MittelmannDistCntrlDiri3 Class Reference

Class implementating Example 3. More...

#include <MittelmannDistCntrlDiri.hpp>

Inheritance diagram for MittelmannDistCntrlDiri3:

Public Member Functions
	MittelmannDistCntrlDiri3 ()
virtual	~MittelmannDistCntrlDiri3 ()
virtual bool	InitializeProblem (Index N)
	Initialize internal parameters, where N is a parameter determining the problme size. More...
Public Member Functions inherited from MittelmannDistCntrlDiriBase
	MittelmannDistCntrlDiriBase ()
	Constructor. More...
virtual	~MittelmannDistCntrlDiriBase ()
	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, Number u) const
	Forcing function for the elliptic equation. More...
virtual Number	d_cont_dy (Number x1, Number x2, Number y, Number u) const
	First partial derivative of forcing function w.r.t. More...
virtual Number	d_cont_du (Number x1, Number x2, Number y, Number u) const
	First partial derivative of forcing function w.r.t. More...
virtual Number	d_cont_dydy (Number x1, Number x2, Number y, Number u) const
	Second partial derivative of forcing function w.r.t y,y. More...
Protected Member Functions inherited from MittelmannDistCntrlDiriBase
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
	MittelmannDistCntrlDiri3 (const MittelmannDistCntrlDiri3 &)
MittelmannDistCntrlDiri3 &	operator= (const MittelmannDistCntrlDiri3 &)

Private Attributes
const Number	pi_
	Value of pi (made available for convenience) More...

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

Detailed Description

Class implementating Example 3.

Definition at line 338 of file MittelmannDistCntrlDiri.hpp.

Constructor & Destructor Documentation

MittelmannDistCntrlDiri3::MittelmannDistCntrlDiri3 ( )

inline

Definition at line 341 of file MittelmannDistCntrlDiri.hpp.

virtual MittelmannDistCntrlDiri3::~MittelmannDistCntrlDiri3 ( )

inlinevirtual

Definition at line 345 of file MittelmannDistCntrlDiri.hpp.

MittelmannDistCntrlDiri3::MittelmannDistCntrlDiri3 ( const MittelmannDistCntrlDiri3 &  )

private

Member Function Documentation

virtual bool MittelmannDistCntrlDiri3::InitializeProblem ( Index  N )

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 347 of file MittelmannDistCntrlDiri.hpp.

virtual Number MittelmannDistCntrlDiri3::y_d_cont ( Number  x1, Number  x2  ) const

inlineprotectedvirtual

Target profile function for y.

Implements MittelmannDistCntrlDiriBase.

Definition at line 365 of file MittelmannDistCntrlDiri.hpp.

virtual Number MittelmannDistCntrlDiri3::d_cont ( Number  x1, Number  x2, Number  y, Number  u  ) const

inlineprotectedvirtual

Forcing function for the elliptic equation.

Implements MittelmannDistCntrlDiriBase.

Definition at line 370 of file MittelmannDistCntrlDiri.hpp.

virtual Number MittelmannDistCntrlDiri3::d_cont_dy ( Number  x1, Number  x2, Number  y, Number  u  ) const

inlineprotectedvirtual

First partial derivative of forcing function w.r.t.

y

Implements MittelmannDistCntrlDiriBase.

Definition at line 375 of file MittelmannDistCntrlDiri.hpp.

virtual Number MittelmannDistCntrlDiri3::d_cont_du ( Number  x1, Number  x2, Number  y, Number  u  ) const

inlineprotectedvirtual

First partial derivative of forcing function w.r.t.

u

Implements MittelmannDistCntrlDiriBase.

Definition at line 380 of file MittelmannDistCntrlDiri.hpp.

virtual Number MittelmannDistCntrlDiri3::d_cont_dydy ( Number  x1, Number  x2, Number  y, Number  u  ) const

inlineprotectedvirtual

Second partial derivative of forcing function w.r.t y,y.

Implements MittelmannDistCntrlDiriBase.

Definition at line 385 of file MittelmannDistCntrlDiri.hpp.

MittelmannDistCntrlDiri3& MittelmannDistCntrlDiri3::operator= ( const MittelmannDistCntrlDiri3 &  )

private

Member Data Documentation

const Number MittelmannDistCntrlDiri3::pi_

private

Value of pi (made available for convenience)

Definition at line 396 of file MittelmannDistCntrlDiri.hpp.

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The documentation for this class was generated from the following file:

• examples/ScalableProblems/MittelmannDistCntrlDiri.hpp