ROL
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A composite composite BoundConstraint formed from bound constraints on subvectors of a PartitionedVector. More...
#include <ROL_BoundConstraint_Partitioned.hpp>
Public Member Functions | |
~BoundConstraint_Partitioned () | |
BoundConstraint_Partitioned (const std::vector< Ptr< BoundConstraint< Real >>> &bnd, const std::vector< Ptr< Vector< Real >>> &x) | |
void | update (const Vector< Real > &x, bool flag=true, int iter=-1) |
void | project (Vector< Real > &x) |
Project optimization variables onto the bounds. More... | |
void | projectInterior (Vector< Real > &x) |
Project optimization variables into the interior of the feasible set. More... | |
void | pruneUpperActive (Vector< Real > &v, const Vector< Real > &x, Real eps=Real(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 xeps=Real(0), Real geps=Real(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=Real(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 xeps=Real(0), Real geps=Real(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... | |
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virtual | ~BoundConstraint () |
BoundConstraint (void) | |
BoundConstraint (const Vector< Real > &x) | |
virtual const Ptr< const Vector< Real > > | getLowerBound (void) const |
Return the ref count pointer to the lower bound vector. More... | |
virtual const Ptr< const Vector< Real > > | getUpperBound (void) const |
Return the ref count pointer to the upper bound vector. More... | |
void | activateLower (void) |
Turn on lower bound. More... | |
void | activateUpper (void) |
Turn on upper bound. More... | |
void | activate (void) |
Turn on bounds. More... | |
void | deactivateLower (void) |
Turn off lower bound. More... | |
void | deactivateUpper (void) |
Turn off upper bound. More... | |
void | deactivate (void) |
Turn off bounds. More... | |
bool | isLowerActivated (void) const |
Check if lower bound are on. More... | |
bool | isUpperActivated (void) const |
Check if upper bound are on. More... | |
bool | isActivated (void) const |
Check if bounds are on. More... | |
void | pruneActive (Vector< Real > &v, const Vector< Real > &x, Real eps=Real(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 xeps=Real(0), Real geps=Real(0)) |
Set variables to zero if they correspond to the \(\epsilon\)-binding set. More... | |
void | pruneLowerInactive (Vector< Real > &v, const Vector< Real > &x, Real eps=Real(0)) |
Set variables to zero if they correspond to the \(\epsilon\)-inactive set. More... | |
void | pruneUpperInactive (Vector< Real > &v, const Vector< Real > &x, Real eps=Real(0)) |
Set variables to zero if they correspond to the \(\epsilon\)-inactive set. More... | |
void | pruneLowerInactive (Vector< Real > &v, const Vector< Real > &g, const Vector< Real > &x, Real xeps=Real(0), Real geps=Real(0)) |
Set variables to zero if they correspond to the \(\epsilon\)-nonbinding set. More... | |
void | pruneUpperInactive (Vector< Real > &v, const Vector< Real > &g, const Vector< Real > &x, Real xeps=Real(0), Real geps=Real(0)) |
Set variables to zero if they correspond to the \(\epsilon\)-nonbinding set. More... | |
void | pruneInactive (Vector< Real > &v, const Vector< Real > &x, Real eps=Real(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 xeps=Real(0), Real geps=Real(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 Types | |
typedef Vector< Real > | V |
typedef PartitionedVector< Real > | PV |
typedef std::vector< Real >::size_type | uint |
Private Attributes | |
std::vector< Ptr< BoundConstraint< Real > > > | bnd_ |
Ptr< V > | l_ |
Ptr< V > | u_ |
uint | dim_ |
bool | hasLvec_ |
bool | hasUvec_ |
Additional Inherited Members | |
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Ptr< Vector< Real > > | lower_ |
Ptr< Vector< Real > > | upper_ |
A composite composite BoundConstraint formed from bound constraints on subvectors of a PartitionedVector.
Definition at line 61 of file ROL_BoundConstraint_Partitioned.hpp.
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Definition at line 63 of file ROL_BoundConstraint_Partitioned.hpp.
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Definition at line 64 of file ROL_BoundConstraint_Partitioned.hpp.
