doc/html/fei__Graph__Impl_8cpp_source.html

 /*--------------------------------------------------------------------*/

 /*    Copyright 2005 Sandia Corporation.                              */

 /*    Under the terms of Contract DE-AC04-94AL85000, there is a       */

 /*    non-exclusive license for use of this work by or on behalf      */

 /*    of the U.S. Government.  Export of this program may require     */

 /*    a license from the United States Government.                    */

 /*--------------------------------------------------------------------*/


 #include <fei_macros.hpp>


 #include <fei_Graph_Impl.hpp>

 #include <fei_EqnComm.hpp>

 #include <fei_CommUtils.hpp>

 #include <fei_TemplateUtils.hpp>

 #include <fei_VectorSpace.hpp>


 #undef fei_file

 #define fei_file "fei_Graph_Impl.cpp"

 #include <fei_ErrMacros.hpp>


 //----------------------------------------------------------------------------

 fei::Graph_Impl::Graph_Impl(MPI_Comm comm, int firstLocalRow, int lastLocalRow)

   : localGraphData_(NULL),

     remoteGraphData_(),

     eqnComm_(),

     firstLocalRow_(firstLocalRow),

     lastLocalRow_(lastLocalRow),

     localProc_(0),

     numProcs_(1),

     comm_(comm)

 {

   localProc_ = fei::localProc(comm_);

   numProcs_  = fei::numProcs(comm_);

   //for remoteGraphData_, we don't know what the range of row-numbers will

   //be, so we'll just construct it with -1,-1

   remoteGraphData_.resize(numProcs_);

   for(int p=0; p<numProcs_; ++p) {

     remoteGraphData_[p] = new remote_table_type(-1, -1);

   }

   eqnComm_.reset(new fei::EqnComm(comm_, lastLocalRow-firstLocalRow+1));

   localGraphData_       = new table_type(firstLocalRow_, lastLocalRow_);

 }


 //----------------------------------------------------------------------------

 fei::Graph_Impl::~Graph_Impl()

 {

   delete localGraphData_;

   for(unsigned i=0; i<remoteGraphData_.size(); ++i) {

     delete remoteGraphData_[i];

   }

 }


 //----------------------------------------------------------------------------

 int fei::Graph_Impl::addIndices(int row, int len, const int* indices)

 {

   if (row < 0) {

     return(-1);

   }


   if (row < firstLocalRow_ || row > lastLocalRow_) {

     int p = eqnComm_->getOwnerProc(row);

     remoteGraphData_[p]->addIndices(row, len, indices);

   }

   else localGraphData_->addIndices(row, len, indices);


   return(0);

 }


 //----------------------------------------------------------------------------

 int fei::Graph_Impl::addSymmetricIndices(int numIndices, int* indices,

           bool diagonal)

 {

   if (diagonal) {

     addDiagonals(numIndices, indices);

     return(0);

   }


   bool all_local = true;

   if (numProcs_ > 1) {

     for(int i=0; i<numIndices; ++i) {

       if (indices[i] < 0) {

   return(-1);

       }


       bool local = true;

       if (indices[i] < firstLocalRow_ || indices[i] > lastLocalRow_) {

     all_local = false;

     local = false;

       }


       if (!local) {

         int p = eqnComm_->getOwnerProc(indices[i]);

   remoteGraphData_[p]->addIndices(indices[i], numIndices, indices);

       }

     }

   }


   if (all_local) {

     localGraphData_->addIndices(numIndices, indices,

           numIndices, indices);

   }

   else {

     for(int i=0; i<numIndices; ++i) {

       if (indices[i] >= firstLocalRow_ && indices[i] <= lastLocalRow_) {

     localGraphData_->addIndices(indices[i], numIndices, indices);

       }

     }

   }


   return(0);

 }


 //----------------------------------------------------------------------------

 void fei::Graph_Impl::addDiagonals(int numIndices, int* indices)

 {

   bool all_local = true;

   int i;

   if (numProcs_ > 1) {

     for(i=0; i<numIndices; ++i) {

       int ind = indices[i];

       if (ind < 0) {

         throw std::runtime_error("fei::Graph_Impl::addDiagonals given negative index");

       }


       bool local = true;

       if (ind < firstLocalRow_ || ind > lastLocalRow_) {

     all_local = false;

     local = false;

       }


       if (!local) {

         int p=eqnComm_->getOwnerProc(ind);

   remoteGraphData_[p]->addIndices(ind, 1, &ind);

       }

     }

   }


   if (all_local) {

     localGraphData_->addDiagonals(numIndices, indices);

   }

   else {

     for(i=0; i<numIndices; ++i) {

       int ind = indices[i];

       if (ind >= firstLocalRow_ && ind <= lastLocalRow_) {

     localGraphData_->addIndices(ind, 1, &ind);

       }

     }

   }

 }


 //----------------------------------------------------------------------------

 int fei::Graph_Impl::writeLocalGraph(FEI_OSTREAM& os, bool debug,

             bool prefixLinesWithPoundSign)

