Ipopt 3.11.9
hs071_nlp.hpp
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1// Copyright (C) 2005, 2007 International Business Machines and others.
2// All Rights Reserved.
3// This code is published under the Eclipse Public License.
4//
5// $Id: hs071_nlp.hpp 1861 2010-12-21 21:34:47Z andreasw $
6//
7// Authors: Carl Laird, Andreas Waechter IBM 2005-08-09
8
9#ifndef __HS071_NLP_HPP__
10#define __HS071_NLP_HPP__
11
12#include "IpTNLP.hpp"
13
14using namespace Ipopt;
15
37class HS071_NLP : public TNLP
38{
39public:
41 HS071_NLP();
42
44 virtual ~HS071_NLP();
45
49 virtual bool get_nlp_info(Index& n, Index& m, Index& nnz_jac_g,
50 Index& nnz_h_lag, IndexStyleEnum& index_style);
51
53 virtual bool get_bounds_info(Index n, Number* x_l, Number* x_u,
54 Index m, Number* g_l, Number* g_u);
55
57 virtual bool get_starting_point(Index n, bool init_x, Number* x,
58 bool init_z, Number* z_L, Number* z_U,
59 Index m, bool init_lambda,
60 Number* lambda);
61
63 virtual bool eval_f(Index n, const Number* x, bool new_x, Number& obj_value);
64
66 virtual bool eval_grad_f(Index n, const Number* x, bool new_x, Number* grad_f);
67
69 virtual bool eval_g(Index n, const Number* x, bool new_x, Index m, Number* g);
70
75 virtual bool eval_jac_g(Index n, const Number* x, bool new_x,
76 Index m, Index nele_jac, Index* iRow, Index *jCol,
77 Number* values);
78
83 virtual bool eval_h(Index n, const Number* x, bool new_x,
84 Number obj_factor, Index m, const Number* lambda,
85 bool new_lambda, Index nele_hess, Index* iRow,
86 Index* jCol, Number* values);
87
89
93 virtual void finalize_solution(SolverReturn status,
94 Index n, const Number* x, const Number* z_L, const Number* z_U,
95 Index m, const Number* g, const Number* lambda,
96 Number obj_value,
97 const IpoptData* ip_data,
98 IpoptCalculatedQuantities* ip_cq);
100
101private:
113 // HS071_NLP();
114 HS071_NLP(const HS071_NLP&);
115 HS071_NLP& operator=(const HS071_NLP&);
117};
118
119
120#endif
x
Number * x
Input: Starting point Output: Optimal solution.
Definition: IpStdCInterface.h:238
nele_hess
Number Number Index Number Number Index Index nele_hess
Number of non-zero elements in Hessian of Lagrangian.
Definition: IpStdCInterface.h:166
g
Number Number * g
Values of constraint at final point (output only - ignored if set to NULL)
Definition: IpStdCInterface.h:240
nele_jac
Number Number Index Number Number Index nele_jac
Number of non-zero elements in constraint Jacobian.
Definition: IpStdCInterface.h:164
m
Number Number Index m
Number of constraints.
Definition: IpStdCInterface.h:146
index_style
Number Number Index Number Number Index Index Index index_style
indexing style for iRow & jCol, 0 for C style, 1 for Fortran style
Definition: IpStdCInterface.h:168
HS071_NLP
C++ Example NLP for interfacing a problem with IPOPT.
Definition: hs071_nlp.hpp:38
HS071_NLP::eval_g
virtual bool eval_g(Index n, const Number *x, bool new_x, Index m, Number *g)
Method to return the constraint residuals.
HS071_NLP::HS071_NLP
HS071_NLP(const HS071_NLP &)
HS071_NLP::get_nlp_info
virtual bool get_nlp_info(Index &n, Index &m, Index &nnz_jac_g, Index &nnz_h_lag, IndexStyleEnum &index_style)
Method to return some info about the nlp.
HS071_NLP::eval_jac_g
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 jacobian (if "values" is NULL) 2) The values of the jacobia...
HS071_NLP::HS071_NLP
HS071_NLP()
default constructor
HS071_NLP::get_starting_point
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 starting point for the algorithm.
HS071_NLP::eval_h
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 to return: 1) The structure of the hessian of the lagrangian (if "values" is NULL) 2) The valu...
HS071_NLP::finalize_solution
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_value, const IpoptData *ip_data, IpoptCalculatedQuantities *ip_cq)
This method is called when the algorithm is complete so the TNLP can store/write the solution.
HS071_NLP::get_bounds_info
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 bounds for my problem.
HS071_NLP::eval_grad_f
virtual bool eval_grad_f(Index n, const Number *x, bool new_x, Number *grad_f)
Method to return the gradient of the objective.
HS071_NLP::operator=
HS071_NLP & operator=(const HS071_NLP &)
HS071_NLP::~HS071_NLP
virtual ~HS071_NLP()
default destructor
HS071_NLP::eval_f
virtual bool eval_f(Index n, const Number *x, bool new_x, Number &obj_value)
Method to return the objective value.
Ipopt::IpoptCalculatedQuantities
Class for all IPOPT specific calculated quantities.
Definition: IpIpoptCalculatedQuantities.hpp:82
Ipopt::IpoptData
Class to organize all the data required by the algorithm.
Definition: IpIpoptData.hpp:84
Ipopt::TNLP
Base class for all NLP's that use standard triplet matrix form and dense vectors.
Definition: IpTNLP.hpp:51
Ipopt::TNLP::IndexStyleEnum
IndexStyleEnum
overload this method to return the number of variables and constraints, and the number of non-zeros i...
Definition: IpTNLP.hpp:80
Ipopt::SolverReturn
SolverReturn
enum for the return from the optimize algorithm (obviously we need to add more)
Definition: IpAlgTypes.hpp:22
Ipopt::Index
int Index
Type of all indices of vectors, matrices etc.
Definition: IpTypes.hpp:19
Ipopt::Number
double Number
Type of all numbers.
Definition: IpTypes.hpp:17
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