OCaml and creating a list of lists

I am currently trying to make use functions to create:

``````0  V12 V13 V14
V21 0  V23 V24
V31 V32 0  V34
V41 V42 V43 0
``````

A way that I found to do this was to use theses equations:

``````(2*V1 - 1)*(2*V2-1) = for spot V(1,2) in the Matrix
(2*V1 - 1)*(2*V3-1) = for spot V(1,3) in the Matrix
etc
``````

Thus far I have:

``````let singleState state =
if state = 0.0 then 0.0
else
((2.0 *. state) -. 1.0);;

let rec matrixState v =
match v with
| [] -> []
| hd :: [] -> v
| hd :: (nx :: _ as tl) ->
singleState hd *. singleState nx :: matrixState tl;;
``````

My results come out to be:

``````float list = [-3.; -3.; -3.; -1.]
``````

When they should be a list of lists that look as follows:

``````0 -1 1 -1
-1 0 -1 1
1 -1 0 -1
-1 1 -1 0
``````

So instead of it making list of lists it is making just one list. I also have trouble figuring out how to make the diagonals 0.

The signatures should look like:

``````val singleState : float list -> float list list = <fun>
val matrixState : float list list -> float list list = <fun>
``````

and I am getting

``````val singleState : float -> float = <fun>
val matrixState : float list -> float list = <fun>
``````

Any ideas?

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The language you are using is written “OCaml” with a capital O and a capital C. caml.inria.fr/ocaml/index.en.html –  Pascal Cuoq Feb 13 '14 at 12:05

With some fixing up, your function would make one row of the result. Then you could call it once for each row you need. A good way to do the repeated calling might be with `List.map`.

Assuming this is mostly a learning exercise, it might be good to first make a matrix like this:

``````V11 V12 V13 V14
V21 V22 V23 V24
V31 V32 V33 V34
V41 V42 V43 V44
``````

I think this will be a lot easier to calculate.

Then you can replace the diagonal with zeroes. Here's some code that would replace the diagonal:

``````let replnth r n l =
List.mapi (fun i x -> if i = n then r else x) l

let zerorow row (n, res) =
(n - 1, replnth 0.0 n row :: res)

let zerodiag m =
let (_, res) = List.fold_right zerorow m (List.length m - 1, []) in
res
``````
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Ah yes it is an exercise but it says not to use list. functions in it which would make it rather difficult –  user081608 Feb 13 '14 at 6:17
If it's an exercise I wouldn't want to code it for you anyway :-) You can open these functions out using explicit recursion. Or you can write your own versions of the list functions. –  Jeffrey Scofield Feb 13 '14 at 6:40

I would prefer to go with an array for your work.

A nice function to use is then `Array.init`, it works like so,

``````# Array.init 5 (fun x -> x);;
- : int array = [|0; 1; 2; 3; 4|]
``````

We note that 5 play the role of the size of our Array.

But as you want a matrix we need to build an Array of Array which is achieve with two call of `Array.init`, the last one nested into the first one,

``````# Array.init 3 (fun row -> Array.init 3 (fun col -> row+col));;
- : int array array = [|[|0; 1; 2|]; [|1; 2; 3|]; [|2; 3; 4|]|]
``````

Note, I've called my variable row and col to denote the fact that they correspond to the row index and column index of our matrix.

Last, as your formula use a vector of reference V holding value [|V1;V2;V3;V4|], we need to create one and incorporate call to it into our matrix builder, (The value hold on the cell n of an array `tab` is accessed like so `tab.(n-1)`)

Which finally lead us to the working example,

``````let vect = [|1;2;3;4|]

let built_matrix =
Array.init 4 (fun row ->
Array.init 4 (fun col ->
if col=row then 0
else vect.(row)+vect.(col)))
``````

Of course you'll have to adapt it to your convenience in order to match this piece of code according to your requirement.

Repeating Array each time can be avoid using some nice feature of OCaml.
We can locally open a module like so,

``````let built_matrix =
let open Array in
init 4 (fun row ->
init 4 (fun col ->
if col=row then 0
else vect.(row)+vect.(col)))
``````

Even shorter, `let open Array in ...` can be write as `Array.(...)`, Below a chunk of code interpreted under the excellent utop to illustrate it (and I going to profit of this opportunity to incorporate a conversion of our matrix to a list of list.)

``````utop #
Array.(
to_list
@@ map to_list
@@ init 4 (fun r ->
init 4 (fun c ->
if r = c then 0
else vect.(r)+ vect.(c))))
;;
- : int list list = [[0; 3; 4; 5]; [3; 0; 5; 6]; [4; 5; 0; 7]; [5; 6; 7; 0]]
``````

I hope it helps

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