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I cannot find "do...while..."

I have to code like this:

let bubbleSort a=
    let n = Array.length a
    let mutable swapped = true
    let mutable i = 0
    while swapped do
        swapped <- false
        for j = 0 to n-i-2 do
            if a.[j] > a.[j+1] then
                let t = a.[j]
                a.[j] <- a.[j+1]
                a.[j+1] <- t
                swapped <- true
        i <- i+1

The code is bad without "do...while".
Sadly, "break/continue" are also not available.

share|improve this question
You post some specific code but the question "Is F# not suitable for non-functional-programming?" is pretty broad and vague. To base your impression of a language on one use case seems like a bit of a rush to judgment to me. – Onorio Catenacci Jun 10 '10 at 15:47
Badly written specific code for a toy problem at that... – Jon Harrop Jul 5 '10 at 23:30
While I do agree that Kev was making the claim a bit too broad, I did share the same frustration over the missing of break/continue during a programming contest I was attending a month ago. I do admit I'm still relatively new to F# though. – Cygwin98 Mar 1 '11 at 16:43
up vote 18 down vote accepted

F# is very much suitable for non-functional programming. In fact, being able to fine-tune parts of an algorithm in an imperative style is one of the major strong points of the language for me.

For example, in tackling a project euler problem, I started out with a clean functional solution using immutable sets and folds. It took 150 seconds to complete. Now having the framework of my algorithm in place allowed me to pick apart the data structures and folds operations one at a time until I managed to get the run time down to 5 seconds. My final solution was very much an imperative one (and even slightly faster than an equivalent C# version).

As you can see I solved it by coding a solution in functional style first and then rewrite small parts to an imperative style. Not having to deal with indices and other loop conditions explicitly kept the code more understandable for me.

Once you learn how to think like a functional programmer you'll find that you'll rarely want breaks and continues. That's what I experienced. But if you do need them, knowing how to think in a functional way helps in coming up with work-arounds, usually involving a tail-recursive version of what used to be a loop.

By the time you start thinking more in an idiomatic F# way, you'll probably see more and more (tail-)recursive code replacing what you used to do with looping constructs. Heck, writing F# for 2 years now has warped my mind so far that I'm more likely to pick recursion and folds over loops.

Whenever I think I need break/continue, I usually don't because there's a cleaner version of the algorithm hidden and waiting to get out. The biggest challenge is learning how to find that cleaner version. I'm afraid that lots of practice and good examples are the only way to get better at thinking functionally, but I believe that it's an effort well spent.

Edit: ironically, bubble sort is an algorithm which is actually designed for arrays with mutable contents. Any recursive bubble sort is likely to be harder to understand than an imperative version. I think I just killed my own post here.

share|improve this answer
Very helpful answer. Thank you! – kev Jun 10 '10 at 11:04
Not completely relevant, but 150 seconds down to 5 seconds seems like a big jump. I'd actually like to see it myself, is there any chance you could post the imperative and function versions of your program? – Juliet Jun 10 '10 at 20:12
@Juliet: I want to honor project Euler's request of not posting solutions (for the higher numbered problems at least). But I can tell you how I got such a speedup: I replaced iterating over sequence expressions with loops. I replaced BigRational with my own fraction class that fits in an integer. And the most important speedup: I replaced Set<_> by the mutable HashSet<_>. So the speedup wasn't really due to changing functional -> imperative style, but due to picking more suitable data structures for my problem (O(1) lookup vs. O(n log n)). – cfern Jun 10 '10 at 22:02

break and continue would be a really useful feature additions; they're reserved words, and maybe we'll see them in a future version of the language. The lack of them is an occasional minor annoyance, but hardly makes the language 'unsuitable'. In the mean time, a mutable sentinel works, as you have in your example.

See also


share|improve this answer
IMHO the reason break & continue don't exist in F# is because the core language is essentially OCaml. The OCaml compiler produces VERY efficient exception handling that is quite suitable for flow-control, due to extremely low overhead. On the other hand, the .NET platform has far less efficient exception handling, which is totally unsuitable for control flow. – James Hugard Jun 16 '10 at 0:22
Also, totally agree with Brian... now that I have a good handle on F#, these constructs are rarely missed; lack thereof amounts to only a very minor annoyance. But, they would be useful sometimes, especially to newcomers and when porting algorithms written in other imperative languages. – James Hugard Jun 16 '10 at 0:24
Brian, thanks for the link. That's a gem. – Cygwin98 Mar 1 '11 at 16:37
The link broke, it's now at http://tomasp.net/blog/imperative-ii-break.aspx/. – Tamschi Dec 1 '14 at 3:51

Although a bit more verbose, you can use recursive functions to avoid the "do while" as in :

let swap (a:int[]) i j =
    let t = a.[i]
    a.[i] <- a.[j]
    a.[j] <- t

let rec bubbleSortAux a nMax j swapped =
  if j >= 0 && j <= nMax then
    if a.[j] > a.[j+1] then
      swap a j (j+1)
      bubbleSortAux a nMax (j+1) true
      bubbleSortAux a nMax (j+1) false

let rec bubbleSortLoop a nMax =
  if bubbleSortAux a nMax 0 false then
    bubbleSortLoop a (nMax - 1)

let bubbleSort a =
    bubbleSortLoop a (a.Length - 2)
share|improve this answer

I do not know about F# very well, but F# is a functional language. Usually, there is no such thing as "for" or "while" loops in functional programming languages.

Functional languages define functions in a mathematical sense (like f(x) => ...). Writing a program comes down to defining and combining a set of mathematical functions. This means that the only way of coding loops is using recursion.

In Mathematics, there is no way of saying:

f(x) => "do 5 times this"

What you'd do is define f like:

                 count > 0  : f(x, count-1)
f(x, count) => {
                 count <= 0 : ...

And then use this function as in:

y = f(x, 5)

This would be exactly how you implement functions in functional languages. At least, this is true for purely functional languages like Haskell...

share|improve this answer
Also it is true for scheme – Teddy Jun 10 '10 at 9:42
Yeah, right. I hate people downvoting answers without even giving a reason why... – Thorsten Dittmar Jul 6 '10 at 11:14
let bubbleSort (a: _ []) =
  let mutable fin = true
  while not fin do
    fin <- true
    for i=0 to a.Length-2 do
      if a.[i] > a.[i+1] then
        let t = a.[i]
        a.[i] <- a.[i+1]
        a.[i+1] <- t
        fin <- false
share|improve this answer

It turns out to be quite easy to write a good enough do-while in F# as a higher-order function:

let doWhile f c =
    f ()
    while c () do
        f ()
share|improve this answer

See Functional While, Repeat/Until, and Monad-free Break/Continue for a discussion of various functional loop constructs in F#.

Also, see these links for additional ideas:

share|improve this answer

do/while is not available because F# is a functional language and this kind of construct is specific to imperative languages.

break/continue is also not available for the same reasons.

However, you can still write do/while in F#. The following code blocks are equivalent :

in C#

    System.Console.WriteLine("processing something...");
    System.Console.WriteLine("doing something complicated");

} while (Console.ReadLine() == "y");

in F#

let doSomethingAndContinue() =
  printfn "processing something..."
  printfn "doing something complicated"
  printf  "continue?"

while doSomethingAndContinue() do ignore None
share|improve this answer

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