Beispiel #1
0
inline void
RepartitionUpDiagonal
( DM& ATL, DM& ATR, DM& A00, DM& A01, DM& A02,
                    DM& A10, DM& A11, DM& A12,
  DM& ABL, DM& ABR, DM& A20, DM& A21, DM& A22, Int bsize=Blocksize() )
{
    DEBUG_ONLY(CallStackEntry cse("RepartitionUpDiagonal"))
    PartitionUpOffsetDiagonal
    ( ATL.Width()-ATL.Height(),
      ATL, A00, A01,
           A10, A11, bsize );
    PartitionUp( ATR, A02, A12, A11.Height() );
    PartitionLeft( ABL, A20, A21, A11.Width() );
    View( A22, ABR );
}
Beispiel #2
0
inline void
LockedPartitionRight( const DM& A, DM& AL, DM& AR, Int widthAL )
{
#ifndef RELEASE
    PushCallStack("LockedPartitionRight [DistMatrix]");
    if( widthAL < 0 )
        throw std::logic_error("Width of left partition must be non-negative");
#endif
    widthAL = std::min(widthAL,A.Width());
    const Int widthAR = A.Width()-widthAL;
    LockedView( AL, A, 0, 0,       A.Height(), widthAL );
    LockedView( AR, A, 0, widthAL, A.Height(), widthAR );
#ifndef RELEASE
    PopCallStack();
#endif
}
Beispiel #3
0
inline void
PartitionLeft( DM& A, DM& AL, DM& AR, Int widthAR )
{
#ifndef RELEASE
    PushCallStack("PartitionLeft [DistMatrix]");
    if( widthAR < 0 )
        throw std::logic_error("Width of right partition must be non-negative");
#endif
    widthAR = std::min(widthAR,A.Width());
    const Int widthAL = A.Width()-widthAR;
    View( AL, A, 0, 0,       A.Height(), widthAL );
    View( AR, A, 0, widthAL, A.Height(), widthAR );
#ifndef RELEASE
    PopCallStack();
#endif
}
inline void
LockedRepartitionUpDiagonal
( const DM& ATL, const DM& ATR, DM& A00, DM& A01, DM& A02,
                                DM& A10, DM& A11, DM& A12,
  const DM& ABL, const DM& ABR, DM& A20, DM& A21, DM& A22, Int bsize )
{
#ifndef RELEASE
    CallStackEntry cse("LockedRepartitionUpDiagonal [DistMatrix]");
#endif
    LockedPartitionUpOffsetDiagonal
    ( ATL.Width()-ATL.Height(),
      ATL, A00, A01,
           A10, A11, bsize );
    LockedPartitionUp( ATR, A02, A12, A11.Height() );
    LockedPartitionLeft( ABL, A20, A21, A11.Width() );
    LockedView( A22, ABR );
}
Beispiel #5
0
inline void
LockedPartitionDownLeftDiagonal
( const DM& A, DM& ATL, DM& ATR,
               DM& ABL, DM& ABR, Int diagATL )
{
#ifndef RELEASE
    PushCallStack("LockedPartitionDownLeftDiagonal [DistMatrix]");
    if( diagATL < 0 )
        throw std::logic_error("Top-left size must be non-negative");
#endif
    const Int minDim = std::min(A.Height(),A.Width());
    diagATL = std::min(diagATL,minDim);
    const Int heightABR = A.Height()-diagATL;
    const Int widthABR = A.Width()-diagATL;
    LockedView( ATL, A, 0,       0,       diagATL,   diagATL  );
    LockedView( ATR, A, 0,       diagATL, diagATL,   widthABR );
    LockedView( ABL, A, diagATL, 0,       heightABR, diagATL  );
    LockedView( ABR, A, diagATL, diagATL, heightABR, widthABR );
#ifndef RELEASE
    PopCallStack();
#endif
}
Beispiel #6
0
inline void
LockedPartitionUpRightDiagonal
( const DM& A, DM& ATL, DM& ATR,
               DM& ABL, DM& ABR, Int diagABR )
{
#ifndef RELEASE
    PushCallStack("LockedPartitionUpRightDiagonal [DistMatrix]");
    if( diagABR < 0 )
        throw std::logic_error("Bottom-right size must be non-negative");
#endif
    const Int minDim = std::min(A.Height(),A.Width());
