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

#include <ROL_CVaRBoundConstraint.hpp>

+ Inheritance diagram for ROL::CVaRBoundConstraint< Real >:

Public Member Functions

 CVaRBoundConstraint (Teuchos::RCP< BoundConstraint< Real > > &bc)
 
void update (const Vector< Real > &x, bool flag=true, int iter=-1)
 Update bounds. More...
 
void project (Vector< Real > &x)
 Project optimization variables onto the bounds. More...
 
void pruneUpperActive (Vector< Real > &v, const Vector< Real > &x, Real eps=0.0)
 Set variables to zero if they correspond to the upper \(\epsilon\)-active set. More...
 
void pruneUpperActive (Vector< Real > &v, const Vector< Real > &g, const Vector< Real > &x, Real eps=0.0)
 Set variables to zero if they correspond to the upper \(\epsilon\)-binding set. More...
 
void pruneLowerActive (Vector< Real > &v, const Vector< Real > &x, Real eps=0.0)
 Set variables to zero if they correspond to the lower \(\epsilon\)-active set. More...
 
void pruneLowerActive (Vector< Real > &v, const Vector< Real > &g, const Vector< Real > &x, Real eps=0.0)
 Set variables to zero if they correspond to the lower \(\epsilon\)-binding set. More...
 
void setVectorToUpperBound (Vector< Real > &u)
 Set the input vector to the upper bound. More...
 
void setVectorToLowerBound (Vector< Real > &l)
 Set the input vector to the lower bound. More...
 
void pruneActive (Vector< Real > &v, const Vector< Real > &x, Real eps=0.0)
 Set variables to zero if they correspond to the \(\epsilon\)-active set. More...
 
void pruneActive (Vector< Real > &v, const Vector< Real > &g, const Vector< Real > &x, Real eps=0.0)
 Set variables to zero if they correspond to the \(\epsilon\)-binding set. More...
 
bool isFeasible (const Vector< Real > &v)
 Check if the vector, v, is feasible. More...
 
- Public Member Functions inherited from ROL::BoundConstraint< Real >
virtual ~BoundConstraint ()
 
 BoundConstraint (void)
 Default constructor. More...
 
void activate (void)
 Turn on bounds. More...
 
void deactivate (void)
 Turn off bounds. More...
 
bool isActivated (void)
 Check if bounds are on. More...
 
void pruneInactive (Vector< Real > &v, const Vector< Real > &x, Real eps=0.0)
 Set variables to zero if they correspond to the \(\epsilon\)-inactive set. More...
 
void pruneInactive (Vector< Real > &v, const Vector< Real > &g, const Vector< Real > &x, Real eps=0.0)
 Set variables to zero if they correspond to the \(\epsilon\)-nonbinding set. More...
 
void computeProjectedGradient (Vector< Real > &g, const Vector< Real > &x)
 Compute projected gradient. More...
 
void computeProjectedStep (Vector< Real > &v, const Vector< Real > &x)
 Compute projected step. More...
 

Private Attributes

Teuchos::RCP< BoundConstraint
< Real > > 
bc_
 

Detailed Description

template<class Real>
class ROL::CVaRBoundConstraint< Real >

Definition at line 53 of file ROL_CVaRBoundConstraint.hpp.

Constructor & Destructor Documentation

template<class Real >
ROL::CVaRBoundConstraint< Real >::CVaRBoundConstraint ( Teuchos::RCP< BoundConstraint< Real > > &  bc)
inline

Definition at line 58 of file ROL_CVaRBoundConstraint.hpp.

Member Function Documentation

template<class Real >
void ROL::CVaRBoundConstraint< Real >::update ( const Vector< Real > &  x,
bool  flag = true,
int  iter = -1 
)
inlinevirtual

Update bounds.

The update function allows the user to update the bounds at each new iterations.

Parameters
[in]xis the optimization variable.
[in]flagis set to true if control is changed.
[in]iteris the outer algorithm iterations count.

Reimplemented from ROL::BoundConstraint< Real >.

Definition at line 60 of file ROL_CVaRBoundConstraint.hpp.

References ROL::CVaRBoundConstraint< Real >::bc_.

template<class Real >
void ROL::CVaRBoundConstraint< Real >::project ( Vector< Real > &  x)
inlinevirtual

Project optimization variables onto the bounds.