 {

   if (localGraphData_ == NULL) {

     if (prefixLinesWithPoundSign) {

       os << "# fei::Graph_Impl::writeLocalGraph numRows: 0"<<FEI_ENDL;

     }

     else {

       os << "0" << FEI_ENDL;

     }

     return(0);

   }


   if (prefixLinesWithPoundSign) {

     os << "# fei::Graph_Impl::writeLocalGraph numRows: ";

   }

   os << localGraphData_->getMap().size() <<FEI_ENDL;


   if (prefixLinesWithPoundSign) {

     writeToStream(*localGraphData_, os, "# ");

   }

   else {

     writeToStream(*localGraphData_, os, NULL);

   }


   return( 0 );

 }


 //----------------------------------------------------------------------------

 int fei::Graph_Impl::writeRemoteGraph(FEI_OSTREAM& os)

 {

   for(unsigned p=0; p<remoteGraphData_.size(); ++p) {

     writeToStream(*remoteGraphData_[p], os, "# ");

   }


   return( 0 );

 }


 //----------------------------------------------------------------------------

 int fei::Graph_Impl::gatherFromOverlap()

 {

   if (numProcs_ == 1) return(0);


 #ifndef FEI_SER

   //this function gathers shared-but-not-owned data onto the

   //owning processors.


   //iterate the remoteGraphData_ array and create a list of processors

   //that we will be sending data to. (processors which own graph rows

   //that we share.)

   std::vector<int> sendProcs;

   for(unsigned i=0; i<remoteGraphData_.size(); ++i) {

     if ((int)i == localProc_) continue;

     if (remoteGraphData_[i] != NULL) {

       if (remoteGraphData_[i]->getMap().size() == 0) {

         continue;

       }


       sendProcs.push_back((int)i);

     }

   }


   //now we can find out which procs we'll be receiving from.

   std::vector<int> recvProcs;

   fei::mirrorProcs(comm_, sendProcs, recvProcs);


   //next we'll declare arrays to receive into.

   std::vector<std::vector<int> > recv_ints(recvProcs.size());


   //...and an array for the sizes of the recv buffers:

   std::vector<int> recv_sizes(recvProcs.size());

   std::vector<MPI_Request> mpiReqs(recvProcs.size());

   std::vector<MPI_Status> mpiStatuses(recvProcs.size());


   int tag1 = 11113;


   unsigned offset = 0;

   for(unsigned i=0; i<recvProcs.size(); ++i) {

     MPI_Irecv(&recv_sizes[i], 1, MPI_INT, recvProcs[i],

               tag1, comm_, &mpiReqs[i]);

   }


   //now we'll pack our to-be-sent data into buffers, and send the

   //sizes to the receiving procs:

   std::vector<std::vector<int> > send_ints(sendProcs.size());


   for(unsigned i=0; i<sendProcs.size(); ++i) {

     int proc = sendProcs[i];


     fei::packRaggedTable(*(remoteGraphData_[proc]), send_ints[i]);


     int isize = send_ints[i].size();


     MPI_Send(&isize, 1, MPI_INT, proc, tag1, comm_);

   }


   if (mpiReqs.size() > 0) {

     MPI_Waitall(mpiReqs.size(), &mpiReqs[0], &mpiStatuses[0]);

   }


   //now resize our recv buffers, and post the recvs.

   for(size_t i=0; i<recvProcs.size(); ++i) {

     int intsize = recv_sizes[i];


     recv_ints[i].resize(intsize);


     MPI_Irecv(&(recv_ints[i][0]), intsize, MPI_INT, recvProcs[i],

               tag1, comm_, &mpiReqs[i]);

   }


   //now send our packed buffers.

   for(size_t i=0; i<sendProcs.size(); ++i) {

     int proc = sendProcs[i];


     MPI_Send(&(send_ints[i][0]), send_ints[i].size(), MPI_INT,

              proc, tag1, comm_);

   }


   if (mpiReqs.size() > 0) {

     MPI_Waitall(mpiReqs.size(), &mpiReqs[0], &mpiStatuses[0]);

   }


   for(unsigned i=0; i<recvProcs.size(); ++i) {

     std::vector<int> recvdata = recv_ints[i];

     int numRows = recvdata[0];

     int* rowNumbers = &recvdata[1];

     int* rowLengths = rowNumbers+numRows;

     int* packedCols = rowLengths+numRows;

     offset = 0;

     for(int r=0; r<numRows; ++r) {

       addIndices(rowNumbers[r], rowLengths[r], &packedCols[offset]);

       offset += rowLengths[r];

     }

   }


 #endif

   return(0);

 }


 //----------------------------------------------------------------------------

 int fei::Graph_Impl::getLocalRowLength(int row)

 {

   table_row_type* colIndices = localGraphData_->getRow(row);

   if (colIndices == NULL) {

     return(-1);

   }


   return(colIndices->size());

 }


 //----------------------------------------------------------------------------

 int fei::Graph_Impl::getNumLocalRows()

 {

   int numLocalRows = localGraphData_->getMap().size();


   return(numLocalRows);

