/usr/include/trilinos/Teko_TpetraThyraConverter.hpp is in libtrilinos-teko-dev 12.12.1-5.
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// Teko: A package for block and physics based preconditioning
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#ifndef __Teko_TpetraThyraConverter_hpp__
#define __Teko_TpetraThyraConverter_hpp__
// Teuchos includes
#include "Teuchos_RCP.hpp"
// Tpetra includes
#include "Tpetra_MultiVector.hpp"
#include "Tpetra_Map.hpp"
// Thyra includes
#include "Thyra_VectorSpaceBase.hpp"
#include "Teko_ConfigDefs.hpp"
namespace Teko {
namespace TpetraHelpers {
/** \brief Convert a Epetra_MultiVector with assumed block structure dictated by the
* vector space into a Thyra::MultiVectorBase object.
*
* Converts a Epetra_MultiVector to a Thyra::MultiVectorBase object. The structure of
* the Epetra_MultiVector is assumed to be described by a map produced from the vector space
* containing the destination vector. For instance if there is a vector \f$v = [ [v_0, v_1] , v_2]^T\f$
* where \f$v_0\f$, \f$v_1\f$ and \f$v_2\f$ are all subvectors then the Epetra_Map
* corresponding to \f$v\f$ would have indicies
\f$v_0^0, v_0^1,\ldots,v_0^{n_0},
v_1^0, v_1^1,\ldots,v_1^{n_1}
v_2^0, v_2^1,\ldots,v_2^{n_2} \f$.
* That is the each of the subvectors are stacked on top of each other. The possibly recursive
* block structure is then dictated by the vector space. The resulting Thyra::MultiVectorBase
* object will be in the vectors space, with the contents of the Epetra_MultiVector copied to it.
*
* \param[in] epetraX Source Epetra_MultiVector object to be converted. See assumptions in Preconditions section.
* \param[in,out] thyraX Destination Thyra::MultiVectorBase. See assumptions in Preconditions section
*
* <b>Preconditions</b><ul>
* <li> [mv.Map()==thyraVSToEpetraMap(thyraX->space())] This method assumes that the map used to create
* <code>epetraX</code> was created using the thyraVSToEpetraMap function using the vector space defining
<code>thyraX</code>
* <li> All subvectors are of type Thyra::SpmdMultiVectorBase or Thyra::ProductMultiVectorBase
* </ul>
*
* <b>Postconditions</b><ul>
* <li> [<code>thryaX==epetraX</code>] Contents of <code>epetraX</code> are copied into <code>thyraX</code>
* </ul>
*
* \note Due to a Thyra issue with a somewhat incomplete inheritance hierarchy surrounding
* the <code>SpmdMultiVectorBase</code> and <code>SpmdVectorBase</code> interfaces <code>thyraX</code> must be of
* type <code>SpmdMultiVectorBase</code>, <code>ProductMultiVectorBase</code>, or <code>ProductVectorBase</code>.
* Notice that this does not include the <code>SpmdVectorBase</code> class. A fix of this might involve a more
* general implementation and use of <code>DetachedSpmdMultiVectorView</code>.
*/
void blockTpetraToThyra(const Tpetra::MultiVector<ST,LO,GO,NT> & tpetraX,const Teuchos::Ptr<Thyra::MultiVectorBase<ST> > & thyraX);
/** \brief Convert a Thyra::MultiVectorBase object to a Epetra_MultiVector object with
* the map defined by the Epetra_Map.
*
* Converts a Thyra::MultiVectorBase object to a Epetra_MultiVector object. The Epetra_MultiVector
* should have been created to be compatiable with the Thyra multi-vector, i.e. using the corresponding
* map create by a call to thyraVSToEpetraMap. For example, for a Thyra::MultiVectorBase object
* \f$v = [ [v_0, v_1] , v_2]^T\f$ where \f$v_0\f$, \f$v_1\f$ and \f$v_2\f$ are all subvectors,
* the Epetra_MultiVector object will have global indicies
\f$v_0^0, v_0^1,\ldots,v_0^{n_0},
v_1^0, v_1^1,\ldots,v_1^{n_1}
v_2^0, v_2^1,\ldots,v_2^{n_2} \f$.