This function implements the projection of \(x\) onto the bounds, i.e.,

\[ (P_{[a,b]}(x))(\xi) = \min\{b(\xi),\max\{a(\xi),x(\xi)\}\} \quad \text{for almost every }\xi\in\Xi. \]

Parameters
[in,out]xis the optimization variable.

Reimplemented from ROL::BoundConstraint< Real >.

Definition at line 66 of file ROL_CVaRBoundConstraint.hpp.

References ROL::CVaRBoundConstraint< Real >::bc_.

template<class Real >
void ROL::CVaRBoundConstraint< Real >::pruneUpperActive ( Vector< Real > &  v,
const Vector< Real > &  x,
Real  eps = 0.0 
)
inlinevirtual

Set variables to zero if they correspond to the upper \(\epsilon\)-active set.

This function sets \(v(\xi)=0\) if \(\xi\in\mathcal{A}^+_\epsilon(x)\). Here, the upper \(\epsilon\)-active set is defined as

\[ \mathcal{A}^+_\epsilon(x) = \{\,\xi\in\Xi\,:\,x(\xi) = b(\xi)-\epsilon\,\}. \]

Parameters
[out]vis the variable to be pruned.
[in]xis the current optimization variable.
[in]epsis the active-set tolerance \(\epsilon\).

Reimplemented from ROL::BoundConstraint< Real >.

Definition at line 72 of file ROL_CVaRBoundConstraint.hpp.

References ROL::CVaRBoundConstraint< Real >::bc_.

template<class Real >
void ROL::CVaRBoundConstraint< Real >::pruneUpperActive ( Vector< Real > &  v,
const Vector< Real > &  g,
const Vector< Real > &  x,
Real  eps = 0.0 
)
inlinevirtual

Set variables to zero if they correspond to the upper \(\epsilon\)-binding set.

This function sets \(v(\xi)=0\) if \(\xi\in\mathcal{B}^+_\epsilon(x)\). Here, the upper \(\epsilon\)-binding set is defined as

\[ \mathcal{B}^+_\epsilon(x) = \{\,\xi\in\Xi\,:\,x(\xi) = b(\xi)-\epsilon,\; g(\xi) < 0 \,\}. \]

Parameters
[out]vis the variable to be pruned.
[in]xis the current optimization variable.
[in]gis the negative search direction.
[in]epsis the active-set tolerance \(\epsilon\).

Reimplemented from ROL::BoundConstraint< Real >.

Definition at line 80 of file ROL_CVaRBoundConstraint.hpp.

References ROL::CVaRBoundConstraint< Real >::bc_.

template<class Real >
void ROL::CVaRBoundConstraint< Real >::pruneLowerActive ( Vector< Real > &  v,
const Vector< Real > &  x,
Real  eps = 0.0 
)
inlinevirtual

Set variables to zero if they correspond to the lower \(\epsilon\)-active set.

This function sets \(v(\xi)=0\) if \(\xi\in\mathcal{A}^-_\epsilon(x)\). Here, the lower \(\epsilon\)-active set is defined as

\[ \mathcal{A}^-_\epsilon(x) = \{\,\xi\in\Xi\,:\,x(\xi) = a(\xi)+\epsilon\,\}. \]

Parameters
[out]vis the variable to be pruned.
[in]xis the current optimization variable.
[in]epsis the active-set tolerance \(\epsilon\).

Reimplemented from ROL::BoundConstraint< Real >.

Definition at line 90 of file ROL_CVaRBoundConstraint.hpp.

References ROL::CVaRBoundConstraint< Real >::bc_.

template<class Real >
void ROL::CVaRBoundConstraint< Real >::pruneLowerActive ( Vector< Real > &  v,
const Vector< Real > &  g,
const Vector< Real > &  x,
Real  eps = 0.0 
)
inlinevirtual

Set variables to zero if they correspond to the lower \(\epsilon\)-binding set.

