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Trying to learn F# but got confused when trying to distinguish between fold and reduce. Fold seems to do the same thing but takes an extra parameter. Is there a legitimate reason for these two functions to exist or they are there to accommodate people with different backgrounds? (E.g.: String and string in C#)

Here is code snippet copied from sample:

let sumAList list =
    List.reduce (fun acc elem -> acc + elem) list

let sumAFoldingList list =
    List.fold (fun acc elem -> acc + elem) 0 list

printfn "Are these two the same? %A " 
             (sumAList [2; 4; 10] = sumAFoldingList [2; 4; 10])
share|improve this question
You can write reduce and fold in terms of each other, e.g. fold f a l can be written as reduce f a::l. –  Neil Jan 29 '12 at 19:13
@Neil - Implementing fold in terms of reduce is more complicated than that - the type of accumulator of fold does not have to be the same as the type of things in the list! –  Tomas Petricek Jan 29 '12 at 19:18
@TomasPetricek My mistake, I originally intended to write it the other way around. –  Neil Jan 29 '12 at 19:28

4 Answers 4

up vote 38 down vote accepted

Fold takes an explicit initial value for the accumulator while reduce uses the first element of the input list as the initial accumulator value.

As a result, reduce throws an exception on an empty input list.

share|improve this answer

fold is a much more valuable function than reduce. You can define many different functions in terms of fold.

reduce is just a subset of fold.

Definition of fold:

let rec fold f v xs =
    match xs with 
    | [] -> v
    | (x::xs) -> f (x) (fold f v xs )

Examples of functions defined in terms of fold:

let sum xs = fold (fun x y -> x + y) 0 xs

let product xs = fold (fun x y -> x * y) 1 xs

let length xs = fold (fun _ y -> 1 + y) 0 xs

let all p xs = fold (fun x y -> (p x) && y) true xs

let reverse xs = fold (fun x y -> y @ [x]) [] xs

let map f xs = fold (fun x y -> f x :: y) [] xs

let append xs ys = fold (fun x y -> x :: y) [] [xs;ys]

let any p xs = fold (fun x y -> (p x) || y) false xs 

let filter p xs = 
    let func x y =
        match (p x) with
        | true -> x::y
        | _ -> y
    fold func [] xs
share|improve this answer

Let's look at their signatures:

> List.reduce;;
val it : (('a -> 'a -> 'a) -> 'a list -> 'a) = <fun:clo@1>
> List.fold;;
val it : (('a -> 'b -> 'a) -> 'a -> 'b list -> 'a) = <fun:clo@2-1>

There are some important differences:

  • While reduce works on one type of elements only, the accumulator and list elements in fold could be in different types.
  • With reduce, you apply a function f to every list element starting from the first one:

    f (... (f i0 i1) i2 ...) iN.

    With fold, you apply f starting from the accumulator s:

    f (... (f s i0) i1 ...) iN.

Therefore, reduce results in an ArgumentException on empty list. Moreover, fold is more generic than reduce; you can use fold to implement reduce easily.

In some cases, using reduce is more succinct:

// Return the last element in the list
let last xs = List.reduce (fun _ x -> x) xs

or more convenient if there's not any reasonable accumulator:

// Intersect a list of sets altogether
let intersectMany xss = List.reduce (fun acc xs -> Set.intersect acc xs) xss

In general, fold is more powerful with an accumulator of an arbitrary type:

// Reverse a list using an empty list as the accumulator
let rev xs = List.fold (fun acc x -> x::acc) [] xs
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In addition to what Lee said, you can define reduce in terms of fold, but not (easily) the other way round:

let reduce f list = 
  match list with
  | head::tail -> List.fold f head tail
  | [] -> failwith "The list was empty!"

The fact that fold takes an explicit initial value for the accumulator also means that the result of the fold function can have a different type than the type of values in the list. For example, you can use accumulator of type string to concatenate all numbers in a list into a textual representation:

[1 .. 10] |> List.fold (fun str n -> str + "," + (string n)) ""

When using reduce, the type of accumulator is the same as the type of values in the list - this means that if you have a list of numbers, the result will have to be a number. To implement the previous sample, you'd have to convert the numbers to string first and then accumulate:

[1 .. 10] |> List.map string
          |> List.reduce (fun s1 s2 -> s1 + "," + s2)
share|improve this answer
Wish I could up-vote you, but I'm still not cool enough for that, the least I could thank you =] –  Wallace Jan 29 '12 at 19:20
Upvoted for ya ;) –  Bryan Edds Jan 29 '12 at 22:08

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