Ipopt::AlgorithmBuilder Class Reference

Builder for creating a complete IpoptAlg object. More...

#include <IpAlgBuilder.hpp>

Inheritance diagram for Ipopt::AlgorithmBuilder:
Inheritance graph
[legend]

List of all members.

Public Member Functions

Constructors/Destructors



 AlgorithmBuilder (SmartPtr< AugSystemSolver > custom_solver=NULL)
 Constructor.
virtual ~AlgorithmBuilder ()
 Destructor.
Convenience methods for building solvers without having

to duplicate the significant amount of preprocessor flag and option checking that takes place.

These solvers are used to create a number of core algorithm components across the different Build* methods, but depending on what options are chosen, the first method requiring the solver to be used can vary. Therefore, each of the Factory methods below is paired with a Getter method, which is called by all parts of this algorithm builder to ensure the Factory is only called once.



virtual SmartPtr< SymLinearSolverSymLinearSolverFactory (const Journalist &jnlst, const OptionsList &options, const std::string &prefix)
 Create a solver that can be used to solve a symmetric linear system.
SmartPtr< SymLinearSolverGetSymLinearSolver (const Journalist &jnlst, const OptionsList &options, const std::string &prefix)
 Get the symmetric linear system solver for this algorithm.
virtual SmartPtr< AugSystemSolverAugSystemSolverFactory (const Journalist &jnlst, const OptionsList &options, const std::string &prefix)
 Create a solver that can be used to solve an augmented system.
SmartPtr< AugSystemSolverGetAugSystemSolver (const Journalist &jnlst, const OptionsList &options, const std::string &prefix)
 Get the augmented system solver for this algorithm.
virtual SmartPtr< PDSystemSolverPDSystemSolverFactory (const Journalist &jnlst, const OptionsList &options, const std::string &prefix)
 Create a solver that can be used to solve a primal-dual system.
SmartPtr< PDSystemSolverGetPDSystemSolver (const Journalist &jnlst, const OptionsList &options, const std::string &prefix)
 Get the primal-dual system solver for this algorithm.
Methods to build parts of the algorithm



virtual void BuildIpoptObjects (const Journalist &jnlst, const OptionsList &options, const std::string &prefix, const SmartPtr< NLP > &nlp, SmartPtr< IpoptNLP > &ip_nlp, SmartPtr< IpoptData > &ip_data, SmartPtr< IpoptCalculatedQuantities > &ip_cq)
 Allocates memory for the IpoptNLP, IpoptData, and IpoptCalculatedQuanties arguments.
virtual SmartPtr< IpoptAlgorithmBuildBasicAlgorithm (const Journalist &jnlst, const OptionsList &options, const std::string &prefix)
 Creates an instance of the IpoptAlgorithm class by building each of its required constructor arguments piece-by-piece.
virtual SmartPtr< IterationOutputBuildIterationOutput (const Journalist &jnlst, const OptionsList &options, const std::string &prefix)
 Creates an instance of the IterationOutput class.
virtual SmartPtr< HessianUpdaterBuildHessianUpdater (const Journalist &jnlst, const OptionsList &options, const std::string &prefix)
 Creates an instance of the HessianUpdater class.
virtual SmartPtr
< ConvergenceCheck
BuildConvergenceCheck (const Journalist &jnlst, const OptionsList &options, const std::string &prefix)
 Creates an instance of the ConvergenceCheck class.
virtual SmartPtr
< SearchDirectionCalculator
BuildSearchDirectionCalculator (const Journalist &jnlst, const OptionsList &options, const std::string &prefix)
 Creates an instance of the SearchDirectionCalculator class.
virtual SmartPtr
< EqMultiplierCalculator
BuildEqMultiplierCalculator (const Journalist &jnlst, const OptionsList &options, const std::string &prefix)
 Creates an instance of the EqMultiplierCalculator class.
virtual SmartPtr
< IterateInitializer
BuildIterateInitializer (const Journalist &jnlst, const OptionsList &options, const std::string &prefix)
 Creates an instance of the IterateInitializer class.
virtual SmartPtr< LineSearchBuildLineSearch (const Journalist &jnlst, const OptionsList &options, const std::string &prefix)
 Creates an instance of the LineSearch class.
virtual SmartPtr< MuUpdateBuildMuUpdate (const Journalist &jnlst, const OptionsList &options, const std::string &prefix)
 Creates an instance of the MuUpdate class.

