ROL
Public Member Functions | Private Member Functions | Private Attributes | List of all members
ROL::TypeG::InteriorPointAlgorithm< Real > Class Template Reference

Provides an interface to run the interior point algorithm. More...

#include <ROL_TypeG_InteriorPointAlgorithm.hpp>

Inheritance diagram for ROL::TypeG::InteriorPointAlgorithm< Real >:

Public Member Functions

 InteriorPointAlgorithm (ParameterList &list, const Ptr< Secant< Real > > &secant_=nullPtr)
void run (Vector< Real > &x, const Vector< Real > &g, Objective< Real > &obj, BoundConstraint< Real > &bnd, Constraint< Real > &econ, Vector< Real > &emul, const Vector< Real > &eres, std::ostream &outStream=std::cout) override
 Run algorithm on general constrained problems (Type-G). This is the primary Type-G interface.
void writeHeader (std::ostream &os) const override
 Print iterate header.
void writeName (std::ostream &os) const override
 Print step name.
void writeOutput (std::ostream &os, const bool print_header=false) const override
 Print iterate status.
Public Member Functions inherited from ROL::TypeG::Algorithm< Real >
virtual ~Algorithm ()
 Algorithm ()
 Constructor, given a step and a status test.
void setStatusTest (const Ptr< StatusTest< Real > > &status, bool combineStatus=false)
virtual void run (Problem< Real > &problem, std::ostream &outStream=std::cout)
 Run algorithm on general constrained problems (Type-G). This is the primary Type-G interface.
virtual void run (Vector< Real > &x, Objective< Real > &obj, BoundConstraint< Real > &bnd, Constraint< Real > &econ, Vector< Real > &emul, std::ostream &outStream=std::cout)
 Run algorithm on general constrained problems (Type-G). This is the primary Type-G interface.
virtual void run (Vector< Real > &x, Objective< Real > &obj, Constraint< Real > &icon, Vector< Real > &imul, BoundConstraint< Real > &ibnd, std::ostream &outStream=std::cout)
 Run algorithm on general constrained problems (Type-G). This is the primary Type-G interface.
virtual void run (Vector< Real > &x, Objective< Real > &obj, BoundConstraint< Real > &bnd, Constraint< Real > &icon, Vector< Real > &imul, BoundConstraint< Real > &ibnd, std::ostream &outStream=std::cout)
 Run algorithm on general constrained problems (Type-G). This is the primary Type-G interface.
virtual void run (Vector< Real > &x, Objective< Real > &obj, Constraint< Real > &econ, Vector< Real > &emul, Constraint< Real > &icon, Vector< Real > &imul, BoundConstraint< Real > &ibnd, std::ostream &outStream=std::cout)
 Run algorithm on general constrained problems (Type-G). This is the primary Type-G interface.
virtual void run (Vector< Real > &x, Objective< Real > &obj, BoundConstraint< Real > &bnd, Constraint< Real > &econ, Vector< Real > &emul, Constraint< Real > &icon, Vector< Real > &imul, BoundConstraint< Real > &ibnd, std::ostream &outStream=std::cout)
 Run algorithm on general constrained problems (Type-G). This is the primary Type-G interface.
virtual void run (Vector< Real > &x, const Vector< Real > &g, Objective< Real > &obj, Constraint< Real > &icon, Vector< Real > &imul, BoundConstraint< Real > &ibnd, const Vector< Real > &ires, std::ostream &outStream=std::cout)
 Run algorithm on general constrained problems (Type-G). This is the primary Type-G interface.
virtual void run (Vector< Real > &x, const Vector< Real > &g, Objective< Real > &obj, BoundConstraint< Real > &bnd, Constraint< Real > &icon, Vector< Real > &imul, BoundConstraint< Real > &ibnd, const Vector< Real > &ires, std::ostream &outStream=std::cout)
 Run algorithm on general constrained problems (Type-G). This is the primary Type-G interface.
virtual void run (Vector< Real > &x, const Vector< Real > &g, Objective< Real > &obj, Constraint< Real > &econ, Vector< Real > &emul, const Vector< Real > &eres, Constraint< Real > &icon, Vector< Real > &imul, BoundConstraint< Real > &ibnd, const Vector< Real > &ires, std::ostream &outStream=std::cout)
 Run algorithm on general constrained problems (Type-G). This is the primary Type-G interface.
virtual void run (Vector< Real > &x, const Vector< Real > &g, Objective< Real > &obj, BoundConstraint< Real > &bnd, Constraint< Real > &econ, Vector< Real > &emul, const Vector< Real > &eres, Constraint< Real > &icon, Vector< Real > &imul, BoundConstraint< Real > &ibnd, const Vector< Real > &ires, std::ostream &outStream=std::cout)
