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Ipopt
3.12.12
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Ipopt
3.12.12
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Class implementating Example 8. More...
#include <MittelmannBndryCntrlNeum.hpp>
Inheritance diagram for MittelmannBndryCntrlNeum4:Public Member Functions | |
| MittelmannBndryCntrlNeum4 () | |
| virtual | ~MittelmannBndryCntrlNeum4 () |
| virtual bool | InitializeProblem (Index N) |
| Initialize internal parameters, where N is a parameter determining the problme size. More... | |
| Public Member Functions inherited from MittelmannBndryCntrlNeumBase | |
| MittelmannBndryCntrlNeumBase () | |
| Constructor. More... | |
| virtual | ~MittelmannBndryCntrlNeumBase () |
| Default destructor. More... | |
| 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) |
| Method for returning scaling parameters. More... | |
| 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. More... | |
| 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. More... | |
| 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. More... | |
| virtual bool | eval_f (Index n, const Number *x, bool new_x, Number &obj_value) |
| Method to return the objective value. More... | |
| virtual bool | eval_grad_f (Index n, const Number *x, bool new_x, Number *grad_f) |
| Method to return the gradient of the objective. More... | |
| virtual bool | eval_g (Index n, const Number *x, bool new_x, Index m, Number *g) |
| Method to return the constraint residuals. More... | |
| 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 jacobian (if "values" is not NULL) More... | |
| 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 values of the hessian of the lagrangian (if "values" is not NULL) More... | |
| 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 after the optimization, and could write an output file with the optimal profiles. More... | |
| Public Member Functions inherited from Ipopt::TNLP | |
| DECLARE_STD_EXCEPTION (INVALID_TNLP) | |
| TNLP () | |
| virtual | ~TNLP () |
| Default destructor. More... | |
| virtual void | finalize_metadata (Index n, const StringMetaDataMapType &var_string_md, const IntegerMetaDataMapType &var_integer_md, const NumericMetaDataMapType &var_numeric_md, Index m, const StringMetaDataMapType &con_string_md, const IntegerMetaDataMapType &con_integer_md, const NumericMetaDataMapType &con_numeric_md) |
| This method is called just before finalize_solution. More... | |
| virtual bool | intermediate_callback (AlgorithmMode mode, Index iter, Number obj_value, Number inf_pr, Number inf_du, Number mu, Number d_norm, Number regularization_size, Number alpha_du, Number alpha_pr, Index ls_trials, const IpoptData *ip_data, IpoptCalculatedQuantities *ip_cq) |
| Intermediate Callback method for the user. More... | |
| virtual Index | get_number_of_nonlinear_variables () |
| virtual bool | get_list_of_nonlinear_variables (Index num_nonlin_vars, Index *pos_nonlin_vars) |
| virtual bool | get_var_con_metadata (Index n, StringMetaDataMapType &var_string_md, IntegerMetaDataMapType &var_integer_md, NumericMetaDataMapType &var_numeric_md, Index m, StringMetaDataMapType &con_string_md, IntegerMetaDataMapType &con_integer_md, NumericMetaDataMapType &con_numeric_md) |
| overload this method to return any meta data for the variables and the constraints More... | |
| virtual bool | get_variables_linearity (Index n, LinearityType *var_types) |
| overload this method to return the variables linearity (TNLP::LINEAR or TNLP::NON_LINEAR). More... | |
| virtual bool | get_constraints_linearity (Index m, LinearityType *const_types) |
| overload this method to return the constraint linearity. More... | |
| virtual bool | get_warm_start_iterate (IteratesVector &warm_start_iterate) |
| overload this method to provide an Ipopt iterate (already in the form Ipopt requires it internally) for a warm start. More... | |
| Public Member Functions inherited from Ipopt::ReferencedObject | |
| ReferencedObject () | |
| virtual | ~ReferencedObject () |
| Index | ReferenceCount () const |
| void | AddRef (const Referencer *referencer) const |
| void | ReleaseRef (const Referencer *referencer) const |
Protected Member Functions | |
| virtual Number | y_d_cont (Number x1, Number x2) const |
| Target profile function for y. More... | |
| virtual Number | d_cont (Number x1, Number x2, Number y) const |
| Forcing function for the elliptic equation. More... | |
| virtual Number | d_cont_dy (Number x1, Number x2, Number y) const |
| First partial derivative of forcing function w.r.t. More... | |
| virtual Number | d_cont_dydy (Number x1, Number x2, Number y) const |
| Second partial derivative of forcing function w.r.t y,y. More... | |
| virtual bool | d_cont_dydy_alwayszero () const |
| returns true if second partial derivative of d_cont w.r.t. More... | |
