include "ROL_EqualityConstraint.hpp"
#include "ROL_Types.hpp"
/** @ingroup func_group
\class ROL::NonlinearLeastSquaresObjective
\brief Provides the interface to evaluate nonlinear least squares objective
functions.
ROL's nonlinear least squares objective function interface constructs the
the nonlinear least squares objective function associated with the equality
constraint \f$c(x)=0\f$. That is,
\f[
J(x) = \langle \mathfrak{R} c(x),c(x) \rangle_{\mathcal{C}^*,\mathcal{C}}
\f]
where \f$c:\mathcal{X}\to\mathcal{C}\f$ and \f$\mathfrak{R}\in\mathcal{L}(
\mathcal{C},\mathcal{C}^*)\f$ denotes the Riesz map from \f$\mathcal{C}\f$
into \f$\mathcal{C}^*\f$.
---
*/
namespace ROL {
template <class Real>
class NonlinearLeastSquaresObjective : public Objective<Real> {
private:
const Teuchos::RCP<EqualityConstraint<Real> > con_;
const bool GaussNewtonHessian_;
Teuchos::RCP<Vector<Real> > c1_, c2_, c1dual_, x_;
public:
/** \brief Constructor.
This function constructs a nonlinear least squares objective function.
@param[in] con is the nonlinear equation to be solved.
@param[in] vec is a constraint space vector used for cloning.
@param[in] GHN is a flag dictating whether or not to use the Gauss-Newton Hessian.
*/
NonlinearLeastSquaresObjective(const Teuchos::RCP<EqualityConstraint<Real> > &con,
const Vector<Real> &optvec,
const Vector<Real> &convec,
const bool GNH = false)
: con_(con), GaussNewtonHessian_(GNH) {
c1_ = convec.clone(); c1dual_ = c1_->dual().clone();
c2_ = convec.clone();
x_ = optvec.dual().clone();
}
void update( const Vector<Real> &x, bool flag = true, int iter = -1 ) {
Real tol = std::sqrt(ROL_EPSILON<Real>());
con_->update(x,flag,iter);
con_->value(*c1_,x,tol);
c1dual_->set(c1_->dual());
}
Real value( const Vector<Real> &x, Real &tol ) {
Real half(0.5);
return half*(c1_->dot(*c1dual_));
}
void gradient( Vector<Real> &g, const Vector<Real> &x, Real &tol ) {
con_->applyAdjointJacobian(g,*c1dual_,x,tol);
}
void hessVec( Vector<Real> &hv, const Vector<Real> &v, const Vector<Real> &x, Real &tol ) {
con_->applyJacobian(*c2_,v,x,tol);
con_->applyAdjointJacobian(hv,c2_->dual(),x,tol);
if ( !GaussNewtonHessian_ ) {
con_->applyAdjointHessian(*x_,*c1dual_,v,x,tol);
hv.plus(*x_);
}
}
// Definitions for parametrized (stochastic) equality constraints
public:
void setParameter(const std::vector<Real> ¶m) {
Objective<Real>::setParameter(param);
con_->setParameter(param);
}
};
} // namespace ROL
#endif
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