# Cycling pipelining

I have a matrix: Array2D and a function

``````let DivideAndSubstract value index (matrix: float[,]) =
//something that returns a matrix
``````

so I need to apply this function n times to my matrix like that:

``````matrix
|> DivideAndSubstract matrix.[0,0] 0
|> DivideAndSubstract matrix.[1,1] 1
|> DivideAndSubstract matrix.[2,2] 2
....
|> DivideAndSubstract matrix.[n,n] n
``````

where n = Array2D.length1 matrix - 1
How can I implement this pipelining?

-

From the top of my head:

``````{0..n} |> Seq.fold (fun M k -> DivideAndSubtract matrix.[k,k] k M) matrix
``````

Edit: a few more words won't hurt the answer:

Using a fold is a typical pattern of 'apply F to x and apply F to the result and apply F to that result ... until I don't need to apply F again'. The imperative version of the line above would be

``````let mutable M = matrix
for k in 0..n do
M <- DivideAndSubtract matrix.[k,k] k M
M
``````

Inside the fold, M denotes the intermediate result at each step. It may take a while to grasp how folds work, but once you do, they're pretty powerful.

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The cycle should look like `M <- DivideAndSubtract M.[k,k] k M` –  Me again Feb 26 '11 at 12:25
Right. Took a shower and realized that fold should be `|> List.fold (fun M k -> DivideAndSubtract M.[k,k] k M) matrix` Now it works, Thanks –  Me again Feb 26 '11 at 12:44
You could also replace `[0..n] |> List.fold` by `{0..n} |> Seq.fold` so there is no creation of a list. –  Stringer Feb 26 '11 at 12:44
OK, but that's not what you've written in your example. Because values in F# are immutable, each occurrence of 'matrix' in your chained pipe is the same matrix as the one you started with. To get what you want use `List.fold (fun M k -> DivideAndSubtract M.[k,k] k M)` –  cfern Feb 26 '11 at 12:46
@Stringer Bell: you're right, no throw away intermediate list is needed. I'll update. –  cfern Feb 26 '11 at 12:48