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- // Copyright (C) 2005, 2007 International Business Machines and others.
- // All Rights Reserved.
- // This code is published under the Eclipse Public License.
- //
- // $Id: MittelmannBndryCntrlDiri3Dsin.hpp 2005 2011-06-06 12:55:16Z stefan $
- //
- // Authors: Andreas Waechter IBM 2005-10-18
- // Olaf Schenk (Univ. of Basel) 2007-08-01
- // modified MittelmannBndryCntrlDiri.hpp for 3-dim problem
- #ifndef __MITTELMANNBNDRYCNTRLDIRI3DSIN_HPP__
- #define __MITTELMANNBNDRYCNTRLDIRI3DSIN_HPP__
- #include "RegisteredTNLP.hpp"
- #ifdef HAVE_CONFIG_H
- #include "config.h"
- #else
- #include "configall_system.h"
- #endif
- #ifdef HAVE_CMATH
- # include <cmath>
- #else
- # ifdef HAVE_MATH_H
- # include <math.h>
- # else
- # error "don't have header file for math"
- # endif
- #endif
- #ifdef HAVE_CSTDIO
- # include <cstdio>
- #else
- # ifdef HAVE_STDIO_H
- # include <stdio.h>
- # else
- # error "don't have header file for stdio"
- # endif
- #endif
- using namespace Ipopt;
- /** Base class for boundary control problems with Dirichlet boundary
- * conditions, as formulated by Hans Mittelmann as Examples 1-4 in
- * "Optimization Techniques for Solving Elliptic Control Problems
- * with Control and State Constraints. Part 2: Boundary Control"
- *
- * Here, the control variables are identical to the values of y on
- * the boundary, and therefore we don't need any explicit
- * optimization variables for u.
- */
- class MittelmannBndryCntrlDiriBase3Dsin : public RegisteredTNLP
- {
- public:
- /** Constructor. */
- MittelmannBndryCntrlDiriBase3Dsin();
- /** Default destructor */
- virtual ~MittelmannBndryCntrlDiriBase3Dsin();
- /**@name Overloaded from TNLP */
- //@{
- /** Method to return some info about the nlp */
- virtual bool get_nlp_info(Index& n, Index& m, Index& nnz_jac_g,
- Index& nnz_h_lag, IndexStyleEnum& index_style);
- /** Method to return the bounds for my problem */
- virtual bool get_bounds_info(Index n, Number* x_l, Number* x_u,
- Index m, Number* g_l, Number* g_u);
- /** Method to return the starting point for the algorithm */
- virtual bool get_starting_point(Index n, bool init_x, Number* x,
- bool init_z, Number* z_L, Number* z_U,
- Index m, bool init_lambda,
- Number* lambda);
- /** Method to return the objective value */
- virtual bool eval_f(Index n, const Number* x, bool new_x, Number& obj_value);
- /** Method to return the gradient of the objective */
- virtual bool eval_grad_f(Index n, const Number* x, bool new_x, Number* grad_f);
- /** Method to return the constraint residuals */
- virtual bool eval_g(Index n, const Number* x, bool new_x, Index m, Number* g);
- /** Method to return:
- * 1) The structure of the jacobian (if "values" is NULL)
- * 2) The values of the jacobian (if "values" is not NULL)
- */
- virtual bool eval_jac_g(Index n, const Number* x, bool new_x,
- Index m, Index nele_jac, Index* iRow, Index *jCol,
- Number* values);
- /** Method to return:
- * 1) The structure of the hessian of the lagrangian (if "values" is NULL)
- * 2) The values of the hessian of the lagrangian (if "values" is not NULL)
- */
- virtual bool eval_h(Index n, const Number* x, bool new_x,
- Number obj_factor, Index m, const Number* lambda,
- bool new_lambda, Index nele_hess, Index* iRow,
- Index* jCol, Number* values);
- //@}
- /** Method for returning scaling parameters */
- virtual bool get_scaling_parameters(Number& obj_scaling,
- bool& use_x_scaling, Index n,
- Number* x_scaling,
- bool& use_g_scaling, Index m,
- Number* g_scaling);
- /** @name Solution Methods */
- //@{
- /** This method is called after the optimization, and could write an
- * output file with the optimal profiles */
- virtual void finalize_solution(SolverReturn status,
- Index n, const Number* x, const Number* z_L, const Number* z_U,
- Index m, const Number* g, const Number* lambda,
- Number obj_valu,
- const IpoptData* ip_data,
- IpoptCalculatedQuantities* ip_cq);
- //@}
- protected:
- /** Method for setting the internal parameters that define the
- * problem. It must be called by the child class in its
- * implementation of InitializeParameters. */
- void SetBaseParameters(Index N, Number alpha, Number lb_y,
- Number ub_y, Number lb_u, Number ub_u,
- Number d_const);
- /**@name Functions that defines a particular instance. */
- //@{
- /** Target profile function for y */
- virtual Number y_d_cont(Number x1, Number x2, Number x3) const =0;
- //@}
- private:
- /**@name Methods to block default compiler methods.
