I am writing wrapper code for several linear algebra libraries in C++ which may store their arrays in one of several formats, the most common being dense column-major, dense row-major, compressed sparse column, and compressed sparse row. I would like to create either an array wrapper class that will access the elements of these arrays in a universal order, while maintaining the underlying memory order required by the base library; that is, I want to be able to access, say, the elements of both a wrapped column-major dense array and a wrapped row-major dense array the same way, using row-based indexing. I cannot reorder the underlying arrays without interfering with the function of the external libraries, and reordering would involve substantial computational cost anyway given the huge size of my arrays. Here's what I mean, supposing both 'rowMajorArray' and 'columnMajorArray' store values of type 'T' in the appropriate orders for their external library:
T * data; // Initialize values of data rowMajorArray R(data); // Stored row-major, with reordering of data if necessary columnMajorArray C(data); // Stored column-major, with reordering of data if necessary wrapperArray wrapperR(R); // DOES NOT reorder data wrapperArray wrapperC(C); // DOES NOT reorder data assert(wrapperR == wrapperC); // I want this to be true, i.e. transparent row indexing assert(wrapperR == wrapperC); // I want this to be true, i.e. transparent element indexing T * rowPointerR = wrapperR; // Points to first row; should this be a reference: &(wrapperR) ? T * rowPointerC = wrapperC; // Points to first row, even though stored column-major assert( *(rowPointerR + 2) == *(rowPointerC + 2) ) // I want this to be true, i.e. transparent row pointers T * elementPointerR = &(wrapperR); // Points to individual element T * elementPointerC = &(wrapperC); // Points to individual element assert( *(elementPointerR + 2) == *(elementPointerC + 2) ) // I want this to be true, i.e. transparent pointer arithmetic
Essentially my goal is for the underlying libraries to be able to access the wrapped arrays using the same memory ordering as they natively use, while enabling my wrapper code to transparently access the data without worrying about the underlying memory order. I don't care whether I use pointer or indexing syntax, as I can do everything I need with either, as long as I can get correct access to both rows and elements; if I can only directly implement pointers, I will then overload indexing operators anyway, to allow easy integration with other external operator-overloaded libraries.
Thanks in advance for your help everybody.