Thyra::MultiVectorDefaultBase< Scalar > Class Template Reference
[Development of linear Abstract Numerical Algorithms (ANAs) (Client Support)]

Node subclass that uses a default MultiVectorBase implementation to provide default implementations for as many other functions in MultiVectorBase interface the as is reasonable. More...

#include <Thyra_MultiVectorDefaultBase_decl.hpp>

Inheritance diagram for Thyra::MultiVectorDefaultBase< Scalar >:
Inheritance graph
[legend]

List of all members.

Overridden public member functions from MultiVectorBase



virtual RCP< MultiVectorBase
< Scalar > > 
clone_mv () const
 

Overridden protected member functions from MultiVectorBase



RCP< const MultiVectorBase
< Scalar > > 
contigSubViewImpl (const Range1D &colRng) const
 
RCP< MultiVectorBase< Scalar > > nonconstContigSubViewImpl (const Range1D &colRng)
 
RCP< const MultiVectorBase
< Scalar > > 
nonContigSubViewImpl (const ArrayView< const int > &cols) const
 
RCP< MultiVectorBase< Scalar > > nonconstNonContigSubViewImpl (const ArrayView< const int > &cols)
 
virtual void mvMultiReductApplyOpImpl (const RTOpPack::RTOpT< Scalar > &primary_op, const ArrayView< const Ptr< const MultiVectorBase< Scalar > > > &multi_vecs, const ArrayView< const Ptr< MultiVectorBase< Scalar > > > &targ_multi_vecs, const ArrayView< const Ptr< RTOpPack::ReductTarget > > &reduct_objs, const Ordinal primary_global_offset) const
 
virtual void mvSingleReductApplyOpImpl (const RTOpPack::RTOpT< Scalar > &primary_op, const RTOpPack::RTOpT< Scalar > &secondary_op, const ArrayView< const Ptr< const MultiVectorBase< Scalar > > > &multi_vecs, const ArrayView< const Ptr< MultiVectorBase< Scalar > > > &targ_multi_vecs, const Ptr< RTOpPack::ReductTarget > &reduct_obj, const Ordinal primary_global_offset) const
 
virtual void acquireDetachedMultiVectorViewImpl (const Range1D &rowRng, const Range1D &colRng, RTOpPack::ConstSubMultiVectorView< Scalar > *sub_mv) const
 
virtual void releaseDetachedMultiVectorViewImpl (RTOpPack::ConstSubMultiVectorView< Scalar > *sub_mv) const
 
virtual void acquireNonconstDetachedMultiVectorViewImpl (const Range1D &rowRng, const Range1D &colRng, RTOpPack::SubMultiVectorView< Scalar > *sub_mv)
 
virtual void commitNonconstDetachedMultiVectorViewImpl (RTOpPack::SubMultiVectorView< Scalar > *sub_mv)
 

Detailed Description

template<class Scalar>
class Thyra::MultiVectorDefaultBase< Scalar >

Node subclass that uses a default MultiVectorBase implementation to provide default implementations for as many other functions in MultiVectorBase interface the as is reasonable.

Notes to subclass developers

Only three function overrides are required in order to create a concrete MultiVectorBase subclass: range(), domain() and the non-const version of col(). All of the other functions have default implementations. However, a good implementation will provide optimized overrides of at least the functions apply() and applyTranspose(). The non-const versions of subView() should be overridden if subviews are important. The default implementation will not achieve near-optimal performance in many cases.

Definition at line 57 of file Thyra_MultiVectorDefaultBase_decl.hpp.


Member Function Documentation

template<class Scalar >
RCP< MultiVectorBase< Scalar > > Thyra::MultiVectorDefaultBase< Scalar >::clone_mv (  )  const [inline, virtual]

This implementation uses the vector space to create a new multi-vector object and then uses a transformation operator to assign the vector elements. A subclass should only override this function if it can do something more sophisticated (i.e. lazy evaluation) but in general, this is not needed.

Implements Thyra::MultiVectorBase< Scalar >.

Reimplemented in Thyra::DefaultProductMultiVector< Scalar >, and Thyra::VectorDefaultBase< Scalar >.

Definition at line 54 of file Thyra_MultiVectorDefaultBase_def.hpp.

template<class Scalar >
RCP< const MultiVectorBase< Scalar > > Thyra::MultiVectorDefaultBase< Scalar >::contigSubViewImpl ( const Range1D colRng  )  const [inline, protected, virtual]
template<class Scalar >
RCP< MultiVectorBase< Scalar > > Thyra::MultiVectorDefaultBase< Scalar >::nonconstContigSubViewImpl ( const Range1D colRng  )  [inline, protected, virtual]
template<class Scalar >
RCP< const MultiVectorBase< Scalar > > Thyra::MultiVectorDefaultBase< Scalar >::nonContigSubViewImpl ( const ArrayView< const int > &  cols  )  const [inline, protected, virtual]
template<class Scalar >
RCP< MultiVectorBase< Scalar > > Thyra::MultiVectorDefaultBase< Scalar >::nonconstNonContigSubViewImpl ( const ArrayView< const int > &  cols  )  [inline, protected, virtual]
template<class Scalar >
void Thyra::MultiVectorDefaultBase< Scalar >::mvMultiReductApplyOpImpl ( const RTOpPack::RTOpT< Scalar > &  primary_op,
const ArrayView< const Ptr< const MultiVectorBase< Scalar > > > &  multi_vecs,
const ArrayView< const Ptr< MultiVectorBase< Scalar > > > &  targ_multi_vecs,
const ArrayView< const Ptr< RTOpPack::ReductTarget > > &  reduct_objs,
const Ordinal  primary_global_offset 
) const [inline, protected, virtual]

This implementation calls VectorBase::applyOp() on each column this->col(j) for j = 0 ... this->range()->dim()-1.