 Run algorithm on general constrained problems (Type-G). This is the primary Type-G interface.
virtual void run (Vector< Real > &x, Objective< Real > &obj, BoundConstraint< Real > &bnd, Constraint< Real > &econ, Vector< Real > &emul, Constraint< Real > &linear_econ, Vector< Real > &linear_emul, std::ostream &outStream=std::cout)
 Run algorithm on general constrained problems (Type-G). This is the primary Type-G interface.
virtual void run (Vector< Real > &x, Objective< Real > &obj, Constraint< Real > &icon, Vector< Real > &imul, BoundConstraint< Real > &ibnd, Constraint< Real > &linear_econ, Vector< Real > &linear_emul, std::ostream &outStream=std::cout)
 Run algorithm on general constrained problems (Type-G). This is the primary Type-G interface.
virtual void run (Vector< Real > &x, Objective< Real > &obj, BoundConstraint< Real > &bnd, Constraint< Real > &icon, Vector< Real > &imul, BoundConstraint< Real > &ibnd, Constraint< Real > &linear_econ, Vector< Real > &linear_emul, std::ostream &outStream=std::cout)
 Run algorithm on general constrained problems (Type-G). This is the primary Type-G interface.
virtual void run (Vector< Real > &x, Objective< Real > &obj, Constraint< Real > &econ, Vector< Real > &emul, Constraint< Real > &icon, Vector< Real > &imul, BoundConstraint< Real > &ibnd, Constraint< Real > &linear_econ, Vector< Real > &linear_emul, std::ostream &outStream=std::cout)
 Run algorithm on general constrained problems (Type-G). This is the primary Type-G interface.
virtual void run (Vector< Real > &x, Objective< Real > &obj, BoundConstraint< Real > &bnd, Constraint< Real > &econ, Vector< Real > &emul, Constraint< Real > &icon, Vector< Real > &imul, BoundConstraint< Real > &ibnd, Constraint< Real > &linear_econ, Vector< Real > &linear_emul, std::ostream &outStream=std::cout)
 Run algorithm on general constrained problems (Type-G). This is the primary Type-G interface.
virtual void run (Vector< Real > &x, const Vector< Real > &g, Objective< Real > &obj, BoundConstraint< Real > &bnd, Constraint< Real > &econ, Vector< Real > &emul, const Vector< Real > &eres, Constraint< Real > &linear_econ, Vector< Real > &linear_emul, const Vector< Real > &linear_eres, std::ostream &outStream=std::cout)
 Run algorithm on general constrained problems (Type-G). This is the primary Type-G interface.
virtual void run (Vector< Real > &x, const Vector< Real > &g, Objective< Real > &obj, Constraint< Real > &icon, Vector< Real > &imul, BoundConstraint< Real > &ibnd, const Vector< Real > &ires, Constraint< Real > &linear_econ, Vector< Real > &linear_emul, const Vector< Real > &linear_eres, std::ostream &outStream=std::cout)
 Run algorithm on general constrained problems (Type-G). This is the primary Type-G interface.
virtual void run (Vector< Real > &x, const Vector< Real > &g, Objective< Real > &obj, BoundConstraint< Real > &bnd, Constraint< Real > &icon, Vector< Real > &imul, BoundConstraint< Real > &ibnd, const Vector< Real > &ires, Constraint< Real > &linear_econ, Vector< Real > &linear_emul, const Vector< Real > &linear_eres, std::ostream &outStream=std::cout)
 Run algorithm on general constrained problems (Type-G). This is the primary Type-G interface.
virtual void run (Vector< Real > &x, const Vector< Real > &g, Objective< Real > &obj, Constraint< Real > &econ, Vector< Real > &emul, const Vector< Real > &eres, Constraint< Real > &icon, Vector< Real > &imul, BoundConstraint< Real > &ibnd, const Vector< Real > &ires, Constraint< Real > &linear_econ, Vector< Real > &linear_emul, const Vector< Real > &linear_eres, std::ostream &outStream=std::cout)
 Run algorithm on general constrained problems (Type-G). This is the primary Type-G interface.
virtual void run (Vector< Real > &x, const Vector< Real > &g, Objective< Real > &obj, BoundConstraint< Real > &bnd, Constraint< Real > &econ, Vector< Real > &emul, const Vector< Real > &eres, Constraint< Real > &icon, Vector< Real > &imul, BoundConstraint< Real > &ibnd, const Vector< Real > &ires, Constraint< Real > &linear_econ, Vector< Real > &linear_emul, const Vector< Real > &linear_eres, std::ostream &outStream=std::cout)
 Run algorithm on general constrained problems (Type-G). This is the primary Type-G interface.
virtual void writeExitStatus (std::ostream &os) const
Ptr< const AlgorithmState< Real > > getState () const
void reset ()