 }


 //----------------------------------------------------------------------------

 int fei::Graph_Impl::getNumLocalNonzeros() const

 {

   int numNonzeros = fei::countNonzeros(*localGraphData_);


   return(numNonzeros);

 }


fei::Graph_Impl::comm_
MPI_Comm comm_
Definition: fei_Graph_Impl.hpp:84

fei::Graph_Impl::writeRemoteGraph
int writeRemoteGraph(FEI_OSTREAM &os)
Definition: fei_Graph_Impl.cpp:181

fei::Graph::table_type
snl_fei::RaggedTable< snl_fei::MapContig< fei::ctg_set< int > * >, fei::ctg_set< int > > table_type
Definition: fei_Graph.hpp:28

fei_TemplateUtils.hpp

fei::ctg_set::size
int size() const
Definition: fei_ctg_set.hpp:490

fei::countNonzeros
int countNonzeros(snl_fei::RaggedTable< MAP_TYPE, SET_TYPE > &table)
Definition: fei_TemplateUtils.hpp:325

fei::Graph_Impl::addIndices
int addIndices(int row, int len, const int *indices)
Definition: fei_Graph_Impl.cpp:54

fei_CommUtils.hpp

fei::Graph_Impl::numProcs_
int numProcs_
Definition: fei_Graph_Impl.hpp:83

fei_VectorSpace.hpp

fei::Graph_Impl::localGraphData_
table_type * localGraphData_
Definition: fei_Graph_Impl.hpp:78

fei::Graph_Impl::Graph_Impl
Graph_Impl(MPI_Comm comm, int firstLocalRow, int lastLocalRow)
Definition: fei_Graph_Impl.cpp:22

fei::Graph_Impl::writeLocalGraph
int writeLocalGraph(FEI_OSTREAM &os, bool debug=false, bool prefixLinesWithPoundSign=true)
Definition: fei_Graph_Impl.cpp:152

fei::writeToStream
void writeToStream(snl_fei::RaggedTable< MAP_TYPE, SET_TYPE > &table, FEI_OSTREAM &os, const char *lineprefix=NULL)
Definition: fei_TemplateUtils.hpp:147

fei::Graph::remote_table_type
snl_fei::RaggedTable< std::map< int, fei::ctg_set< int > * >, fei::ctg_set< int > > remote_table_type
Definition: fei_Graph.hpp:35

MPI_Comm
#define MPI_Comm
Definition: fei_mpi.h:56

fei::Graph_Impl::getLocalRowLength
int getLocalRowLength(int row)
Definition: fei_Graph_Impl.cpp:292

fei_ErrMacros.hpp

FEI_OSTREAM
#define FEI_OSTREAM
Definition: fei_iosfwd.hpp:24

fei::mirrorProcs
int mirrorProcs(MPI_Comm comm, std::vector< int > &toProcs, std::vector< int > &fromProcs)
Definition: fei_CommUtils.cpp:45

fei::Graph_Impl::addSymmetricIndices
int addSymmetricIndices(int numIndices, int *indices, bool diagonal=false)
Definition: fei_Graph_Impl.cpp:70

fei::Graph_Impl::lastLocalRow_
int lastLocalRow_
Definition: fei_Graph_Impl.hpp:82

fei_EqnComm.hpp

fei::Graph_Impl::addDiagonals
void addDiagonals(int numIndices, int *indices)
Definition: fei_Graph_Impl.cpp:114

fei::EqnComm
Definition: fei_EqnComm.hpp:17

fei::Graph_Impl::getNumLocalNonzeros
int getNumLocalNonzeros() const
Definition: fei_Graph_Impl.cpp:311

FEI_ENDL
#define FEI_ENDL
Definition: fei_iostream.hpp:34

fei::Graph_Impl::~Graph_Impl
virtual ~Graph_Impl()
Definition: fei_Graph_Impl.cpp:45

fei::Graph_Impl::getNumLocalRows
int getNumLocalRows()
Definition: fei_Graph_Impl.cpp:303

fei::packRaggedTable
void packRaggedTable(snl_fei::RaggedTable< MAP_TYPE, SET_TYPE > &table, std::vector< int > &intdata)
Definition: fei_TemplateUtils.hpp:176

fei::localProc
int localProc(MPI_Comm comm)
Definition: fei_CommUtils.cpp:13

fei::Graph_Impl::firstLocalRow_
int firstLocalRow_
Definition: fei_Graph_Impl.hpp:82

fei::Graph_Impl::gatherFromOverlap
int gatherFromOverlap()
Definition: fei_Graph_Impl.cpp:191

fei::Graph_Impl::localProc_
int localProc_
Definition: fei_Graph_Impl.hpp:83

fei::Graph_Impl::remoteGraphData_
std::vector< remote_table_type * > remoteGraphData_
Definition: fei_Graph_Impl.hpp:79

fei::Graph_Impl::eqnComm_
fei::SharedPtr< fei::EqnComm > eqnComm_
Definition: fei_Graph_Impl.hpp:80

fei_macros.hpp

fei::ctg_set< int >

fei_Graph_Impl.hpp

fei::numProcs
int numProcs(MPI_Comm comm)
Definition: fei_CommUtils.cpp:25