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I'm trying to get the max product of 4 adjacent numbers in an array this is what I got now:

let max4 line =
    let rec loop acc = function
        |a :: b :: c :: [] -> acc
        |a :: b :: c :: d :: tl -> loop (max(acc, a*b*c*d)) tl
        |_ -> 0
    loop 0 line

I get a compilation error on the max(,) saying:

error FS0001: Type mismatch. Expecting a 'a but given a 'a * 'b -> 'a * 'b The resulting type would be infinite when unifying ''a' and ''a * 'b -> 'a * 'b'

Anybody knows what's wrong in this code ? (or another solution)

share|improve this question
Array or list? Your question says array, but your code is using lists... – ildjarn May 31 '12 at 16:27
up vote 2 down vote accepted

Suppose the input is a list of integers:

let max4 line =
    let rec loop acc = function
        | x1::(x2::x3::x4::_ as xs) -> loop (max acc (x1*x2*x3*x4)) xs
        |_ -> acc
    loop System.Int32.MinValue line

You made some mistakes:

  • The built-in max function is in the curry form max: 'a -> 'a -> 'a.
  • The next case to address in your function should be b::c::d::tl, not tl only.
  • The product could be negative, so 0 is not a good starting point. Beware that integer overflow could happen (which I still haven't addressed in my function).
share|improve this answer
got it, the problem was me using (a,b) instead of a b also missed b::c::d at the end – Omu May 31 '12 at 16:46

As an alternative to using explicit recursion, you could also solve this using existing F# library functions. This is how most F# data processing is written, but it is always good to learn how to write recursive functions by hand (because you sometimes need them).

So, just for completeness, here is a way to solve the probelm more declaratively using existing functions:

let max4 line = 
  line |> Seq.windowed 4 
       |> Seq.map (Seq.reduce (*))
       |> Seq.max

The first line turns the list into a sequence of 4-element arrays (windows). This is then passed to Seq.map that turns the window into a product of the elements. To do that, I'm using Seq.reduce which reduces sequence (window, in this case) using the specified function, here the (*) operator. Finally, to find the maximal element of the products, you can use Seq.max function.

share|improve this answer
Seq.windowed returns sliding windows; the code in his question uses contiguous groups. – Daniel May 31 '12 at 17:58
@Daniel : The selected answer also uses sliding windows, so I guess that's what the OP really wanted after all. – ildjarn May 31 '12 at 18:23
@ildjarn: Perhaps...or maybe he didn't notice. – Daniel May 31 '12 at 18:38
Well, skipping all except the fourth element could be done using Seq.mapi followed by Seq.filter. – Tomas Petricek May 31 '12 at 19:44

Both of the other answers sum sliding windows but in your question they're contiguous. If you want the latter you can define such a function:

let groupsOf n items =
  if n <= 0 then invalidArg "n" "must be greater than zero"
  if List.isEmpty items then invalidArg "items" "empty list"
  let rec loop i acc items =
    seq {
      match i, items with
      | 0, [] -> yield List.rev acc
      | _, [] -> ()
      | 0, _ ->
        yield List.rev acc
        yield! loop n [] items
      | _, x::xs -> yield! loop (i - 1) (x::acc) xs
  loop n [] items

then use code similar to Tomas':

let max4 line = 
  line |> groupsOf 4 
       |> Seq.map (Seq.reduce (*))
       |> Seq.max

groupsOf ignores any partial group at the end (as does your code).

share|improve this answer
I don't really know what's contigous vs sliding, so I'll show what I'm doing, this: projecteuler.net/problem=11 , so this function is a part or the solution for problem 11 on euler – Omu May 31 '12 at 19:54
@ChuckNorris : Given [1;2;3;4;5;6;7;8], what do you want to follow [1;2;3;4]: [2;3;4;5] or [5;6;7;8]? The other answers give the former, this (and your question) gives the latter. – ildjarn May 31 '12 at 19:57
all possible 4 adjacent numbers in the list: 1234, 2345, 3456 ... 5678 – Omu May 31 '12 at 20:19
@ChuckNorris : That would be sliding then. ;-] – ildjarn May 31 '12 at 20:23

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