Private Member Functions

void initialize (Vector< Real > &x, const Vector< Real > &g, const Vector< Real > &l, const Vector< Real > &c, InteriorPointObjective< Real > &ipobj, BoundConstraint< Real > &bnd, Constraint< Real > &con, Vector< Real > &pwa, Vector< Real > &dwa, std::ostream &outStream=std::cout)
void updateState (const Vector< Real > &x, const Vector< Real > &l, InteriorPointObjective< Real > &ipobj, BoundConstraint< Real > &bnd, Constraint< Real > &con, Vector< Real > &pwa, Vector< Real > &dwa, std::ostream &outStream=std::cout)

Private Attributes

const Ptr< Secant< Real > > secant_
Real mumin_
Real mumax_
Real rho_
bool useLinearDamping_
Real kappaD_
Real gtol_
Real ctol_
Real stol_
Real gtolrate_
Real ctolrate_
Real mingtol_
Real minctol_
ROL::ParameterList list_
int subproblemIter_
std::string stepname_
bool print_
int verbosity_
bool printHeader_
bool hasPolyProj_

Additional Inherited Members

Protected Member Functions inherited from ROL::TypeG::Algorithm< Real >
void initialize (const Vector< Real > &x, const Vector< Real > &g, const Vector< Real > &mul, const Vector< Real > &c)
Protected Attributes inherited from ROL::TypeG::Algorithm< Real >
const Ptr< CombinedStatusTest< Real > > status_
const Ptr< AlgorithmState< Real > > state_
Ptr< PolyhedralProjection< Real > > proj_

Detailed Description

template<typename Real>
class ROL::TypeG::InteriorPointAlgorithm< Real >

Provides an interface to run the interior point algorithm.

Definition at line 25 of file ROL_TypeG_InteriorPointAlgorithm.hpp.

Constructor & Destructor Documentation

◆ InteriorPointAlgorithm()

template<typename Real>
ROL::TypeG::InteriorPointAlgorithm< Real >::InteriorPointAlgorithm ( ParameterList & list,
const Ptr< Secant< Real > > & secant_ = nullPtr )

Definition at line 19 of file ROL_TypeG_InteriorPointAlgorithm_Def.hpp.

References ROL::TypeG::Algorithm< Real >::Algorithm(), ctol_, ctolrate_, gtol_, gtolrate_, kappaD_, list_, minctol_, mingtol_, mumax_, mumin_, print_, printHeader_, rho_, secant_, ROL::TypeG::Algorithm< Real >::state_, ROL::TypeG::Algorithm< Real >::status_, stepname_, stol_, subproblemIter_, useLinearDamping_, and verbosity_.

Member Function Documentation

◆ initialize()

template<typename Real>
void ROL::TypeG::InteriorPointAlgorithm< Real >::initialize ( Vector< Real > & x,
const Vector< Real > & g,
const Vector< Real > & l,
const Vector< Real > & c,
InteriorPointObjective< Real > & ipobj,
BoundConstraint< Real > & bnd,
Constraint< Real > & con,
Vector< Real > & pwa,
Vector< Real > & dwa,
std::ostream & outStream = std::cout )
private

Definition at line 57 of file ROL_TypeG_InteriorPointAlgorithm_Def.hpp.

References hasPolyProj_, ROL::TypeG::Algorithm< Real >::initialize(), ROL::TypeG::Algorithm< Real >::proj_, ROL::BoundConstraint< Real >::projectInterior(), ROL::TypeG::Algorithm< Real >::state_, and updateState().

◆ updateState()

template<typename Real>
void ROL::TypeG::InteriorPointAlgorithm< Real >::updateState ( const Vector< Real > & x,
const Vector< Real > & l,
InteriorPointObjective< Real > & ipobj,
BoundConstraint< Real > & bnd,
Constraint< Real > & con,
Vector< Real > & pwa,
Vector< Real > & dwa,
std::ostream & outStream = std::cout )
private

Definition at line 85 of file ROL_TypeG_InteriorPointAlgorithm_Def.hpp.

