I will represent matrices in a project by a list of lists [[a]]

• Is this a good idea or should I better use Arrays?

• How do I change the element on place with index (i,j)

-

Of course, list-based solutions are never as fast as optimised tight arrays because of the necessary indirections, with all its cache-locality problems. However, that's only a constant overhead factor (possibly quite big though, something in the order of 100).

However, interestingly, the nested-list approach to matrices is not quite as bad as it may seem: lists remain the data structure that's most naturally dealt with in a traditional purely-functional manner. As said by millimoose, you cannot just change an element in-place in a pure way, you have to make a copy of the whole thing with one element changed*. For nn tight-array matrices, this is O (n2) – hardly acceptable for larger n.

While random access in a list of length m is already O (m) and thus much worse than for arrays, it doesn't get any worse for more complex operations. You can "modify" a list in O (m), you can access an nn nested list in O (n), and you can modify it in O (n)! So if you want to do nondestructive updates on large matrices, `[[a]]` is actually faster than `Array a i`.

Oh, how this works – well, something like

``````type Matrix a = [[a]]
updateMatrixAt :: (Int,Int) -> (a->a) -> Matrix a -> Matrix a
updateMatrixAt(i,j) f mat
| (upperRows, thisRow : lowerRows ) <- splitAt i mat
, (leftCells, thisCell: rightCells) <- splitAt j thisRow
=                  upperRows
++ (leftCells ++ (f thisCell): rightCells)
: lowerRows
| otherwise = error "Tried to index matrix outside range"
``````

will do the trick.

*There have been attempts to avoid this, but I'm afraid this has proven a dead end. If you want really high performance, you should use destructive updates in the `ST` monad, there's nothing wrong with it though it may not be quite as nice.

-
+1 Another excellent and well thought out answer from @leftatroundabout. –  AndrewC Nov 23 '12 at 23:06

How about using your own data type wrapping a `Map (Int,Int) a`? Changing an element is trivial, and especially for sparse matrices you save a lot of memory.

-
+1 Definitely worth a thought for sparse matrices. For dense ones, it needs quite a lot more memory. The handling is rather different from ordinary matrix types, but not necessarily worse. –  leftaroundabout Nov 23 '12 at 16:25

How do I change the element on place with index (i,j)?

Generally speaking, you can't. You have to create a new matrix with the one element changed. (Using `Array` instead of a list would make this slightly easier with the `//` operator.) It seems like you could use `MArray` to do in-place changes, but then pretty much all your code would have to use `IO`.

-
You don't want to use `MArray` (unless you're in `IO` anyway), there's `STArray`. –  leftaroundabout Nov 23 '12 at 12:04