| virtual Number | b_cont (Number x1, Number x2, Number y, Number u) const |
| Function in Neuman boundary condition. More... | |
| virtual Number | b_cont_dy (Number x1, Number x2, Number y, Number u) const |
| First partial derivative of b_cont w.r.t. More... | |
| virtual Number | b_cont_du (Number x1, Number x2, Number y, Number u) const |
| First partial derivative of b_cont w.r.t. More... | |
| virtual Number | b_cont_dydy (Number x1, Number x2, Number y, Number u) const |
| Second partial derivative of b_cont w.r.t. More... | |
| virtual bool | b_cont_dydy_alwayszero () const |
| returns true if second partial derivative of b_cont w.r.t. More... | |
| Protected Member Functions inherited from MittelmannBndryCntrlNeumBase | |
| void | SetBaseParameters (Index N, Number alpha, Number lb_y, Number ub_y, Number lb_u, Number ub_u, Number u_init) |
| Method for setting the internal parameters that define the problem. More... | |
Private Member Functions | |
hide implicitly defined contructors copy operators | |
| MittelmannBndryCntrlNeum4 (const MittelmannBndryCntrlNeum4 &) | |
| MittelmannBndryCntrlNeum4 & | operator= (const MittelmannBndryCntrlNeum4 &) |
Additional Inherited Members | |
| Public Types inherited from Ipopt::TNLP | |
| enum | LinearityType { LINEAR, NON_LINEAR } |
| Type of the constraints. More... | |
| enum | IndexStyleEnum { C_STYLE =0, FORTRAN_STYLE =1 } |
| overload this method to return the number of variables and constraints, and the number of non-zeros in the jacobian and the hessian. More... | |
| typedef std::map< std::string, std::vector< std::string > > | StringMetaDataMapType |
| typedef std::map< std::string, std::vector< Index > > | IntegerMetaDataMapType |
| typedef std::map< std::string, std::vector< Number > > | NumericMetaDataMapType |
Class implementating Example 8.
Definition at line 504 of file MittelmannBndryCntrlNeum.hpp.
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inline |
Definition at line 507 of file MittelmannBndryCntrlNeum.hpp.
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inlinevirtual |
Definition at line 510 of file MittelmannBndryCntrlNeum.hpp.
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private |
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inlinevirtual |
Initialize internal parameters, where N is a parameter determining the problme size.
This returns false, if N has an invalid value.
Implements RegisteredTNLP.
Definition at line 513 of file MittelmannBndryCntrlNeum.hpp.
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inlineprotectedvirtual |
Target profile function for y.
Implements MittelmannBndryCntrlNeumBase.
Definition at line 531 of file MittelmannBndryCntrlNeum.hpp.
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inlineprotectedvirtual |
Forcing function for the elliptic equation.
Implements MittelmannBndryCntrlNeumBase.
Definition at line 536 of file MittelmannBndryCntrlNeum.hpp.
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inlineprotectedvirtual |
First partial derivative of forcing function w.r.t.
y
Implements MittelmannBndryCntrlNeumBase.
Definition at line 541 of file MittelmannBndryCntrlNeum.hpp.
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inlineprotectedvirtual |
Second partial derivative of forcing function w.r.t y,y.
Implements MittelmannBndryCntrlNeumBase.
Definition at line 546 of file MittelmannBndryCntrlNeum.hpp.
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inlineprotectedvirtual |
returns true if second partial derivative of d_cont w.r.t.
y,y is always zero.
Implements MittelmannBndryCntrlNeumBase.
Definition at line 552 of file MittelmannBndryCntrlNeum.hpp.
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inlineprotectedvirtual |
Function in Neuman boundary condition.
Implements MittelmannBndryCntrlNeumBase.
Definition at line 557 of file MittelmannBndryCntrlNeum.hpp.
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inlineprotectedvirtual |
First partial derivative of b_cont w.r.t.
y
Implements MittelmannBndryCntrlNeumBase.
Definition at line 562 of file MittelmannBndryCntrlNeum.hpp.
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inlineprotectedvirtual |
First partial derivative of b_cont w.r.t.
u
Implements MittelmannBndryCntrlNeumBase.
Definition at line 567 of file MittelmannBndryCntrlNeum.hpp.
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inlineprotectedvirtual |
Second partial derivative of b_cont w.r.t.
y,y
Implements MittelmannBndryCntrlNeumBase.
Definition at line 572 of file MittelmannBndryCntrlNeum.hpp.
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inlineprotectedvirtual |
returns true if second partial derivative of b_cont w.r.t.
y,y is always zero.
Implements MittelmannBndryCntrlNeumBase.
Definition at line 578 of file MittelmannBndryCntrlNeum.hpp.
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private |
1.8.5
