void TransposeAxpyContract ( T alpha, const ElementalMatrix<T>& A, ElementalMatrix<T>& B, bool conjugate ) { EL_DEBUG_CSE const Dist U = B.ColDist(); const Dist V = B.RowDist(); if( A.ColDist() == V && A.RowDist() == U ) { TransposeAxpy( alpha, A, B, conjugate ); } else if( (A.ColDist() == V && A.RowDist() == Partial(U)) || (A.ColDist() == V && A.RowDist() == Collect(U)) || (A.RowDist() == U && A.ColDist() == Partial(V)) || (A.RowDist() == U && A.ColDist() == Collect(V)) ) { unique_ptr<ElementalMatrix<T>> ASumFilt( B.ConstructTranspose(B.Grid(),B.Root()) ); if( B.ColConstrained() ) ASumFilt->AlignRowsWith( B, true ); if( B.RowConstrained() ) ASumFilt->AlignColsWith( B, true ); Contract( A, *ASumFilt ); if( !B.ColConstrained() ) B.AlignColsWith( *ASumFilt, false ); if( !B.RowConstrained() ) B.AlignRowsWith( *ASumFilt, false ); // We should have ensured that the alignments are compatible TransposeAxpy( alpha, ASumFilt->LockedMatrix(), B.Matrix(), conjugate ); } else LogicError("Incompatible distributions"); }
void TransposeContract ( const ElementalMatrix<T>& A, ElementalMatrix<T>& B, bool conjugate ) { EL_DEBUG_CSE const Dist U = B.ColDist(); const Dist V = B.RowDist(); if( A.ColDist() == V && A.RowDist() == Partial(U) ) { Transpose( A, B, conjugate ); } else { unique_ptr<ElementalMatrix<T>> ASumFilt( B.ConstructTranspose(B.Grid(),B.Root()) ); if( B.ColConstrained() ) ASumFilt->AlignRowsWith( B, true ); if( B.RowConstrained() ) ASumFilt->AlignColsWith( B, true ); Contract( A, *ASumFilt ); if( !B.ColConstrained() ) B.AlignColsWith( *ASumFilt, false ); if( !B.RowConstrained() ) B.AlignRowsWith( *ASumFilt, false ); // We should have ensured that the alignments match B.Resize( A.Width(), A.Height() ); Transpose( ASumFilt->LockedMatrix(), B.Matrix(), conjugate ); } }