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Definition at line 65 of file ROL_BoundConstraint_Partitioned.hpp.
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Definition at line 81 of file ROL_BoundConstraint_Partitioned.hpp.
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Definition at line 83 of file ROL_BoundConstraint_Partitioned.hpp.
References ROL::BoundConstraint< Real >::activate(), ROL::BoundConstraint_Partitioned< Real >::bnd_, ROL::BoundConstraint< Real >::deactivate(), ROL::BoundConstraint_Partitioned< Real >::dim_, ROL::BoundConstraint< Real >::getLowerBound(), ROL::BoundConstraint< Real >::getUpperBound(), ROL::BoundConstraint_Partitioned< Real >::hasLvec_, ROL::BoundConstraint_Partitioned< Real >::hasUvec_, ROL::BoundConstraint< Real >::isActivated(), ROL::BoundConstraint< Real >::isLowerActivated(), ROL::BoundConstraint< Real >::isUpperActivated(), ROL::BoundConstraint< Real >::lower_, and ROL::BoundConstraint< Real >::upper_.
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Project optimization variables onto the bounds.
This function implements the projection of \(x\) onto the bounds, i.e.,
\[ (P_{[a,b]}(x))(\xi) = \min\{b(\xi),\max\{a(\xi),x(\xi)\}\} \quad \text{for almost every }\xi\in\Xi. \]
[in,out] | x | is the optimization variable. |
Reimplemented from ROL::BoundConstraint< Real >.
Definition at line 152 of file ROL_BoundConstraint_Partitioned.hpp.
References ROL::BoundConstraint_Partitioned< Real >::bnd_, ROL::BoundConstraint_Partitioned< Real >::dim_, ROL::PartitionedVector< Real >::get(), and ROL::BoundConstraint< Real >::isActivated().
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Project optimization variables into the interior of the feasible set.
This function implements the projection of \(x\) into the interior of the feasible set, i.e.,
\[ (\bar{P}_{[a,b]}(x))(\xi) \in (a(\xi),b(\xi)) \quad \text{for almost every }\xi\in\Xi. \]
[in,out] | x | is the optimization variable. |
Reimplemented from ROL::BoundConstraint< Real >.
Definition at line 161 of file ROL_BoundConstraint_Partitioned.hpp.
References ROL::BoundConstraint_Partitioned< Real >::bnd_, ROL::BoundConstraint_Partitioned< Real >::dim_, ROL::PartitionedVector< Real >::get(), and ROL::BoundConstraint< Real >::isActivated().
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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
\[ \mathcal{A}^+_\epsilon(x) = \{\,\xi\in\Xi\,:\,x(\xi) \ge b(\xi)-\epsilon\,\}. \]
[out] | v | is the variable to be pruned. |
[in] | x | is the current optimization variable. |
[in] | eps | is the active-set tolerance \(\epsilon\). |
Reimplemented from ROL::BoundConstraint< Real >.
Definition at line 170 of file ROL_BoundConstraint_Partitioned.hpp.
References ROL::BoundConstraint_Partitioned< Real >::bnd_, ROL::BoundConstraint_Partitioned< Real >::dim_, ROL::PartitionedVector< Real >::get(), and ROL::BoundConstraint< Real >::isActivated().
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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
\[ \mathcal{B}^+_\epsilon(x) = \{\,\xi\in\Xi\,:\,x(\xi) \ge b(\xi)-\epsilon_x,\; g(\xi) < -\epsilon_g \,\}. \]
[out] | v | is the variable to be pruned. |
[in] | g | is the negative search direction. |
[in] | x | is the current optimization variable. |
[in] | xeps | is the active-set tolerance \(\epsilon_x\). |
[in] | geps | is the binding-set tolerance \(\epsilon_g\). |
Reimplemented from ROL::BoundConstraint< Real >.
Definition at line 180 of file ROL_BoundConstraint_Partitioned.hpp.
References ROL::BoundConstraint_Partitioned< Real >::bnd_, ROL::BoundConstraint_Partitioned< Real >::dim_, ROL::PartitionedVector< Real >::get(), and ROL::BoundConstraint< Real >::isActivated().