Static Public Member Functions



static void RegisterOptions (SmartPtr< RegisteredOptions > roptions)
 Methods for IpoptTypeInfo.

Private Member Functions

Default Compiler Generated Methods

(Hidden to avoid implicit creation/calling).

These methods are not implemented and we do not want the compiler to implement them for us, so we declare them private and do not define them. This ensures that they will not be implicitly created/called.



 AlgorithmBuilder (const AlgorithmBuilder &)
 Default Constructor.
void operator= (const AlgorithmBuilder &)
 Overloaded Equals Operator.

Private Attributes

SmartPtr< AugSystemSolvercustom_solver_
 Optional pointer to AugSystemSolver.
IpoptAlgorithm constructor arguments.

These components are built in separate Build methods in the order defined by BuildBasicAlgorithm.

A single core component may require one or more other core components in its constructor, so the this class holds pointers to each component for use between the separate Build methods.



SmartPtr< IterationOutputIterOutput_
SmartPtr< HessianUpdaterHessUpdater_
SmartPtr< ConvergenceCheckConvCheck_
SmartPtr
< SearchDirectionCalculator
SearchDirCalc_
SmartPtr< EqMultiplierCalculatorEqMultCalculator_
SmartPtr< IterateInitializerIterInitializer_
SmartPtr< LineSearchLineSearch_
SmartPtr< MuUpdateMuUpdate_
Commonly used solver components

for building core algorithm components.

Each of these members is paired with a Factory/Getter method.



SmartPtr< SymLinearSolverSymSolver_
SmartPtr< AugSystemSolverAugSolver_
SmartPtr< PDSystemSolverPDSolver_

Detailed Description

Builder for creating a complete IpoptAlg object.

This object contains all subelements (such as line search objects etc). How the resulting IpoptAlg object is built can be influenced by the options.

More advanced customization can be achieved by subclassing this class and overloading the virtual methods that build the individual parts. The advantage of doing this is that it allows one to reuse the extensive amount of options processing that takes place, for instance, when generating the symmetric linear system solver. Another method for customizing the algorithm is using the optional custom_solver argument, which allows the expert user to provide a specialized linear solver for the augmented system (e.g., type GenAugSystemSolver), possibly for user-defined matrix objects. The optional custom_solver constructor argument is likely obsolete, however, as more control over this this process can be achieved by implementing a subclass of this AlgBuilder (e.g., by overloading the AugSystemSolverFactory method).

Definition at line 49 of file IpAlgBuilder.hpp.


Constructor & Destructor Documentation

Ipopt::AlgorithmBuilder::AlgorithmBuilder ( SmartPtr< AugSystemSolver custom_solver = NULL  ) 

Constructor.

virtual Ipopt::AlgorithmBuilder::~AlgorithmBuilder (  )  [inline, virtual]

Destructor.

Definition at line 58 of file IpAlgBuilder.hpp.

Ipopt::AlgorithmBuilder::AlgorithmBuilder ( const AlgorithmBuilder  )  [private]

Default Constructor.

Copy Constructor


Member Function Documentation

static void Ipopt::AlgorithmBuilder::RegisterOptions ( SmartPtr< RegisteredOptions roptions  )  [static]

Methods for IpoptTypeInfo.

register the options used by the algorithm builder

Reimplemented in Ipopt::InexactAlgorithmBuilder.

virtual SmartPtr<SymLinearSolver> Ipopt::AlgorithmBuilder::SymLinearSolverFactory ( const Journalist jnlst,
const OptionsList options,
const std::string &  prefix 
) [virtual]

Create a solver that can be used to solve a symmetric linear system.

Dependencies: None

SmartPtr<SymLinearSolver> Ipopt::AlgorithmBuilder::GetSymLinearSolver ( const Journalist jnlst,
const OptionsList options,
const std::string &  prefix 
)

Get the symmetric linear system solver for this algorithm.

This method will call the SymLinearSolverFactory exactly once (the first time it is used), and store its instance on SymSolver_ for use in subsequent calls.

virtual SmartPtr<AugSystemSolver> Ipopt::AlgorithmBuilder::AugSystemSolverFactory ( const Journalist jnlst,
const OptionsList options,
const std::string &  prefix 
) [virtual]

Create a solver that can be used to solve an augmented system.

