While there are plenty of java libraries for linear algebra, Clojure currently does not have an idiomatic computer algebra system that would include support for symbolic math. As a start I figure I can start working on something simple.
As a first step, I think getting the data structures right would be a good start.
Step 1: Implement a persistent matrix
I will be using
reify), and for now, for ease of implementation, I will use a hashmap for storage (Please suggest an alternative if think its better but state tradeoffs). (One can imagine many different implementations depending on your performance requirements, such as using arrays or delegating to an external java library and implementing some sort of transients interface.)
My question is, what interfaces/protocols should I be considering to implement? (In general, what is a good listing of all the protocols/interfaces that clojure uses?) Also is there any advice on how to implement these?
My list of things to implement:
-Assoc'ing would be useful, to modify sections of the matrix in an immutable manner
-treating the matrix as a function as an accessor of the elements, I was thinking you could pass a two-tuple to return a single element, a single value (index by width*y+x), hashmap to get columns, rows, or minor, via custom query hashmap/language.
Note, my goal at the moment is to design good abstractions that enable flexibility in choosing implementations.