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I have an array of arrays P, which represents a Matrix, as an array of row vectors (that representation is more convenient for my purposes), and I want to extract the column-vector j of that array. My first pass was:

let column (M: float[][]) (j: int) = v -> v.[j]) M

This fails to compile, telling me that v.[j] is using operator expr.[idx] on an object of indeterminate type. This is puzzling to me, because hovering over v recognizes v as a float[], which I believe is a row vector.

Furthermore, the following code works:

let column (M: float[][]) (j: int) = v -> v) M
   |> (fun v -> v.[j])

I fail to understand how the second example is different from the first one. The first map in the second example looks redundant: I am mapping an array to itself, and yet this seems to resolve the type determination problem.

Any help understanding what I am doing wrong or not seeing would be much appreciated!

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up vote 4 down vote accepted

The problem is that F# type inference is strictly left to right so that the compiler sees

let column (M: float[][]) (j: int) = v -> v.[j]) 

At this point, it knows absolutely nothing about v so it throws an error. This is why the forward pipe operator |> is so common - rewriting your code as

let column (M: float[][]) (j: int) =
   M |> v -> v.[j]) 

Is fine. This is also why your second example works

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Thanks for the explanation. Regarding the fact that intellisense properly identifies the type of v, should I infer that it knows more about it than the compiler? – Mathias May 24 '12 at 5:40
@Mathias - that would seem to be correct but I don't know how the intellisense works – John Palmer May 24 '12 at 6:01

Since the type checker works from left to right, type of v is unspecified although type of M is available at some point later. Therefore:

let column (M: float[][]) (j: int) =
   M |> (fun v -> v.[j])


let column M (j: int) = (fun (v: float []) -> v.[j]) M


In the second example, fun v -> v is ok on any type. So there is no problem with type of array elements. The second part with |> works as expected and demonstrates one more point why we should use pipe operators.

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