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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
\[ \mathcal{A}^-_\epsilon(x) = \{\,\xi\in\Xi\,:\,x(\xi) \le a(\xi)+\epsilon\,\}. \]
[out] | v | is the variable to be pruned. |
[in] | x | is the current optimization variable. |
[in] | eps | is the active-set tolerance \(\epsilon\). |
Reimplemented from ROL::BoundConstraint< Real >.
Definition at line 191 of file ROL_BoundConstraint_Partitioned.hpp.
References ROL::BoundConstraint_Partitioned< Real >::bnd_, ROL::BoundConstraint_Partitioned< Real >::dim_, ROL::PartitionedVector< Real >::get(), and ROL::BoundConstraint< Real >::isActivated().
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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 lower \(\epsilon\)-binding set is defined as
\[ \mathcal{B}^-_\epsilon(x) = \{\,\xi\in\Xi\,:\,x(\xi) \le a(\xi)+\epsilon,\; g(\xi) > 0 \,\}. \]
[out] | v | is the variable to be pruned. |
[in] | g | is the negative search direction. |
[in] | x | is the current optimization variable. |
[in] | xeps | is the active-set tolerance \(\epsilon_x\). |
[in] | geps | is the binding-set tolerance \(\epsilon_g\). |
Reimplemented from ROL::BoundConstraint< Real >.
Definition at line 201 of file ROL_BoundConstraint_Partitioned.hpp.
References ROL::BoundConstraint_Partitioned< Real >::bnd_, ROL::BoundConstraint_Partitioned< Real >::dim_, ROL::PartitionedVector< Real >::get(), and ROL::BoundConstraint< Real >::isActivated().
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Check if the vector, v, is feasible.
This function returns true if \(v = P_{[a,b]}(v)\).
[in] | v | is the vector to be checked. |
Reimplemented from ROL::BoundConstraint< Real >.
Definition at line 212 of file ROL_BoundConstraint_Partitioned.hpp.
References ROL::BoundConstraint_Partitioned< Real >::bnd_, ROL::BoundConstraint_Partitioned< Real >::dim_, ROL::PartitionedVector< Real >::get(), and ROL::BoundConstraint< Real >::isActivated().
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Definition at line 68 of file ROL_BoundConstraint_Partitioned.hpp.
Referenced by ROL::BoundConstraint_Partitioned< Real >::BoundConstraint_Partitioned(), ROL::BoundConstraint_Partitioned< Real >::isFeasible(), ROL::BoundConstraint_Partitioned< Real >::project(), ROL::BoundConstraint_Partitioned< Real >::projectInterior(), ROL::BoundConstraint_Partitioned< Real >::pruneLowerActive(), ROL::BoundConstraint_Partitioned< Real >::pruneUpperActive(), and ROL::BoundConstraint_Partitioned< Real >::update().
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Definition at line 72 of file ROL_BoundConstraint_Partitioned.hpp.
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Definition at line 73 of file ROL_BoundConstraint_Partitioned.hpp.
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Definition at line 75 of file ROL_BoundConstraint_Partitioned.hpp.
Referenced by ROL::BoundConstraint_Partitioned< Real >::BoundConstraint_Partitioned(), ROL::BoundConstraint_Partitioned< Real >::isFeasible(), ROL::BoundConstraint_Partitioned< Real >::project(), ROL::BoundConstraint_Partitioned< Real >::projectInterior(), ROL::BoundConstraint_Partitioned< Real >::pruneLowerActive(), ROL::BoundConstraint_Partitioned< Real >::pruneUpperActive(), and ROL::BoundConstraint_Partitioned< Real >::update().
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Definition at line 77 of file ROL_BoundConstraint_Partitioned.hpp.
Referenced by ROL::BoundConstraint_Partitioned< Real >::BoundConstraint_Partitioned().
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Definition at line 78 of file ROL_BoundConstraint_Partitioned.hpp.
Referenced by ROL::BoundConstraint_Partitioned< Real >::BoundConstraint_Partitioned().