Dependencies: -> GetSymLinearSolver() -> SymLinearSolverFactory() -> custom_solver_

SmartPtr<AugSystemSolver> Ipopt::AlgorithmBuilder::GetAugSystemSolver ( const Journalist jnlst,
const OptionsList options,
const std::string &  prefix 
)

Get the augmented system solver for this algorithm.

This method will call the AugSystemSolverFactory exactly once (the first time it is used), and store its instance on AugSolver_ for use in subsequent calls.

virtual SmartPtr<PDSystemSolver> Ipopt::AlgorithmBuilder::PDSystemSolverFactory ( const Journalist jnlst,
const OptionsList options,
const std::string &  prefix 
) [virtual]

Create a solver that can be used to solve a primal-dual system.

Dependencies: -> GetAugSystemSolver() -> AugSystemSolverFactory() -> GetSymLinearSolver() -> SymLinearSolverFactory() -> custom_solver_

SmartPtr<PDSystemSolver> Ipopt::AlgorithmBuilder::GetPDSystemSolver ( const Journalist jnlst,
const OptionsList options,
const std::string &  prefix 
)

Get the primal-dual system solver for this algorithm.

This method will call the PDSystemSolverFactory exactly once (the first time it is used), and store its instance on PDSolver_ for use in subsequent calls.

virtual void Ipopt::AlgorithmBuilder::BuildIpoptObjects ( const Journalist jnlst,
const OptionsList options,
const std::string &  prefix,
const SmartPtr< NLP > &  nlp,
SmartPtr< IpoptNLP > &  ip_nlp,
SmartPtr< IpoptData > &  ip_data,
SmartPtr< IpoptCalculatedQuantities > &  ip_cq 
) [virtual]

Allocates memory for the IpoptNLP, IpoptData, and IpoptCalculatedQuanties arguments.

Dependencies: None

Reimplemented in Ipopt::InexactAlgorithmBuilder.

virtual SmartPtr<IpoptAlgorithm> Ipopt::AlgorithmBuilder::BuildBasicAlgorithm ( const Journalist jnlst,
const OptionsList options,
const std::string &  prefix 
) [virtual]

Creates an instance of the IpoptAlgorithm class by building each of its required constructor arguments piece-by-piece.

The default algorithm can be customized by overloading this method or by overloading one or more of the Build* methods called in this method's default implementation. Additional control can be achieved by overloading any of the *SolverFactory methods. This method will call (in this order): -> BuildIterationOutput() -> BuildHessianUpdater() -> BuildConvergenceCheck() -> BuildSearchDirectionCalculator() -> BuildEqMultiplierCalculator() -> BuildIterateInitializer() -> BuildLineSearch() -> BuildMuUpdate()

Reimplemented in Ipopt::InexactAlgorithmBuilder.

virtual SmartPtr<IterationOutput> Ipopt::AlgorithmBuilder::BuildIterationOutput ( const Journalist jnlst,
const OptionsList options,
const std::string &  prefix 
) [virtual]

Creates an instance of the IterationOutput class.

This method is called in the default implementation of BuildBasicAlgorithm. It can be overloaded to customize that portion the default algorithm. Dependencies: None

virtual SmartPtr<HessianUpdater> Ipopt::AlgorithmBuilder::BuildHessianUpdater ( const Journalist jnlst,
const OptionsList options,
const std::string &  prefix 
) [virtual]

Creates an instance of the HessianUpdater class.

This method is called in the default implementation of BuildBasicAlgorithm. It can be overloaded to customize that portion the default algorithm. Dependencies: None

virtual SmartPtr<ConvergenceCheck> Ipopt::AlgorithmBuilder::BuildConvergenceCheck ( const Journalist jnlst,
const OptionsList options,
const std::string &  prefix 
) [virtual]

Creates an instance of the ConvergenceCheck class.

This method is called in the default implementation of BuildBasicAlgorithm. It can be overloaded to customize that portion the default algorithm. Dependencies: None

virtual SmartPtr<SearchDirectionCalculator> Ipopt::AlgorithmBuilder::BuildSearchDirectionCalculator ( const Journalist jnlst,
const OptionsList options,
const std::string &  prefix 
) [virtual]

Creates an instance of the SearchDirectionCalculator class.

