/usr/include/trilinos/EpetraExt_MultiMpiComm.h is in libtrilinos-epetraext-dev 12.12.1-5.
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// ***********************************************************************
//
// EpetraExt: Epetra Extended - Linear Algebra Services Package
// Copyright (2011) 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
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// PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL SANDIA CORPORATION OR THE
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// Questions? Contact Michael A. Heroux (maherou@sandia.gov)
//
// ***********************************************************************
//@HEADER
#ifndef EPETRAEXT_MULTIMPICOMM_H
#define EPETRAEXT_MULTIMPICOMM_H
#include "EpetraExt_ConfigDefs.h"
#include "EpetraExt_MultiComm.h"
#include "Epetra_MpiComm.h"
#include "Teuchos_VerboseObject.hpp"
#include "Teuchos_RCP.hpp"
//! EpetraExt::MultiMpiComm is a class for keeping track of two levels of
//! parallelism. The class is an Epetra_MpiComm for the global problem
//! and contains another Eptra_MpiComm of the split problem. Each processor
//! is part of the global problem, and part of a sub-domain.
/*! EpetraExt::MultMpiComm: The class is an Epetra_MpiComm for the global problem
and contains another Epetra_MpiComm of the split problem. Each processor
is part of the global communicator, and a sub-domain communicator.
<b>Constructing EpetraExt::MultMpiComm objects</b>
*/
namespace EpetraExt {
class MultiMpiComm: public EpetraExt::MultiComm, public Epetra_MpiComm,
public Teuchos::VerboseObject<MultiMpiComm> {
public:
//@{ \name Constructors/Destructor.
//! MultiMpiComm constuctor
/*! Creates a MultiMpiComm object and communicators for the global and sub- problems.
\param In
globalComm - MPI communciator (usually MPI_COMM_WORLD)
\param In
subDomainProcss - number of processors in each subdomain. This must divide evenly into the total number of processors of the globalComm.
\param In
numTimeSteps (Default=-1) - Piece of partitioning data needed specifically for parallel space-time project, corresponding to the total number of time steps.
*/
MultiMpiComm(MPI_Comm globalComm, int subDomainProcs, int numTimeSteps_=-1,
const Teuchos::EVerbosityLevel verbLevel=Teuchos::VERB_DEFAULT);
//! MultiMpiComm constuctor, no parallelism over domains
/*! Creates a MultiMpiComm object for the simple case of no parallelism over
multiple steps.
\param In
EpetraMpiComm - Epetra_MpiComm communciator
\param In
numTimeSteps - Number of steps
*/
MultiMpiComm(const Epetra_MpiComm& Comm, int numTimeSteps_,
const Teuchos::EVerbosityLevel verbLevel=Teuchos::VERB_DEFAULT);
//! Copy constructor.
MultiMpiComm( const MultiMpiComm &MMC );
//! Destructor
virtual ~MultiMpiComm();
//@}
//! Get reference to split Communicator for sub-domain
virtual Epetra_Comm& SubDomainComm() const {return *subComm;}
//! Get reference to split MPI Communicator for sub-domain
Epetra_MpiComm& SubDomainMpiComm() const {return *subComm;}
//! Get reference to split Communicator for time domain
virtual Epetra_Comm& TimeDomainComm() const { return *timeComm; }
//! Get reference to split MPI Communicator for time domain
Epetra_MpiComm& TimeDomainMpiComm() const {return *timeComm;}
//! Return number of sub-domains that the global problem is split into.
virtual int NumSubDomains() const {return numSubDomains;}
//! Return integer [0:numSubDomains-1} corresponding to this sub-domain's rank.
virtual int SubDomainRank() const {return subDomainRank;}
//! Return number of time domains that the global problem is split into.
virtual int NumTimeDomains() const { return numTimeDomains; }
//! Return integer [0:numTimeDomains-1} corresponding to this time-domain's rank.
virtual int TimeDomainRank() const { return timeDomainRank; }
//! Return number of time steps, first step number, on time domain.
virtual int NumTimeStepsOnDomain() const {return numTimeStepsOnDomain;}
virtual int FirstTimeStepOnDomain() const {return firstTimeStepOnDomain;}
//! Return total number of time steps.
virtual int NumTimeSteps() const {return numTimeSteps;}
//! Reset total number of time steps, allowing time steps per domain to
// be set later than the MultiLevel parallelism is set up.