- * The compiler automatically generates the following three methods.
- * Since the default compiler implementation is generally not what
- * you want (for all but the most simple classes), we usually
- * put the declarations of these methods in the private section
- * and never implement them. This prevents the compiler from
- * implementing an incorrect "default" behavior without us
- * knowing. (See Scott Meyers book, "Effective C++")
- *
- */
- //@{
- MittelmannBndryCntrlDiriBase3Dsin(const MittelmannBndryCntrlDiriBase3Dsin&);
- MittelmannBndryCntrlDiriBase3Dsin& operator=(const MittelmannBndryCntrlDiriBase3Dsin&);
- //@}
- /**@name Problem specification */
- //@{
- /** Number of mesh points in one dimension (excluding boundary) */
- Index N_;
- /** Step size */
- Number h_;
- /** h_ squaredd */
- Number hh_;
- /** overall lower bound on y */
- Number lb_y_;
- /** overall upper bound on y */
- Number ub_y_;
- /** overall lower bound on u */
- Number lb_u_;
- /** overall upper bound on u */
- Number ub_u_;
- /** Constant value of d appearing in elliptical equation */
- Number d_const_;
- /** Weighting parameter for the control target deviation functional
- * in the objective */
- Number alpha_;
- /** Array for the target profile for y */
- Number* y_d_;
- //@}
- /**@name Auxilliary methods */
- //@{
- /** Translation of mesh point indices to NLP variable indices for
- * y(x_ijk) */
- inline Index y_index(Index i, Index j, Index k) const
- {
- return k + (N_+2)*j + (N_+2)*(N_+2)*i;
- }
- /** Translation of interior mesh point indices to the corresponding
- * PDE constraint number */
- inline Index pde_index(Index i, Index j, Index k) const
- {
- return (k-1) + N_*(j-1) + N_*N_*(i-1);
- }
- /** Compute the grid coordinate for given index in x1 direction */
- inline Number x1_grid(Index i) const
- {
- return h_*(Number)i;
- }
- /** Compute the grid coordinate for given index in x2 direction */
- inline Number x2_grid(Index i) const
- {
- return h_*(Number)i;
- }
- /** Compute the grid coordinate for given index in x3 direction */
- inline Number x3_grid(Index i) const
- {
- return h_*(Number)i;
- }
- //@}
- };
- /** Class implementating Example 1 */
- class MittelmannBndryCntrlDiri3Dsin : public MittelmannBndryCntrlDiriBase3Dsin
- {
- public:
- MittelmannBndryCntrlDiri3Dsin()
- {}
- virtual ~MittelmannBndryCntrlDiri3Dsin()
- {}
- virtual bool InitializeProblem(Index N)
- {
- if (N<1) {
- printf("N has to be at least 1.");
- return false;
- }
- printf("olaf N %d has to be at least 1.", N);
- Number alpha = 0.1;
- Number lb_y = -1e20;
- Number ub_y = 3.5;
- Number lb_u = 0.;
- Number ub_u = 10.;
- Number d_const = -20.;
- SetBaseParameters(N, alpha, lb_y, ub_y, lb_u, ub_u, d_const);
- return true;
- }
- protected:
- /** Target profile function for y */
- virtual Number y_d_cont(Number x1, Number x2, Number x3) const
- {
- return 3. + 5.*(x1*(x1-1.)*x2*(x2-1.)*x3*(x3-1.));
- }
- private:
- /**@name hide implicitly defined contructors copy operators */
- //@{
- MittelmannBndryCntrlDiri3Dsin(const MittelmannBndryCntrlDiri3Dsin&);
- MittelmannBndryCntrlDiri3Dsin& operator=(const MittelmannBndryCntrlDiri3Dsin&);
- //@}
- };
- #endif
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