/usr/include/trilinos/Zoltan2_Algorithm.hpp is in libtrilinos-zoltan2-dev 12.12.1-5.
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//
// ***********************************************************************
//
// Zoltan2: A package of combinatorial algorithms for scientific computing
// Copyright 2012 Sandia Corporation
//
// Under the terms of Contract DE-AC04-94AL85000 with Sandia Corporation,
// the U.S. Government retains certain rights in this software.
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are
// met:
//
// 1. Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
//
// 2. Redistributions in binary form must reproduce the above copyright
// notice, this list of conditions and the following disclaimer in the
// documentation and/or other materials provided with the distribution.
//
// 3. Neither the name of the Corporation nor the names of the
// contributors may be used to endorse or promote products derived from
// this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY SANDIA CORPORATION "AS IS" AND ANY
// EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
// IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
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// SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
//
// Questions? Contact Karen Devine (kddevin@sandia.gov)
// Erik Boman (egboman@sandia.gov)
// Siva Rajamanickam (srajama@sandia.gov)
//
// ***********************************************************************
//
// @HEADER
/*! \file Zoltan2_BaseAdapter.hpp
\brief Defines the Adapter interface for accessing user data.
*/
#ifndef _ZOLTAN2_ALGORITHM_HPP_
#define _ZOLTAN2_ALGORITHM_HPP_
namespace Zoltan2 {
template <typename Adapter>
class Algorithm;
}
#include <Zoltan2_Standards.hpp>
#include <Zoltan2_ColoringSolution.hpp>
#include <Zoltan2_OrderingSolution.hpp>
#include <Zoltan2_PartitioningSolution.hpp>
#include <Zoltan2_MappingSolution.hpp>
#include <Zoltan2_CoordinatePartitioningGraph.hpp>
namespace Zoltan2 {
//! \brief Algorithm defines the base class for all algorithms.
//
// Algorithms do not have to implement all methods in the Algorithm base
// class. They should implement only those methods that are relevant.
// For example AlgScotch might implement partition() and order(), while
// AlgMJ might implement partition() and boxAssign().
// Default implementations throw a "not implemented" error
template <typename Adapter>
class Algorithm {
public:
typedef typename Adapter::lno_t lno_t;
typedef typename Adapter::gno_t gno_t;
typedef typename Adapter::scalar_t scalar_t;
typedef typename Adapter::part_t part_t;
// Virtual destructor needed to avoid undefined behavior and compiler warnings
virtual ~Algorithm() {}
//! \brief Ordering method
virtual int localOrder(const RCP<LocalOrderingSolution<lno_t> > &solution)
{
Z2_THROW_NOT_IMPLEMENTED
}
//! \brief Ordering method
virtual int globalOrder(const RCP<GlobalOrderingSolution<gno_t> > &solution)
{
Z2_THROW_NOT_IMPLEMENTED
}
//! \brief Coloring method
virtual void color(const RCP<ColoringSolution<Adapter> > &solution)
{
Z2_THROW_NOT_IMPLEMENTED
}
//! \brief Matching method
virtual void match() {
Z2_THROW_NOT_IMPLEMENTED
}
//! \brief Partitioning method
virtual void partition(const RCP<PartitioningSolution<Adapter> > &solution)
{
Z2_THROW_NOT_IMPLEMENTED
}
//! \brief Mapping method
virtual void map(const RCP<MappingSolution<Adapter> > &solution)
{
Z2_THROW_NOT_IMPLEMENTED
}
//! \brief return if algorithm determins tree to be binary
virtual bool isPartitioningTreeBinary() const
{
Z2_THROW_NOT_IMPLEMENTED
}
//! \brief for partitioning methods, fill arrays with partition tree info
virtual void getPartitionTree(part_t numParts,
part_t & numTreeVerts,
std::vector<part_t> & permPartNums,
std::vector<part_t> & splitRangeBeg,
std::vector<part_t> & splitRangeEnd,
std::vector<part_t> & treeVertParents) const
{
Z2_THROW_NOT_IMPLEMENTED
}
//! \brief for partitioning methods, return bounding boxes of the
// computed parts
// Not all partitioning algorithms will support
// this method.
//
virtual std::vector<coordinateModelPartBox<scalar_t, part_t> > &
getPartBoxesView() const
{
Z2_THROW_NOT_IMPLEMENTED
}
//! \brief pointAssign method: Available only for some partitioning algorithms
// when a point lies on a part boundary, the lowest part
// number on that boundary is returned.
// Not all partitioning algorithms will support
// this method.
//
// \param dim : the number of dimensions specified for the point in space
// \param point : the coordinates of the point in space; array of size dim
// \return the part number of a part overlapping the given point
virtual part_t pointAssign(int dim, scalar_t *point) const
{
Z2_THROW_NOT_IMPLEMENTED
}
//! \brief boxAssign method: Available only for some partitioning algorithms
// Return an array of all parts overlapping a given box in space.
// This method allocates memory for the return argument, but does not
// control that memory. The user is responsible for freeing the
// memory.
//
// \param dim : (in) the number of dimensions specified for the box
// \param ptLower : (in) the coordinates of the lower corner of the box;
// array of size dim
// \param ptUpper : (in) the coordinates of the upper corner of the box;
// array of size dim
// \param nParts : (out) the number of parts overlapping the box
// \param parts : (out) array of parts overlapping the box
virtual void boxAssign(int dim, scalar_t *lower, scalar_t *upper,
size_t &nParts, part_t **partsFound) const
{
Z2_THROW_NOT_IMPLEMENTED
}
//! \brief returns serial communication graph of a computed partition
// Returned graph is identical on all processors, and represents the
// global communication pattern in the partition.
//
// \param comXAdj: (out) the offset array: offsets into comAdj
// Format is standard CSR format:
// # nbor parts of part i = comXAdj[i+1]-comXAdj[i]
// That is, comXAdj[i] = Sum of # nbor parts of parts
// 0 through i-1
// \param comAdj (out) the neighboring parts
virtual void getCommunicationGraph(
const PartitioningSolution<Adapter> *solution,
ArrayRCP<part_t> &comXAdj,
ArrayRCP<part_t> &comAdj)
// TODO: Should the return args be ArrayViews?
{
Z2_THROW_NOT_IMPLEMENTED
}
//! \brief In mapping, returns the rank to which a part is assigned
// \param p: (in) the part for which the rank is sought
// This method need not be implemented by every algorithm or, indeed,
// for every mapping algorithm. Mapping algorithms may provide this
// function to prevent additional memory use in MappingSolution.
// For example, AlgContiguousMapping can compute this function implicitly,
// with no additional storage. However, Mapping algorithms can skip this
// function and, instead, register their results in MappingSolution.
virtual int getRankForPart(part_t p)
{
Z2_THROW_NOT_IMPLEMENTED
}
//! \brief In mapping, returns a view of parts assigned to the current rank
// \param numParts: (out) the number of parts assigned to the current rank
// \param parts: (out) a view of the assigned parts
//
// This method need not be implemented by every algorithm or, indeed,
// for every mapping algorithm. Mapping algorithms may provide this
// function to prevent additional memory use in MappingSolution.
// For example, AlgContiguousMapping can compute this function implicitly,
// with no additional storage. However, Mapping algorithms can skip this
// function and, instead, register their results in MappingSolution.
virtual void getMyPartsView(part_t &numParts, part_t *&parts)
{
Z2_THROW_NOT_IMPLEMENTED
}
private:
};
} //namespace Zoltan2
#endif
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