Zoltan 2 Version 0.5
Public Member Functions | Static Public Member Functions
Zoltan2::XpetraMultiVectorInput< User > Class Template Reference

An input adapter for Xpetra::MultiVector. More...

#include <Zoltan2_XpetraMultiVectorInput.hpp>

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List of all members.

Public Member Functions

 ~XpetraMultiVectorInput ()
 Destructor.
 XpetraMultiVectorInput (const RCP< const User > &invector, vector< const scalar_t * > &weights, vector< int > &weightStrides)
 Constructor.
 XpetraMultiVectorInput (const RCP< const User > &invector)
 Constructor for case when weights are not being used.
const RCP< const x_mvector_t > & getVector () const
 Access to xpetra wrapper multivector.
string inputAdapterName () const
 Returns a descriptive name that identifies the concrete adapter.
size_t getLocalNumberOfObjects () const
 Returns the number of objects in the input.
int getNumberOfWeightsPerObject () const
 Returns the number of weights per object. Number of weights per object should be zero or greater. If zero, then it is assumed that all objects are equally weighted.
size_t getObjectWeights (int dim, const scalar_t *&wgt, int &stride) const
 Provide pointer to a weight array with stride.
int getNumberOfVectors () const
 Return the number of vectors (typically one).
int getNumberOfWeights () const
 Return the number of weights per vector element. Number of weights per element should be zero or greater. If zero, it is assumed each vector is equally weighted.
size_t getLocalLength () const
 Return the length of the portion of the vector on this process.
size_t getGlobalLength () const
size_t getVector (const gid_t *&Ids, const scalar_t *&elements, int &stride) const
 Provide a pointer to the vertex elements. If the VectorInput represents more than one vector, vector zero is implied.
size_t getVector (int i, const gid_t *&Ids, const scalar_t *&elements, int &stride) const
 Provide a pointer to the elements of the specified vector.
size_t getVectorWeights (int dim, const scalar_t *&weights, int &stride) const
 Provide a pointer to the weights corresponding to the elements returned in getVector().
template<typename Adapter >
size_t applyPartitioningSolution (const User &in, User *&out, const PartitioningSolution< Adapter > &solution) const
enum InputAdapterType inputAdapterType () const
 Returns the type of adapter.
template<typename Adapter >
size_t applyPartitioningSolution (User &in, User *&out, const PartitioningSolution< Adapter > &solution) const
 Apply a PartitioningSolution to an input.

Static Public Member Functions

static string inputAdapterTypeName (InputAdapterType iaType)
 Returns the name of the input adapter.

Detailed Description

template<typename User>
class Zoltan2::XpetraMultiVectorInput< User >

An input adapter for Xpetra::MultiVector.

The template parameter is the user's input object:

The scalar_t type, representing use data such as matrix values, is used by Zoltan2 for weights, coordinates, part sizes and quality metrics. Some User types (like Tpetra::CrsMatrix) have an inherent scalar type, and some (like Tpetra::CrsGraph) do not. For such objects, the scalar type is set by Zoltan2 to float. If you wish to change it to double, set the second template parameter to double.

Definition at line 81 of file Zoltan2_XpetraMultiVectorInput.hpp.


Constructor & Destructor Documentation

template<typename User>
Zoltan2::XpetraMultiVectorInput< User >::~XpetraMultiVectorInput ( ) [inline]

Destructor.

Definition at line 101 of file Zoltan2_XpetraMultiVectorInput.hpp.

template<typename User >
Zoltan2::XpetraMultiVectorInput< User >::XpetraMultiVectorInput ( const RCP< const User > &  invector,
vector< const scalar_t * > &  weights,
vector< int > &  weightStrides 
)

Constructor.

Parameters:
invectorthe user's Xpetra, Tpetra or Epetra MultiVector object
weightsa list of pointers to arrays of weights. The number of weights per multivector element is assumed to be weights.size().
weightStridesa list of strides for the weights. The weight for weight dimension n for multivector element k should be found at weights[n][weightStrides[n] * k]. If weightStrides.size() is zero, it is assumed all strides are one.