This function sets \(v(\xi)=0\) if \(\xi\in\mathcal{B}^-_\epsilon(x)\). Here, the lower \(\epsilon\)-binding set is defined as

\[ \mathcal{B}^-_\epsilon(x) = \{\,\xi\in\Xi\,:\,x(\xi) = a(\xi)+\epsilon,\; g(\xi) > 0 \,\}. \]

Parameters
[out]vis the variable to be pruned.
[in]xis the current optimization variable.
[in]gis the negative search direction.
[in]epsis the active-set tolerance \(\epsilon\).

Reimplemented from ROL::BoundConstraint< Real >.

Definition at line 98 of file ROL_CVaRBoundConstraint.hpp.

References ROL::CVaRBoundConstraint< Real >::bc_.

template<class Real >
void ROL::CVaRBoundConstraint< Real >::setVectorToUpperBound ( Vector< Real > &  u)
inlinevirtual

Set the input vector to the upper bound.

This function sets the input vector \(u\) to the upper bound \(b\).

Parameters
[out]uis the vector to be set to the upper bound.

Reimplemented from ROL::BoundConstraint< Real >.

Definition at line 108 of file ROL_CVaRBoundConstraint.hpp.

References ROL::CVaRBoundConstraint< Real >::bc_, and ROL::ROL_OVERFLOW.

template<class Real >
void ROL::CVaRBoundConstraint< Real >::setVectorToLowerBound ( Vector< Real > &  l)
inlinevirtual

Set the input vector to the lower bound.

This function sets the input vector \(l\) to the lower bound \(a\).

Parameters
[out]lis the vector to be set to the lower bound.

Reimplemented from ROL::BoundConstraint< Real >.

Definition at line 116 of file ROL_CVaRBoundConstraint.hpp.

References ROL::CVaRBoundConstraint< Real >::bc_, and ROL::ROL_OVERFLOW.

template<class Real >
void ROL::CVaRBoundConstraint< Real >::pruneActive ( Vector< Real > &  v,
const Vector< Real > &  x,
Real  eps = 0.0 
)
inlinevirtual

Set variables to zero if they correspond to the \(\epsilon\)-active set.

This function sets \(v(\xi)=0\) if \(\xi\in\mathcal{A}_\epsilon(x)\). Here, the \(\epsilon\)-active set is defined as

\[ \mathcal{A}_\epsilon(x) = \mathcal{A}^+_\epsilon(x)\cap\mathcal{A}^-_\epsilon(x). \]

Parameters
[out]vis the variable to be pruned.
[in]xis the current optimization variable.
[in]epsis the active-set tolerance \(\epsilon\).

Reimplemented from ROL::BoundConstraint< Real >.

Definition at line 124 of file ROL_CVaRBoundConstraint.hpp.

References ROL::CVaRBoundConstraint< Real >::bc_.

template<class Real >
void ROL::CVaRBoundConstraint< Real >::pruneActive ( Vector< Real > &  v,
const Vector< Real > &  g,
const Vector< Real > &  x,
Real  eps = 0.0 
)
inlinevirtual

Set variables to zero if they correspond to the \(\epsilon\)-binding set.

This function sets \(v(\xi)=0\) if \(\xi\in\mathcal{B}_\epsilon(x)\). Here, the \(\epsilon\)-binding set is defined as

\[ \mathcal{B}^+_\epsilon(x) = \mathcal{B}^+_\epsilon(x)\cap\mathcal{B}^-_\epsilon(x). \]

Parameters
[out]vis the variable to be pruned.
[in]xis the current optimization variable.
[in]gis the negative search direction.
[in]epsis the active-set tolerance \(\epsilon\).

Reimplemented from ROL::BoundConstraint< Real >.

Definition at line 132 of file ROL_CVaRBoundConstraint.hpp.

References ROL::CVaRBoundConstraint< Real >::bc_.

template<class Real >
bool ROL::CVaRBoundConstraint< Real >::isFeasible ( const Vector< Real > &  v)
inlinevirtual

Check if the vector, v, is feasible.

This function returns true if \(v = P_{[a,b]}(v)\).

Parameters
[in]vis the vector to be checked.

Reimplemented from ROL::BoundConstraint< Real >.

Definition at line 142 of file ROL_CVaRBoundConstraint.hpp.

References ROL::CVaRBoundConstraint< Real >::bc_.

Member Data Documentation

template<class Real >
Teuchos::RCP<BoundConstraint<Real> > ROL::CVaRBoundConstraint< Real >::bc_
private

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