Implements Thyra::MultiVectorBase< Scalar >.

Reimplemented in Thyra::DefaultProductMultiVector< Scalar >, and Thyra::SpmdMultiVectorBase< Scalar >.

Definition at line 201 of file Thyra_MultiVectorDefaultBase_def.hpp.

template<class Scalar >
void Thyra::MultiVectorDefaultBase< Scalar >::mvSingleReductApplyOpImpl ( const RTOpPack::RTOpT< Scalar > &  primary_op,
const RTOpPack::RTOpT< Scalar > &  secondary_op,
const ArrayView< const Ptr< const MultiVectorBase< Scalar > > > &  multi_vecs,
const ArrayView< const Ptr< MultiVectorBase< Scalar > > > &  targ_multi_vecs,
const Ptr< RTOpPack::ReductTarget > &  reduct_obj,
const Ordinal  primary_global_offset 
) const [inline, protected, virtual]

This implementation calls applyOp() where an array of reduction objects is taken.

Implements Thyra::MultiVectorBase< Scalar >.

Definition at line 260 of file Thyra_MultiVectorDefaultBase_def.hpp.

template<class Scalar >
void Thyra::MultiVectorDefaultBase< Scalar >::acquireDetachedMultiVectorViewImpl ( const Range1D rowRng,
const Range1D colRng,
RTOpPack::ConstSubMultiVectorView< Scalar > *  sub_mv 
) const [inline, protected, virtual]

This implementation is based on the vector operation VectorBase::acquireDetachedView() called on the non-changeable vector objects returned from col(). Note that the footprint of the reduction object (both internal and external state) will be O(rowRng.size()*colRng.size()). For serial applications this is fairly reasonable and will not be a major performance penalty. For parallel applications, however, this is a terrible implementation and must be overridden if rowRng.size() is large at all. Although, this function should not even be used in cases where the multi-vector is very large. If a subclass does override this function, it must also override releaseDetachedView() which has an implementation which is a companion to this function's implementation.

Implements Thyra::MultiVectorBase< Scalar >.

Reimplemented in Thyra::DefaultProductMultiVector< Scalar >, Thyra::VectorDefaultBase< Scalar >, and Thyra::SpmdMultiVectorBase< Scalar >.

Definition at line 308 of file Thyra_MultiVectorDefaultBase_def.hpp.

template<class Scalar >
void Thyra::MultiVectorDefaultBase< Scalar >::releaseDetachedMultiVectorViewImpl ( RTOpPack::ConstSubMultiVectorView< Scalar > *  sub_mv  )  const [inline, protected, virtual]

This implementation is a companion to the implementation for acquireDetachedView(). If acquireDetachedView() is overridden by a subclass then this function must be overridden also!

Implements Thyra::MultiVectorBase< Scalar >.

Reimplemented in Thyra::DefaultProductMultiVector< Scalar >, Thyra::VectorDefaultBase< Scalar >, and Thyra::SpmdMultiVectorBase< Scalar >.

Definition at line 358 of file Thyra_MultiVectorDefaultBase_def.hpp.

template<class Scalar >
void Thyra::MultiVectorDefaultBase< Scalar >::acquireNonconstDetachedMultiVectorViewImpl ( const Range1D rowRng,
const Range1D colRng,
RTOpPack::SubMultiVectorView< Scalar > *  sub_mv 
) [inline, protected, virtual]

This implementation is based on the vector operation VectorBase::acquireDetachedView() called on the changeable vector objects returned from col(). Note that the footprint of the reduction object (both internal and external state) will be O(rowRng.size()*colRng.size()). For serial applications this is fairly reasonable and will not be a major performance penalty. For parallel applications, however, this is a terrible implementation and must be overridden if rowRng.size() is large at all. Although, this function should not even be used in case where the multi-vector is very large. If a subclass does override this function, it must also override commitDetachedView() which has an implementation which is a companion to this function's implementation.

Implements Thyra::MultiVectorBase< Scalar >.

Reimplemented in Thyra::DefaultProductMultiVector< Scalar >, Thyra::VectorDefaultBase< Scalar >, and Thyra::SpmdMultiVectorBase< Scalar >.

Definition at line 368 of file Thyra_MultiVectorDefaultBase_def.hpp.

template<class Scalar >
void Thyra::MultiVectorDefaultBase< Scalar >::commitNonconstDetachedMultiVectorViewImpl ( RTOpPack::SubMultiVectorView< Scalar > *  sub_mv  )  [inline, protected, virtual]

This implementation is a companion to the default implementation for acquireDetachedView(). If acquireDetachedView() is overridden by a subclass then this function must be overridden also!

Implements Thyra::MultiVectorBase< Scalar >.

Reimplemented in Thyra::DefaultProductMultiVector< Scalar >, Thyra::VectorDefaultBase< Scalar >, and Thyra::SpmdMultiVectorBase< Scalar >.

Definition at line 389 of file Thyra_MultiVectorDefaultBase_def.hpp.


The documentation for this class was generated from the following files:
 All Classes Namespaces Files Functions Variables Typedefs Enumerations Enumerator Friends Defines
Generated on Wed Apr 13 10:00:47 2011 for Thyra by  doxygen 1.6.3