void ResetNumTimeSteps(int numTimeSteps);
virtual Epetra_Comm * Clone() const { return myComm->Clone(); };
virtual void Barrier() const { myComm->Barrier(); };
virtual int Broadcast(double * MyVals, int Count, int Root) const
{ return myComm->Broadcast( MyVals, Count, Root); };
virtual int Broadcast(int * MyVals, int Count, int Root) const
{ return myComm->Broadcast( MyVals, Count, Root); };
virtual int Broadcast(long * MyVals, int Count, int Root) const
{ return myComm->Broadcast( MyVals, Count, Root); };
virtual int Broadcast(long long * MyVals, int Count, int Root) const
{ return myComm->Broadcast( MyVals, Count, Root); };
virtual int Broadcast(char * MyVals, int Count, int Root) const
{ return myComm->Broadcast( MyVals, Count, Root); };
virtual int GatherAll(double * MyVals, double * AllVals, int Count) const
{ return myComm->GatherAll( MyVals, AllVals, Count); };
virtual int GatherAll(int * MyVals, int * AllVals, int Count) const
{ return myComm->GatherAll( MyVals, AllVals, Count); };
virtual int GatherAll(long * MyVals, long * AllVals, int Count) const
{ return myComm->GatherAll( MyVals, AllVals, Count); };
virtual int GatherAll(long long * MyVals, long long * AllVals, int Count) const
{ return myComm->GatherAll( MyVals, AllVals, Count); };
virtual int SumAll(double * PartialSums, double * GlobalSums, int Count) const
{ return myComm->SumAll( PartialSums, GlobalSums, Count); };
virtual int SumAll(int * PartialSums, int * GlobalSums, int Count) const
{ return myComm->SumAll( PartialSums, GlobalSums, Count); };
virtual int SumAll(long * PartialSums, long * GlobalSums, int Count) const
{ return myComm->SumAll( PartialSums, GlobalSums, Count); };
virtual int SumAll(long long * PartialSums, long long * GlobalSums, int Count) const
{ return myComm->SumAll( PartialSums, GlobalSums, Count); };
virtual int MaxAll(double * PartialMaxs, double * GlobalMaxs, int Count) const
{ return myComm->MaxAll( PartialMaxs, GlobalMaxs, Count); };
virtual int MaxAll(int * PartialMaxs, int * GlobalMaxs, int Count) const
{ return myComm->MaxAll( PartialMaxs, GlobalMaxs, Count); };
virtual int MaxAll(long * PartialMaxs, long * GlobalMaxs, int Count) const
{ return myComm->MaxAll( PartialMaxs, GlobalMaxs, Count); };
virtual int MaxAll(long long * PartialMaxs, long long * GlobalMaxs, int Count) const
{ return myComm->MaxAll( PartialMaxs, GlobalMaxs, Count); };
virtual int MinAll(double * PartialMins, double * GlobalMins, int Count) const
{ return myComm->MinAll( PartialMins, GlobalMins, Count); };
virtual int MinAll(int * PartialMins, int * GlobalMins, int Count) const
{ return myComm->MinAll( PartialMins, GlobalMins, Count); };
virtual int MinAll(long * PartialMins, long * GlobalMins, int Count)const
{ return myComm->MinAll( PartialMins, GlobalMins, Count); };
virtual int MinAll(long long * PartialMins, long long * GlobalMins, int Count)const
{ return myComm->MinAll( PartialMins, GlobalMins, Count); };
virtual int ScanSum(double * MyVals, double * ScanSums, int Count)const
{ return myComm->ScanSum( MyVals, ScanSums, Count); };
virtual int ScanSum(int * MyVals, int * ScanSums, int Count) const
{ return myComm->ScanSum(MyVals, ScanSums, Count); };
virtual int ScanSum(long * MyVals, long * ScanSums, int Count) const
{ return myComm->ScanSum(MyVals, ScanSums, Count); };
virtual int ScanSum(long long * MyVals, long long * ScanSums, int Count) const
{ return myComm->ScanSum(MyVals, ScanSums, Count); };
virtual int MyPID() const { return myComm->MyPID(); };
virtual int NumProc() const { return myComm->NumProc(); };
virtual Epetra_Distributor * CreateDistributor() const { return myComm->CreateDistributor(); };
virtual Epetra_Directory * CreateDirectory(const Epetra_BlockMap & Map) const
{ return myComm->CreateDirectory(Map); };
virtual void PrintInfo(std::ostream & os) const { myComm->PrintInfo( os); };
protected:
Teuchos::RCP<Epetra_Comm> myComm;
Epetra_MpiComm* subComm;
Epetra_MpiComm* timeComm;
int numSubDomains;
int numTimeDomains;
int subDomainRank;
int timeDomainRank;
int numTimeSteps;
int numTimeStepsOnDomain;
int firstTimeStepOnDomain;
};
} //namespace EpetraExt
#endif /* EPETRAEXT_MULTIMPICOMM_H */
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