This method is called in the default implementation of BuildBasicAlgorithm. It can be overloaded to customize that portion the default algorithm. Dependencies: -> GetPDSystemSolver() -> PDSystemSolverFactory() -> GetAugSystemSolver() -> AugSystemSolverFactory() -> GetSymLinearSolver() -> SymLinearSolverFactory() -> custom_solver_

virtual SmartPtr<EqMultiplierCalculator> Ipopt::AlgorithmBuilder::BuildEqMultiplierCalculator ( const Journalist jnlst,
const OptionsList options,
const std::string &  prefix 
) [virtual]

Creates an instance of the EqMultiplierCalculator class.

This method is called in the default implementation of BuildBasicAlgorithm. It can be overloaded to customize that portion the default algorithm. Dependencies: -> GetAugSystemSolver() -> AugSystemSolverFactory() -> GetSymLinearSolver() -> SymLinearSolverFactory() -> custom_solver_

virtual SmartPtr<IterateInitializer> Ipopt::AlgorithmBuilder::BuildIterateInitializer ( const Journalist jnlst,
const OptionsList options,
const std::string &  prefix 
) [virtual]

Creates an instance of the IterateInitializer class.

This method is called in the default implementation of BuildBasicAlgorithm. It can be overloaded to customize that portion the default algorithm. Dependencies: -> EqMultCalculator_ -> GetAugSystemSolver() -> AugSystemSolverFactory() -> GetSymLinearSolver() -> SymLinearSolverFactory() -> custom_solver_

virtual SmartPtr<LineSearch> Ipopt::AlgorithmBuilder::BuildLineSearch ( const Journalist jnlst,
const OptionsList options,
const std::string &  prefix 
) [virtual]

Creates an instance of the LineSearch class.

This method is called in the default implementation of BuildBasicAlgorithm. It can be overloaded to customize that portion the default algorithm. Dependencies: -> EqMultCalculator_ -> ConvCheck_ -> GetAugSystemSolver() -> AugSystemSolverFactory() -> GetSymLinearSolver() -> SymLinearSolverFactory() -> custom_solver_ -> GetPDSystemSolver() -> PDSystemSolverFactory() -> GetAugSystemSolver() -> AugSystemSolverFactory() -> GetSymLinearSolver() -> SymLinearSolverFactory() -> custom_solver_

virtual SmartPtr<MuUpdate> Ipopt::AlgorithmBuilder::BuildMuUpdate ( const Journalist jnlst,
const OptionsList options,
const std::string &  prefix 
) [virtual]

Creates an instance of the MuUpdate class.

This method is called in the default implementation of BuildBasicAlgorithm. It can be overloaded to customize that portion the default algorithm. Dependencies: -> LineSearch_ -> EqMultCalculator_ -> ConvCheck_ -> GetPDSystemSolver() -> PDSystemSolverFactory() -> GetAugSystemSolver() -> AugSystemSolverFactory() -> GetSymLinearSolver() -> SymLinearSolverFactory() -> custom_solver_

void Ipopt::AlgorithmBuilder::operator= ( const AlgorithmBuilder  )  [private]

Overloaded Equals Operator.

Reimplemented in Ipopt::InexactAlgorithmBuilder.


Member Data Documentation

Definition at line 333 of file IpAlgBuilder.hpp.

Definition at line 334 of file IpAlgBuilder.hpp.

Definition at line 335 of file IpAlgBuilder.hpp.

Definition at line 336 of file IpAlgBuilder.hpp.

Definition at line 337 of file IpAlgBuilder.hpp.

Definition at line 338 of file IpAlgBuilder.hpp.

Definition at line 339 of file IpAlgBuilder.hpp.

Definition at line 340 of file IpAlgBuilder.hpp.

Definition at line 348 of file IpAlgBuilder.hpp.

Definition at line 349 of file IpAlgBuilder.hpp.

Definition at line 350 of file IpAlgBuilder.hpp.

Optional pointer to AugSystemSolver.

If this is set in the contructor, we will use this to solve the linear systems.

Reimplemented in Ipopt::InexactAlgorithmBuilder.

Definition at line 355 of file IpAlgBuilder.hpp.


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