    diagABR = std::min(diagABR,minDim);
    const Int remHeight = A.Height()-diagABR;
    const Int remWidth = A.Width()-diagABR;
    LockedView( ATL, A, 0,         0,        remHeight, remWidth );
    LockedView( ATR, A, 0,         remWidth, remHeight, diagABR  );
    LockedView( ABL, A, remHeight, 0,        diagABR,   remWidth );
    LockedView( ABR, A, remHeight, remWidth, diagABR,   diagABR  );
#ifndef RELEASE
    PopCallStack();
#endif
}
Beispiel #7
0
inline void
RepartitionDownDiagonal
( DM& ATL, DM& ATR, DM& A00, DM& A01, DM& A02,
                    DM& A10, DM& A11, DM& A12,
  DM& ABL, DM& ABR, DM& A20, DM& A21, DM& A22, Int bsize=Blocksize() )
{
    DEBUG_ONLY(CallStackEntry cse("RepartitionDownDiagonal"))
    View( A00, ATL );
    PartitionDownDiagonal( ABR, A11, A12,
                                A21, A22, bsize );
    PartitionDown( ABL, A10, A20, A11.Height() );
    PartitionRight( ATR, A01, A02, A11.Width() );
}
Beispiel #8
0
inline void
PartitionDownRightDiagonal
( DM& A, DM& ATL, DM& ATR,
         DM& ABL, DM& ABR, Int diagATL )
{
#ifndef RELEASE
    PushCallStack("PartitionDownRightDiagonal [DistMatrix]");
    if( diagATL < 0 )
        throw std::logic_error("Top-left size must be non-negative");
#endif
    const Int minDim = std::min( A.Height(), A.Width() );
    diagATL = std::min(diagATL,minDim);
    const Int sizeABR = minDim-diagATL;
    const Int remHeight = A.Height()-sizeABR;
    const Int remWidth = A.Width()-sizeABR;
    View( ATL, A, 0,         0,        remHeight, remWidth );
    View( ATR, A, 0,         remWidth, remHeight, sizeABR  );
    View( ABL, A, remHeight, 0,        sizeABR,   remWidth );
    View( ABR, A, remHeight, remWidth, sizeABR,   sizeABR  );
#ifndef RELEASE
    PopCallStack();
#endif
}
inline void
RepartitionDownDiagonal
( DM& ATL, DM& ATR, DM& A00, DM& A01, DM& A02,
                    DM& A10, DM& A11, DM& A12,
  DM& ABL, DM& ABR, DM& A20, DM& A21, DM& A22, Int bsize )
{
#ifndef RELEASE
    CallStackEntry cse("RepartitionDownDiagonal [DistMatrix]");
#endif
    View( A00, ATL );
    PartitionDownDiagonal( ABR, A11, A12,
                                A21, A22, bsize );
    PartitionDown( ABL, A10, A20, A11.Height() );
    PartitionRight( ATR, A01, A02, A11.Width() );
}
Beispiel #10
0
inline void
LockedPartitionDown
( const DM& A, DM& AT,
               DM& AB, Int heightAT )
{
#ifndef RELEASE
    PushCallStack("LockedPartitionDown [DistMatrix]");
    if( heightAT < 0 )
        throw std::logic_error("Height of top partition must be non-negative");
#endif
    heightAT = std::min(heightAT,A.Height());
    const Int heightAB = A.Height()-heightAT;
    LockedView( AT, A, 0,        0, heightAT, A.Width() );
    LockedView( AB, A, heightAT, 0, heightAB, A.Width() );
#ifndef RELEASE
    PopCallStack();
#endif
}
Beispiel #11
0
inline void
PartitionUp
( DM& A, DM& AT,
         DM& AB, Int heightAB )
{
#ifndef RELEASE
    PushCallStack("PartitionUp [DistMatrix]");
    if( heightAB < 0 )
        throw std::logic_error
        ("Height of bottom partition must be non-negative");
#endif
    heightAB = std::min(heightAB,A.Height());
    const Int heightAT = A.Height()-heightAB;
    View( AT, A, 0,        0, heightAT, A.Width() );
    View( AB, A, heightAT, 0, heightAB, A.Width() );
#ifndef RELEASE
    PopCallStack();
#endif
}