* That is the each of the subvectors are stacked on top of each other. The possibly recursive
* block structure is then dictated by the Thyra::MultiVectorBase object. The resulting Epetra_MultiVector
* object will be a copy of the Thyra::MultiVectorBase object.
*
* \param[in] thyraX Source Thyra::MultiVectorBase object to be converted. See assumptions in Preconditions section.
* \param[in,out] epetraX Destination Epetra_MultiVector. See assumptions in Preconditions section
*
* <b>Preconditions</b><ul>
* <li> [<code>epetraX.Map()==thyraVSToEpetraMap(thyraX->space())</code>] This method assumes that the map used to create
* <code>epetraX</code> was created using the thyraVSToEpetraMap function using the vector space defining
<code>thyraX</code>
* <li> All subvectors are of type Thyra::SpmdMultiVectorBase or Thyra::ProductMultiVectorBase
* </ul>
*
* <b>Postconditions</b><ul>
* <li> [<code>thryaX==epetraX</code>] Contents of <code>epetraX</code> are copied into <code>thyraX</code>
* </ul>
*
* \note Due to a Thyra issue with a somewhat incomplete inheritance hierarchy surrounding
* the <code>SpmdMultiVectorBase</code> and <code>SpmdVectorBase</code> interfaces <code>thyraX</code> must be of
* type <code>SpmdMultiVectorBase</code>, <code>ProductMultiVectorBase</code>, or <code>ProductVectorBase</code>.
* Notice that this does not include the <code>SpmdVectorBase</code> class. A fix of this might involve a more
* general implementation and use of <code>ConstDetachedSpmdMultiVectorView</code>.
*/
void blockThyraToTpetra(const Teuchos::RCP<const Thyra::MultiVectorBase<ST> > & thyraX,Tpetra::MultiVector<ST,LO,GO,NT> & tpetraX);
/** \brief From a Thyra vector space create a compatable Epetra_Map
*
* Build a distributed Epetra_Map from a Thyra::VectorSpaceBase object. This vector space
* should only be composed of ProductVectorSpaceBase and SpmdVectorSpaceBase objects. Elements
* stored locally on this process will map to global indicies stored locally. So the parallel
* distribution should be the same for both the vector space and the map.
*
* As an example consider the vector space that describes vectors of the form
* \f$v = [ [v_0, v_1] , v_2]^T\f$ where \f$v_0\f$, \f$v_1\f$ and \f$v_2\f$ are all subvectors.
* The Epetra_Map created from this vector space will have global indicies
\f$v_0^0, v_0^1,\ldots,v_0^{n_0},
v_1^0, v_1^1,\ldots,v_1^{n_1}
v_2^0, v_2^1,\ldots,v_2^{n_2} \f$.
* That is the each of the subvectors are stacked on top of each other.
*
* \param[in] vs A vector space object from which the Epetra_Map is to be created
* \param[in] comm The Epetra_Comm object used to create the Epetra_Map
*
* \return An Epetra_Map is returned whose global indicies are distributed in a
* way that mirrors the structure of the vector space <code>vs</code>.
*
* <b>Preconditions</b><ul>
* <li> Assumes that the vector space is composed of Thyra::ProductMultiVectorBase and
* Thyra::SpmdMultiVectorBase objects.
* </ul>
*/
const Teuchos::RCP<Tpetra::Map<LO,GO,NT> >
thyraVSToTpetraMap(const Thyra::VectorSpaceBase<ST> & vs,const Teuchos::RCP<const Teuchos::Comm<Thyra::Ordinal> > & comm);
} // end namespace Epetra
} // end namespace Teko
#endif
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