References ROL::Constraint< Real >::applyAdjointJacobian(), ROL::Vector< Real >::axpy(), ROL::InteriorPointObjective< Real >::getObjectiveValue(), ROL::InteriorPointObjective< Real >::gradient(), ROL::Initial, ROL::Vector< Real >::norm(), ROL::TypeG::Algorithm< Real >::proj_, ROL::ROL_EPSILON(), ROL::Vector< Real >::set(), ROL::TypeG::Algorithm< Real >::state_, ROL::Constraint< Real >::update(), ROL::InteriorPointObjective< Real >::update(), and ROL::Constraint< Real >::value().

Referenced by initialize(), and run().

◆ run()

template<typename Real>
void ROL::TypeG::InteriorPointAlgorithm< Real >::run ( Vector< Real > & x,
const Vector< Real > & g,
Objective< Real > & obj,
BoundConstraint< Real > & bnd,
Constraint< Real > & econ,
Vector< Real > & emul,
const Vector< Real > & eres,
std::ostream & outStream = std::cout )
overridevirtual

Run algorithm on general constrained problems (Type-G). This is the primary Type-G interface.

Implements ROL::TypeG::Algorithm< Real >.

Definition at line 126 of file ROL_TypeG_InteriorPointAlgorithm_Def.hpp.

References ROL::TypeE::AlgorithmFactory(), ROL::Vector< Real >::clone(), ctol_, ctolrate_, ROL::EXITSTATUS_CONVERGED, gtol_, gtolrate_, hasPolyProj_, initialize(), kappaD_, list_, minctol_, mingtol_, mumax_, mumin_, printHeader_, ROL::TypeG::Algorithm< Real >::proj_, rho_, secant_, ROL::TypeG::Algorithm< Real >::state_, ROL::TypeG::Algorithm< Real >::status_, stol_, subproblemIter_, ROL::InteriorPointObjective< Real >::updatePenalty(), updateState(), useLinearDamping_, verbosity_, ROL::TypeG::Algorithm< Real >::writeExitStatus(), and writeOutput().

◆ writeHeader()

template<typename Real>
void ROL::TypeG::InteriorPointAlgorithm< Real >::writeHeader ( std::ostream & os) const
overridevirtual

Print iterate header.

Reimplemented from ROL::TypeG::Algorithm< Real >.

Definition at line 197 of file ROL_TypeG_InteriorPointAlgorithm_Def.hpp.

References verbosity_.

Referenced by writeOutput().

◆ writeName()

template<typename Real>
void ROL::TypeG::InteriorPointAlgorithm< Real >::writeName ( std::ostream & os) const
overridevirtual

Print step name.

Reimplemented from ROL::TypeG::Algorithm< Real >.

Definition at line 236 of file ROL_TypeG_InteriorPointAlgorithm_Def.hpp.

References stepname_.

Referenced by writeOutput().

◆ writeOutput()

template<typename Real>
void ROL::TypeG::InteriorPointAlgorithm< Real >::writeOutput ( std::ostream & os,
const bool write_header = false ) const
overridevirtual

Print iterate status.

Reimplemented from ROL::TypeG::Algorithm< Real >.

Definition at line 245 of file ROL_TypeG_InteriorPointAlgorithm_Def.hpp.

References ctol_, gtol_, ROL::TypeG::Algorithm< Real >::state_, subproblemIter_, writeHeader(), and writeName().

Referenced by run().

Member Data Documentation

◆ secant_

template<typename Real>
const Ptr<Secant<Real> > ROL::TypeG::InteriorPointAlgorithm< Real >::secant_
private

Definition at line 27 of file ROL_TypeG_InteriorPointAlgorithm.hpp.

Referenced by InteriorPointAlgorithm(), and run().

◆ mumin_

template<typename Real>
Real ROL::TypeG::InteriorPointAlgorithm< Real >::mumin_
private

Definition at line 29 of file ROL_TypeG_InteriorPointAlgorithm.hpp.

Referenced by InteriorPointAlgorithm(), and run().

◆ mumax_

template<typename Real>
Real ROL::TypeG::InteriorPointAlgorithm< Real >::mumax_
private

Definition at line 30 of file ROL_TypeG_InteriorPointAlgorithm.hpp.

Referenced by InteriorPointAlgorithm(), and run().

◆ rho_

template<typename Real>
Real ROL::TypeG::InteriorPointAlgorithm< Real >::rho_
private

Definition at line 31 of file ROL_TypeG_InteriorPointAlgorithm.hpp.

Referenced by InteriorPointAlgorithm(), and run().

