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After messing about with F# there are some really nice features that I think I am going to miss when I HAVE to go back to c#, any clues on how I can ween myself off the following, or better still duplicate their functionality:

  • Pattern Matching (esp. with Discriminating Unions)
  • Discriminating Unions
  • Recursive Functions (Heads and Tails on Lists)

And last but not least the Erlang inspired Message Processing.

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Nope, all you can do is convince others to adopt F#. – gradbot Mar 17 '10 at 1:05
@gradbot If only, but the pointy headed people I work for are not buying into my schemings, so need some nice little bits of code that fake me into thinking that I am still working in F#. – WeNeedAnswers Mar 17 '10 at 1:18
Are you suggesting that C# does not support recursion, or are you talking about the specific instance of a function delegate that takes another instance of the same function delegate as an argument? Because if it's the former, you're very wrong, and if it's the latter, I cannot think of any possible reason why you would need this in C# (lists are data structures and data structures can be, and often are, recursively defined, you don't need recursive delegates for that). – Aaronaught Mar 17 '10 at 2:26
What you really want to ask is: "How can I persuade pointed-headed people to let me use F#?" That would be a useful, interesting, and slightly-more-answerable question. – Benjol Mar 17 '10 at 13:57
How to convince your manager to use a functional language was something that came up in "park bench" discussion at the "Functional Programming eXchange" [1] conference I organised. My favorite answer (from someone who had done this) was anticipate the projects coming up, pick the most interesting/critical, write this in functional language in your spare time, when manager see a working solution, he will accept that it's written in a functional language. [1] skillsmatter.com/event/cloud-grid/… – Robert Mar 17 '10 at 15:00
up vote 2 down vote accepted

I'm not sure to what extent is this really a question. However, here are some typical patterns that I use to encode these functional constructs in C# (some of them come from my book, which has a source code available).

Discriminated unions - there is really no good way to implement discriminated unions in C# - the only thing you can do is to implement them as a class hierarchy (with a base class representing the DU type and a derived class for each of the DU case). You can also add Tag property(of some enum type) to the base class to make it easer to check which case the class represents. As far as I know, this is used in LINQ expression trees (which really should be discriminated union).

Pattern matching - you'll probably never get this in a fully general way (e.g. with nested patterns), but you can simulate pattern matching on discriminated unions like this (using the Option<int> type which is either Some of int or None):

Option<int> value = GetOption();
int val;
if (value.TryMatchSome(out val)) 
  Console.WriteLine("Some {0}", val);
else if (value.TryMatchNone()) 

Not perfect, but at least you get a relatively nice way to extract values from the cases.

Message passing - there is Concurrency and Coordination Runtime, which is in some ways also based on message passing and can be used in C#. I bet you could also use F# mailbox processor from C# using a technique based on iterators, which I described in this article and is also used in Wintellect PowerThreading library. However, I don't think anybody implemented a solid message passing library based on this idea.

In summary, you can simulate many functional features in C#, at least to some extend and use some other without any problems (lambda functions and higher-order functions). However, if you need the full power of F#, then you just need to convince your company to start using F# :-).

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This is what I like to see, We need answers, and that is one! :) – WeNeedAnswers Mar 17 '10 at 18:57
Message passing outside of the F# syntax looks expensive as in not free beer. I Have ended up writing my own message based system, then looked at the code and realised that all I had done was a little of what WCF already offers. HTTP call back were pretty cool mind. All a little too much in the style of Twisted Matrix. Ended up using Twisted instead. :) – WeNeedAnswers Mar 17 '10 at 19:08

Use F# to make reusable libraries you can call from C#.

One very nice thing about F# is that it is still a .NET language. You can mix and match languages in the CLR as much as you'd like...

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hmmmm exposing some of the classes from the f# world to c# brings up some hairy looking classes. Tuples for example for the easiest of them look and feel alien, described in another problem post. – WeNeedAnswers Mar 17 '10 at 1:15
@WeNeedAnswers: You typically want to hide those "features" under a level of abstraction. You can usually make a reasonable API using .NET classes, and then do the work in F# using tuples and other things that would seem odd from the C# side of things... – Reed Copsey Mar 17 '10 at 1:17
Trouble is, when the guys start poking around in the SVN they will come across the F# and start complaining. Yes I agree that all .net languages have a place in this world, but for software houses that have a vested interest in code that isn't owned by oneself, they like to keep their code in one language only. – WeNeedAnswers Mar 17 '10 at 1:20

Discriminated unions and pattern matching can be simulated in C#, although the type definitions are a bit verbose (see http://stackoverflow.com/questions/2320919/how-can-i-duplicate-the-f-discriminated-union-type-in-c for some ideas). Here's the approach I advocated in that question: an F# type type T = ACase of A | BCase of B | CCase of C can be represented by a C# abstract class with some static helper methods.

public abstract class T {
    public abstract X Match<X>(Func<A,X> aCase, Func<B,X> bCase, Func<C,X> cCase);

    private class ACase : T {
        private A a;
        public ACase(A a) { this.a = a; }

        public override X Match<X>(Func<A,X> aCase, Func<B,X> bCase, Func<C,X> cCase) {
            return aCase(a);
    private class BCase : T {
        private B b;
        public BCase(B b) { this.b = b; }

        public override X Match<X>(Func<A,X> aCase, Func<B,X> bCase, Func<C,X> cCase) {
            return bCase(b);
    private class CCase : T {
        private C c;
        public CCase(C c) { this.c = c; }

        public override X Match<X>(Func<A,X> aCase, Func<B,X> bCase, Func<C,X> cCase) {
            return cCase(c);

    public static T MakeACase(A a) { return new ACase(a); }
    public static T MakeBCase(B b) { return new BCase(b); }
    public static T MakeCCase(C c) { return new CCase(c); }

Matching now looks similar to F#, but without case labels. The equivalent of this F# code:

| A a -> 1
| B b -> 2
| C c -> 3

Is this C# code:

public static int MatchDemo(T t) {
    return t.Match(
        a => 1,
        b => 2,
        c => 3);
share|improve this answer
nice. I like it. :) – WeNeedAnswers Mar 17 '10 at 18:55

Check out


for some crazy ways to attempt to do pattern-matching in C#.

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looks like I need to read more and question less! :) – WeNeedAnswers Mar 17 '10 at 18:59

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