In FLENS I want to implement "custom" storage (that is, to be able to provide the pointer to actual data and to be in charge of the memory management for the storage).
A matrix that manages its buffer is defined like this, for example:
typedef flens::GeMatrix<flens::FullStorage<double, flens::ColMajor> > M;
Later, one can use the matrices like this:
M m1;
M m2;
M m3;
/* initialise the matrices */
m3 = m1 * m2;
To do the same thing with a matrix type that gives access to internal buffer one may implement, say, GhostStorage just the way FullStorage is implemented, with the addition of an init() method that allows setting the internal pointer (full implementation is too long to paste here):
void
init(IndexType numRows, IndexType numCols,
IndexType firstRow = I::defaultIndexBase,
IndexType firstCol = I::defaultIndexBase,
ElementType *p_data = NULL )
{
_data = p_data;
_numRows = numRows;
_numCols = numCols;
_firstRow = firstRow;
_firstCol = firstCol;
ASSERT(_numRows>=0);
ASSERT(_numCols>=0);
}
After defining types like this:
typedef flens::GhostStorage<double, flens::ColMajor> GhostEng;
class MGhost : public flens::GeMatrix<GhostEng>
{
public:
void
init(IndexType numRows, IndexType numCols,
IndexType firstRow,
IndexType firstCol,
ElementType *p_data = NULL )
{
engine().init(numRows,numCols,firstRow,firstCol,p_data);
}
};
I would expect that same operation as above should be possible:
MGhost mg1;
MGhost mg2;
MGhost mg3;
/* initialise the matrices using the init() method */
mg3 = mg1 * mg2;
However the compiler complains in this case:
no known conversion for argument 1 from 'const flens::MatrixClosure >, flens::GeMatrix > >' to 'const MGhost&'
FLENS author provides guidance about implementing your custom type of matrix, but I'm using an already defined matrix type here - the flens::GeMatrix.
Bottom line, the question is: how does one implement a matrix in FLENS that allows manipulating the internal buffer and high level interaction like m3 = m1 * m2?
