Ejemplo n.º 1
0
void EntrywiseMap
( const ElementalMatrix<S>& A,
        ElementalMatrix<T>& B, 
        function<T(S)> func )
{ 
    if( A.DistData().colDist == B.DistData().colDist &&
        A.DistData().rowDist == B.DistData().rowDist )
    {
        B.AlignWith( A.DistData() );
        B.Resize( A.Height(), A.Width() );
        EntrywiseMap( A.LockedMatrix(), B.Matrix(), func );
    }
    else
    {
        B.Resize( A.Height(), A.Width() );
        #define GUARD(CDIST,RDIST) \
          B.DistData().colDist == CDIST && B.DistData().rowDist == RDIST
        #define PAYLOAD(CDIST,RDIST) \
          DistMatrix<S,CDIST,RDIST> AProx(B.Grid()); \
          AProx.AlignWith( B.DistData() ); \
          Copy( A, AProx ); \
          EntrywiseMap( AProx.Matrix(), B.Matrix(), func );
        #include <El/macros/GuardAndPayload.h>
        #undef GUARD
        #undef PAYLOAD
    }
}
Ejemplo n.º 2
0
void IndexDependentMap
( const ElementalMatrix<S>& A,
        ElementalMatrix<T>& B, 
  function<T(Int,Int,S)> func )
{
    DEBUG_CSE
    const Int mLoc = A.LocalHeight();
    const Int nLoc = A.LocalWidth();
    B.AlignWith( A.DistData() );
    B.Resize( A.Height(), A.Width() );
    auto& ALoc = A.LockedMatrix();
    auto& BLoc = B.Matrix();
    for( Int jLoc=0; jLoc<nLoc; ++jLoc )
    {
        const Int j = A.GlobalCol(jLoc);
        for( Int iLoc=0; iLoc<mLoc; ++iLoc )
        {
            const Int i = A.GlobalRow(iLoc);
            BLoc(iLoc,jLoc) = func(i,j,ALoc(iLoc,jLoc));
        }
    }
}
Ejemplo n.º 3
0
void Gather
( const ElementalMatrix<T>& A,
        DistMatrix<T,CIRC,CIRC>& B )
{
    DEBUG_ONLY(CSE cse("copy::Gather"))
    AssertSameGrids( A, B );
    if( A.DistSize() == 1 && A.CrossSize() == 1 )
    {
        B.Resize( A.Height(), A.Width() );
        if( B.CrossRank() == B.Root() )
            Copy( A.LockedMatrix(), B.Matrix() );
        return;
    }

    const Int height = A.Height();
    const Int width = A.Width();
    B.SetGrid( A.Grid() );
    B.Resize( height, width );

    // Gather the colShifts and rowShifts
    // ==================================
    Int myShifts[2];
    myShifts[0] = A.ColShift();
    myShifts[1] = A.RowShift();
    vector<Int> shifts;
    const Int crossSize = B.CrossSize();
    if( B.CrossRank() == B.Root() )
        shifts.resize( 2*crossSize );
    mpi::Gather( myShifts, 2, shifts.data(), 2, B.Root(), B.CrossComm() );

    // Gather the payload data
    // =======================
    const bool irrelevant = ( A.RedundantRank()!=0 || A.CrossRank()!=A.Root() );
    int totalSend = ( irrelevant ? 0 : A.LocalHeight()*A.LocalWidth() );
    vector<int> recvCounts, recvOffsets;
    if( B.CrossRank() == B.Root() )
        recvCounts.resize( crossSize );
    mpi::Gather( &totalSend, 1, recvCounts.data(), 1, B.Root(), B.CrossComm() );
    int totalRecv = Scan( recvCounts, recvOffsets );
    //vector<T> sendBuf(totalSend), recvBuf(totalRecv);
    vector<T> sendBuf, recvBuf;
    sendBuf.reserve( totalSend );
    recvBuf.reserve( totalRecv );
    if( !irrelevant )
        copy::util::InterleaveMatrix
        ( A.LocalHeight(), A.LocalWidth(),
          A.LockedBuffer(), 1, A.LDim(),
          sendBuf.data(),   1, A.LocalHeight() );
    mpi::Gather
    ( sendBuf.data(), totalSend,
      recvBuf.data(), recvCounts.data(), recvOffsets.data(), 
      B.Root(), B.CrossComm() );

    // Unpack
    // ======
    if( B.Root() == B.CrossRank() )
    {
        for( Int q=0; q<crossSize; ++q )
        {
            if( recvCounts[q] == 0 )
                continue;
            const Int colShift = shifts[2*q+0];
            const Int rowShift = shifts[2*q+1];
            const Int colStride = A.ColStride();
            const Int rowStride = A.RowStride();
            const Int localHeight = Length( height, colShift, colStride );
            const Int localWidth = Length( width, rowShift, rowStride );
            copy::util::InterleaveMatrix
            ( localHeight, localWidth,
              &recvBuf[recvOffsets[q]],    1,         localHeight,
              B.Buffer(colShift,rowShift), colStride, rowStride*B.LDim() );
        }
    }
}