I'm looking for a Haskell linear algebra library that has the following features:

- Matrix multiplication
- Matrix addition
- Matrix transposition
- Rank calculation
- Matrix inversion is a plus

and has the following properties:

- arbitrary element (scalar) types (in particular element types that are
*not*`Storable`

instances). My elements are an instance of`Num`

, additionally the multiplicative inverse can be calculated. The elements mathematically form a finite field (đť”˝_{2256}). That should be enough to implement the features mentioned above. - arbitrary matrix sizes (I'll probably need something like
*100x100*, but the matrix sizes will depend on the user's input so it should not be limited by anything else but the memory or the computational power available) - as fast as possible, but I'm aware that a library for arbitrary elements will probably not perform like a C/Fortran library that does the work (interfaced via FFI) because of the indirection of arbitrary (non
`Int`

,`Double`

or similar) types. At least one pointer gets dereferenced when an element is touched - (written in Haskell, this is not a real requirement for me, but since my elements are no
`Storable`

instances the library has to be written in Haskell)

I already tried very hard and evaluated everything that looked promising (most of the libraries on Hackage directly state that they wont work for me). In particular I wrote test code using:

- hmatrix, assumes
`Storable`

elements - Vec, but the documentation states:
Low Dimension : Although the dimensionality is limited only by what GHC will handle, the library is meant for 2,3 and 4 dimensions. For general linear algebra, check out the excellent hmatrix library and blas bindings

### Update

Since there seems to be nothing, I started a project on GitHub which aims to develop such a library. The current state is *very* minimalistic, not optimized for speed at all and only the most basic functions have tests and therefore should work. But should you be interested in using or helping out developing it: Contact me (you'll find my mail address on my web site) or send pull requests.

`Storable`

is elementary to the FFI, allowing values to be marshalled in to a form the interfaced code can read. Without that caveat, I imagine the work would need to be done entirely within Haskell. – Orbling Sep 5 '12 at 19:57`Vec`

, I think that theLow Dimensioncaveat is purely there because of the inefficiency of it running in Haskell only without using auxiliary compiled libraries. Hence the recommendation to use`hmatrix`

. :-/ – Orbling Sep 5 '12 at 20:04`Vec`

one type for each possible matrix size? It has e.g.`Matrix33`

which is a3x3matrix. To support100x100matrices, GHC had to generate a lot of types. And: I think I need a library without static matrix size checking because I don't know the matrix sizes at compile time! – Johannes Weiß Sep 5 '12 at 20:07