I have seen similar questions to this, but they involve different types so I think this is a new question.

Consider the following code:

public void Test(bool value)
    // The following line provokes a compiler error:
    // "Type of conditional expression cannot be determined because there is 
    // no implicit conversion between 'method group' and 'method group".

    Func<bool> test = value ? F : F;

public bool F()
    return false;

Now, according to the C# 3.0 Standard,

The second and third operands of the ?: operator control the type of the conditional expression. Let X and Y be the types of the second and third operands. Then,

If X and Y are the same type, then this is the type of the conditional Otherwise, if an implicit conversion (§6.1) exists from X to Y, but not from Y to X, then Y is the type of the conditional expression. Otherwise, if an implicit conversion (§6.1) exists from Y to X, but not from X to Y, then X is the type of the conditional expression. Otherwise, no expression type can be determined, and a compile-time error occurs.

It seems to me that in my sample code, X and Y must be of the same type, since they are the selfsame entity, Func. So why does it not compile?

  • i dont know, but can you explain how can u write a method name with void return type like this in an expression Func?? – Furqan Hameedi May 16 '11 at 10:04
  • Sorry, in my effort to simplify the code from my original code, I erroneously removed the return type. I've fixed it now! – Matthew Watson May 16 '11 at 10:14

The question was changed significantly, so my original answer is a bit off by now.

However, the problem is essentially the same. I.e. there could be any number of matching delegate declarations for F and since there is no implicit conversion between two identical delegate declarations the type of F cannot be converted to Func<bool>.

Likewise, if you declare

private delegate void X();
private delegate void Y();
private static void Foo() {}

You cannot do

X x = Foo;
Y y = x;

Original answer:

It doesn't work because method groups cannot be assigned to an implicitly typed variable.

var test = Func; doesn't work either.

The reason being that there could be any number of delegate types for Func. E.g. Func matches both of these declarations (in addition to Action)

private delegate void X();
private delegate void Y();

To use implicitly typed variables with method groups, you need to remove the ambiguity by casting.

See archil's answer for a concrete example of one way to fix this. That is, he shows what the corrected code might look like [assuming the delegate you desire to match is Action].

  • But even if you specify type of test variable explicitly as: public delegate void FuncDelegate(); This line still will not be working: FuncDelegate funcDelegate = value ? Func : Func; Why? – Bashir Magomedov May 16 '11 at 10:14
  • I've fixed up my sample to match what I had in my original code; I oversimplified it when I posted it here the first time. – Matthew Watson May 16 '11 at 10:16
  • I changed my code so that I am no longer assigning to an implicitly typed variable. – Matthew Watson May 16 '11 at 10:17
  • 1
    Thanks Brian - I think my problem was in thinking that methods intrinsically had types - but only delegates do. – Matthew Watson May 16 '11 at 10:59
  • @BashirMagomedov - it appears that compiler does not look outside the conditional expression, in deciding whether the desired signature can be determined. – ToolmakerSteve Apr 11 '17 at 1:29
var test = value ? (Action)Func: (Action)Func;

Actually, type of method is expressed by delegate it matches. System.Action that i used to cast methods to, is the delegate with signature returning void and taking no parameters - it matches your Func() method. And now your test will know that it is type of System.Action. Delegates are something like interfaces for methods. Take a look at http://msdn.microsoft.com/en-us/library/ms173171(v=vs.80).aspx

  • Interesting, but why do value ? (Action)f : g; and value ? f : (Action)g; both compile? – Mateen Ulhaq Apr 26 '16 at 17:58
  • @MateenUlhaq - Because when you give the needed signature (Action) to either half, the compiler knows what the desired goal is. It then can determine whether the other half can be cast to the same signature. – ToolmakerSteve Apr 11 '17 at 1:20

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