The values pointed to the arguments must remain valid for the lifetime of this InputAdapter.

Definition at line 205 of file Zoltan2_XpetraMultiVectorInput.hpp.

template<typename User >
Zoltan2::XpetraMultiVectorInput< User >::XpetraMultiVectorInput ( const RCP< const User > &  invector)

Constructor for case when weights are not being used.

Parameters:
invectorthe user's Xpetra, Tpetra or Epetra MultiVector object

Definition at line 233 of file Zoltan2_XpetraMultiVectorInput.hpp.


Member Function Documentation

template<typename User>
const RCP<const x_mvector_t>& Zoltan2::XpetraMultiVectorInput< User >::getVector ( ) const [inline]

Access to xpetra wrapper multivector.

Definition at line 131 of file Zoltan2_XpetraMultiVectorInput.hpp.

template<typename User>
string Zoltan2::XpetraMultiVectorInput< User >::inputAdapterName ( ) const [inline, virtual]

Returns a descriptive name that identifies the concrete adapter.

Implements Zoltan2::InputAdapter< User >.

Definition at line 140 of file Zoltan2_XpetraMultiVectorInput.hpp.

template<typename User>
size_t Zoltan2::XpetraMultiVectorInput< User >::getLocalNumberOfObjects ( ) const [inline, virtual]

Returns the number of objects in the input.

Objects may be coordinates, graph vertices, matrix rows, etc. They are the objects to be partitioned, ordered, or colored.

Implements Zoltan2::InputAdapter< User >.

Definition at line 142 of file Zoltan2_XpetraMultiVectorInput.hpp.

template<typename User>
int Zoltan2::XpetraMultiVectorInput< User >::getNumberOfWeightsPerObject ( ) const [inline, virtual]

Returns the number of weights per object. Number of weights per object should be zero or greater. If zero, then it is assumed that all objects are equally weighted.

Implements Zoltan2::InputAdapter< User >.

Definition at line 144 of file Zoltan2_XpetraMultiVectorInput.hpp.

template<typename User>
size_t Zoltan2::XpetraMultiVectorInput< User >::getObjectWeights ( int  dim,
const scalar_t *&  wgt,
int &  stride 
) const [inline, virtual]

Provide pointer to a weight array with stride.

Parameters:
dimthe weight dimension, zero or greater
wgton return a pointer to the weights for this dimension
strideon return, the value such that the nth weight should be found at wgt[n*stride] .
Returns:
the length of the wgt array, which should be at least equal to getLocalNumberOfObjects() * stride .

Implements Zoltan2::InputAdapter< User >.

Definition at line 146 of file Zoltan2_XpetraMultiVectorInput.hpp.

template<typename User>
int Zoltan2::XpetraMultiVectorInput< User >::getNumberOfVectors ( ) const [inline, virtual]

Return the number of vectors (typically one).

Implements Zoltan2::VectorInput< User >.

Definition at line 155 of file Zoltan2_XpetraMultiVectorInput.hpp.

template<typename User>
int Zoltan2::XpetraMultiVectorInput< User >::getNumberOfWeights ( ) const [inline, virtual]

Return the number of weights per vector element. Number of weights per element should be zero or greater. If zero, it is assumed each vector is equally weighted.

Implements Zoltan2::VectorInput< User >.

Definition at line 157 of file Zoltan2_XpetraMultiVectorInput.hpp.

template<typename User>
size_t Zoltan2::XpetraMultiVectorInput< User >::getLocalLength ( ) const [inline, virtual]

Return the length of the portion of the vector on this process.

Implements Zoltan2::VectorInput< User >.

