Anonymous Recursion in C# has a terrific discussion on this topic.

Recursion is beautiful and lambdas are
the ultimate abstraction. But how can
they be used together? Lambdas are
anonymous functions and recursion
requires names...

Since this popped up again, here's an example of using the Y-combinator:

```
// This is the combinator
public static Func<A,R> Y<A,R>( Func<Func<A,R>, Func<A,R>> f )
{
Func<A,R> g = null;
g = f( a => g(a) );
return g;
}
```

Here's a usage of it to call an anonymous, recursive function ...

```
Func<int,int> exp = Y<int,int>( e => x => ( x <=1 ) ? 1 : x * e( x - 1 ) );
Console.WriteLine( exp(5) );
```

You will note that if you do not use the Y-combinator and set up the recursion with just the delegate, you do not get correct recursion. For example ...

```
// This is BAD. Do not do this!
Func<int,int> badRec = null;
badRec = x => ( x <= 1 ) ? 1 : x * badRec( x - 1 );
```

But everything works fine ...

```
Console.WriteLine( badRec(5) );
// Output
// 120
```

But try this ...

```
Func<int,int> badRec = null;
badRec = x => ( x <= 1 ) ? 1 : x * badRec( x - 1 );
Func<int,int> badRecCopy = badRec;
badRec = x => x + 1;
Console.WriteLine( badRec(4) );
Console.WriteLine( badRecCopy(5) );
// Output
// 5
// 25
```

What?!?

You see, after the line `badRec = x => x + 1;`

, the delegate you actually have is this ...

```
badRecCopy = x => ( x <= 1 ) ? 1 : x * ( (x+1)-1 );
```

So, badRec is incrementing the value by 1 which we expect `(4+1=5)`

, but badRecCopy is now actually returning the square of the value `(5*( (5+1)-1 )`

which we almost certainly did not expect.

If you use the Y-combinator, it will work as expected ...

```
Func<int,int> goodRec = Y<int,int>( exp => x => ( x <=1 ) ? 1 : x * exp( x - 1 ) );
Func<int,int> goodRecCopy = goodRec;
```

And you get what you expect.

```
goodRec = x => x + 1;
Console.WriteLine( goodRec(4) );
Console.WriteLine( goodRecCopy(5) );
// Output
// 5
// 120
```

You can read more about the Y-combinator (PDF Link).