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I am trying to implement something like pipe function.

Input: a list of functions

Output: a function

ex)

#pipe [(fun y -> y+5);(fun y -> y*3)] 1 = 18
#pipe [(fun z -> z*3);(fun z -> z+5)] 1 = 8

Here is what I am thinking:

A helper function "composite" takes two arguments, which are a function(f) and a list of function(l).

if the list is empty, it returns the function(f). if it is not, f will be an argument of the head of list(g). However, I got a syntax error. I don't figure out what's going on. Has anyone found an error?

let pipe l =
  let composite f l = match l with
      []->f
    | g::gs -> (fun h -> (g -> f)) in
  List.fold_left composite (fun x -> x) l
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1 Answer

(fun h -> (g -> f)) is not syntactically correct, and I'm not sure what it is supposed to mean.

The pattern-matching of your composite function looks like what you would write for a recursive function, but then you're trying to define it non-recursively for use with fold_left. Either way would be good, but you need to make up your mind, because here you've a sad compromise that does not work.

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Thank you for your reply. as you can see, "g" is the first element of the list, which is a function. For the second pattern matching, if "l" is a list that has at least one element, I want to get a function "g(f(x))". How do I represent this idea? –  Peter Hwang Apr 14 '13 at 21:49
    
If f and g are values of type 'a -> 'a, the function "g(f(x))" is fun x -> g (f x). –  cygin Apr 14 '13 at 22:08
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