Definition at line 159 of file Zoltan2_XpetraMultiVectorInput.hpp.

template<typename User>
size_t Zoltan2::XpetraMultiVectorInput< User >::getGlobalLength ( ) const [inline]

Definition at line 161 of file Zoltan2_XpetraMultiVectorInput.hpp.

template<typename User>
size_t Zoltan2::XpetraMultiVectorInput< User >::getVector ( const gid_t *&  ids,
const scalar_t *&  elements,
int &  stride 
) const [inline, virtual]

Provide a pointer to the vertex elements. If the VectorInput represents more than one vector, vector zero is implied.

Parameters:
idswill on return point to the list of global Ids for each element on this process.
elementswill on return point to the vector values corresponding to the global Ids.
stridethe k'th element is located at elements[stride*k]
Returns:
The number of ids in the Ids list.

Implements Zoltan2::VectorInput< User >.

Definition at line 163 of file Zoltan2_XpetraMultiVectorInput.hpp.

template<typename User >
size_t Zoltan2::XpetraMultiVectorInput< User >::getVector ( int  i,
const gid_t *&  ids,
const scalar_t *&  elements,
int &  stride 
) const [virtual]

Provide a pointer to the elements of the specified vector.

Parameters:
iranges from zero to one less than getNumberOfVector(), and represents the vector for which data is being requested.
idswill on return point to the list of global Ids for each element on this process.
elementswill on return point to the vector values corresponding to the global Ids.
stridethe k'th element is located at elements[stride*k]
Returns:
The number of ids in the Ids list.

Implements Zoltan2::VectorInput< User >.

Definition at line 247 of file Zoltan2_XpetraMultiVectorInput.hpp.

template<typename User>
size_t Zoltan2::XpetraMultiVectorInput< User >::getVectorWeights ( int  dimension,
const scalar_t *&  weights,
int &  stride 
) const [inline, virtual]

Provide a pointer to the weights corresponding to the elements returned in getVector().

Parameters:
dimensionranges from zero to one less than getNumberOfWeights()
weightsis the list of weights of the given dimension for the elements listed in getVector. If weights for this dimension are to be uniform for all vectors in the global problem, the weights should be a NULL pointer.
strideThe k'th weight is located at weights[stride*k]
Returns:
The number of weights listed, which should be the same as the number of elements listed in getVector().

Implements Zoltan2::VectorInput< User >.

Definition at line 172 of file Zoltan2_XpetraMultiVectorInput.hpp.

template<typename User >
template<typename Adapter >
size_t Zoltan2::XpetraMultiVectorInput< User >::applyPartitioningSolution ( const User &  in,
User *&  out,
const PartitioningSolution< Adapter > &  solution 
) const

Definition at line 284 of file Zoltan2_XpetraMultiVectorInput.hpp.

template<typename User >
enum InputAdapterType Zoltan2::VectorInput< User >::inputAdapterType ( ) const [inline, virtual, inherited]

Returns the type of adapter.

Implements Zoltan2::InputAdapter< User >.

Definition at line 125 of file Zoltan2_VectorInput.hpp.

template<typename User >
template<typename Adapter >
size_t Zoltan2::VectorInput< User >::applyPartitioningSolution ( User &  in,
User *&  out,
const PartitioningSolution< Adapter > &  solution 
) const [inline, inherited]

Apply a PartitioningSolution to an input.

This is not a required part of the VectorInput interface. However if the Caller calls a Problem method to redistribute data, it needs this method to perform the redistribution.

Parameters:
inAn input object with a structure and assignment of of global Ids to processes that matches that of the input data that instantiated this InputAdapter.
outOn return this should point to a newly created object with the specified partitioning.
solutionThe Solution object created by a Problem should be supplied as the third argument. It must have been templated on user data that has the same global ID distribution as this user data.
Returns:
Returns the number of local Ids in the new partitioning.

Definition at line 209 of file Zoltan2_VectorInput.hpp.

template<typename User >
string Zoltan2::InputAdapter< User >::inputAdapterTypeName ( InputAdapterType  iaType) [static, inherited]

Returns the name of the input adapter.

Definition at line 134 of file Zoltan2_InputAdapter.hpp.


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