◆ useLinearDamping_

template<typename Real>
bool ROL::TypeG::InteriorPointAlgorithm< Real >::useLinearDamping_
private

Definition at line 32 of file ROL_TypeG_InteriorPointAlgorithm.hpp.

Referenced by InteriorPointAlgorithm(), and run().

◆ kappaD_

template<typename Real>
Real ROL::TypeG::InteriorPointAlgorithm< Real >::kappaD_
private

Definition at line 33 of file ROL_TypeG_InteriorPointAlgorithm.hpp.

Referenced by InteriorPointAlgorithm(), and run().

◆ gtol_

template<typename Real>
Real ROL::TypeG::InteriorPointAlgorithm< Real >::gtol_
private

Definition at line 34 of file ROL_TypeG_InteriorPointAlgorithm.hpp.

Referenced by InteriorPointAlgorithm(), run(), and writeOutput().

◆ ctol_

template<typename Real>
Real ROL::TypeG::InteriorPointAlgorithm< Real >::ctol_
private

Definition at line 35 of file ROL_TypeG_InteriorPointAlgorithm.hpp.

Referenced by InteriorPointAlgorithm(), run(), and writeOutput().

◆ stol_

template<typename Real>
Real ROL::TypeG::InteriorPointAlgorithm< Real >::stol_
private

Definition at line 36 of file ROL_TypeG_InteriorPointAlgorithm.hpp.

Referenced by InteriorPointAlgorithm(), and run().

◆ gtolrate_

template<typename Real>
Real ROL::TypeG::InteriorPointAlgorithm< Real >::gtolrate_
private

Definition at line 37 of file ROL_TypeG_InteriorPointAlgorithm.hpp.

Referenced by InteriorPointAlgorithm(), and run().

◆ ctolrate_

template<typename Real>
Real ROL::TypeG::InteriorPointAlgorithm< Real >::ctolrate_
private

Definition at line 38 of file ROL_TypeG_InteriorPointAlgorithm.hpp.

Referenced by InteriorPointAlgorithm(), and run().

◆ mingtol_

template<typename Real>
Real ROL::TypeG::InteriorPointAlgorithm< Real >::mingtol_
private

Definition at line 39 of file ROL_TypeG_InteriorPointAlgorithm.hpp.

Referenced by InteriorPointAlgorithm(), and run().

◆ minctol_

template<typename Real>
Real ROL::TypeG::InteriorPointAlgorithm< Real >::minctol_
private

Definition at line 40 of file ROL_TypeG_InteriorPointAlgorithm.hpp.

Referenced by InteriorPointAlgorithm(), and run().

◆ list_

template<typename Real>
ROL::ParameterList ROL::TypeG::InteriorPointAlgorithm< Real >::list_
private

Definition at line 42 of file ROL_TypeG_InteriorPointAlgorithm.hpp.

Referenced by InteriorPointAlgorithm(), and run().

◆ subproblemIter_

template<typename Real>
int ROL::TypeG::InteriorPointAlgorithm< Real >::subproblemIter_
private

Definition at line 43 of file ROL_TypeG_InteriorPointAlgorithm.hpp.

Referenced by InteriorPointAlgorithm(), run(), and writeOutput().

◆ stepname_

template<typename Real>
std::string ROL::TypeG::InteriorPointAlgorithm< Real >::stepname_
private

Definition at line 45 of file ROL_TypeG_InteriorPointAlgorithm.hpp.

Referenced by InteriorPointAlgorithm(), and writeName().

◆ print_

template<typename Real>
bool ROL::TypeG::InteriorPointAlgorithm< Real >::print_
private

Definition at line 47 of file ROL_TypeG_InteriorPointAlgorithm.hpp.

Referenced by InteriorPointAlgorithm().

◆ verbosity_

template<typename Real>
int ROL::TypeG::InteriorPointAlgorithm< Real >::verbosity_
private

Definition at line 48 of file ROL_TypeG_InteriorPointAlgorithm.hpp.

Referenced by InteriorPointAlgorithm(), run(), and writeHeader().

◆ printHeader_

template<typename Real>
bool ROL::TypeG::InteriorPointAlgorithm< Real >::printHeader_
private

Definition at line 49 of file ROL_TypeG_InteriorPointAlgorithm.hpp.

Referenced by InteriorPointAlgorithm(), and run().

◆ hasPolyProj_

template<typename Real>
bool ROL::TypeG::InteriorPointAlgorithm< Real >::hasPolyProj_
private

Definition at line 51 of file ROL_TypeG_InteriorPointAlgorithm.hpp.

Referenced by initialize(), and run().

The documentation for this class was generated from the following files:
Generated by doxygen 1.15.0