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If I have two yield return methods with the same signature, the compiler does not seem to be recognizing them to be similar.

I have two yield return methods like this:

    public static IEnumerable<int> OddNumbers(int N)
        for (int i = 0; i < N; i++)
            if (i % 2 == 1) yield return i;
    public static IEnumerable<int> EvenNumbers(int N)
        for (int i = 0; i < N; i++)
            if (i % 2 == 0) yield return i;

With this, I would expect the following statement to compile fine:

Func<int, IEnumerable<int>> generator = 1 == 0 ? EvenNumbers : OddNumbers; // Does not compile

I get the error message

Type of conditional expression cannot be determined because there is no implicit conversion between 'method group' and 'method group'

However, an explicit cast works:

Func<int, IEnumerable<int>> newGen = 1 == 0 ? (Func<int, IEnumerable<int>>)EvenNumbers : (Func<int, IEnumerable<int>>)OddNumbers; // Works fine

Am I missing anything or Is this a bug in the C# compiler (I'm using VS2010SP1)?

Note: I have read this and still believe that the first one should've compiled fine.

EDIT: Removed the usage of var in the code snippets as that wasn't what I intended to ask.

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See also – Brian Rasmussen Jul 22 '11 at 12:08
This kind of question is why I love to code. =D – J. Steen Jul 22 '11 at 12:28
The requirement to edit nicely demonstrates the flaw with var – Jodrell Jul 22 '11 at 12:57
@J. Steen: Because of confusing edge-cases? – BlueRaja - Danny Pflughoeft Jul 22 '11 at 18:56
@BlueRaja, No, to really find out what the language and the compiler does and does not do. – J. Steen Jul 25 '11 at 7:52

8 Answers 8

up vote 6 down vote accepted

No. It is not a bug. It has nothing with yield. The thing is that expression type method group can be converted to delegate type only when it is assigned directly like: SomeDel d = SomeMeth.

C# 3.0 specification:

§6.6 Method group conversions

An implicit conversion (§6.1) exists from a method group (§7.1) to a compatible delegate type.

This is the only implicit conversion possible with method groups.

How ternary operator is evaluated in terms of types inferences:

A ? B : C:

Make sure that either B or C can be implicitly cast to one another's type. For example A ? 5 : 6.0 will be double because 5 can be implicitly cast to double. Type of A and B in this case is method group and there is no conversion between method group. Only to delegate and it can be enforced as you did.

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There are many possible delegate types that could match the signature of the EvenNumbers and OddNumbers methods. For example:

  • Func<int, IEnumerable<int>>
  • Func<int, IEnumerable>
  • Func<int, object>
  • any number of custom delegate types

The compiler won't try to guess which compatible delegate type you're expecting. You need to be explicit and tell it -- with a cast in your example -- exactly which delegate type you want to use.

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Why then this doesn't work: (Func<int, IEnumerable<int>>)(1 == 0 ? OddNumbers : EvenNumbers)? – Andrey Jul 22 '11 at 12:18
@Andrey, A method does not have an intrinsic type, only delegates do. Which is why the ternary operator cannot infer a type to return. – J. Steen Jul 22 '11 at 12:19

Well even

var gen = OddNumbers;

does not work. So you can't expect ternary operator to work.

I guess var can't infer a delegate type.

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Func<int, IEnumerable<int>> generator = EvenNumbers; does work. I cannot see why the ternary operator should not work. – leppie Jul 22 '11 at 12:07
of course that does. But notice the "var" keyword. – Kugel Jul 22 '11 at 12:09
See my now deleted answer of what I expected. Nothing to do with var, it is the ternary operator. – leppie Jul 22 '11 at 12:11
@LukeH: From a compiler implementer's point of view, I cannot see why this is difficult to do. The amount of analysis going into ?: already makes sure both return types are compatible. – leppie Jul 22 '11 at 12:29
@leppie, but a method does not even have a type, so two methods can't have compatible types: they have none! – Falanwe Jul 22 '11 at 16:33

The yield Return has nothing to do with this.

You are not setting generator to an IEnumerable<int>, you are setting it to a MethodGroup, i.e. a function without the brackets to make the call.

The second statement casts the MethodGroups to Delegates which can be compared.

Perhaps you mean to do somthing like but,

var generator = 1 == 0 ? EvenNumbers(1) : OddNumbers(1);

I couldn't say for sure.

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I really think he wants generator to be a delegate not an int. – Kugel Jul 22 '11 at 12:11
yes. I wanted one of the functions to be assigned to the generator variable. I'll go ahead and edit the question so that the people don't concentrate on the var part. – mherle Jul 22 '11 at 12:14

it doesn't have anything to do with iterators, the same code fails to compile if the methods are simple functions. The compiler is reluctant to automatically convert a method to a delegate object, forgetting to use the () in a method call is too common a mistake. You have to do it explicitly.

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@Jodrell: There is an implicit conversion from a method group to a compatible delegate type, but in this particular example it's the conditional operator that's causing the problem. The type of the conditional expression has to be evaluated first, and that's the bit that can't be done because there's no implicit conversion between two methods groups since method groups don't have a type. – LukeH Jul 22 '11 at 13:29
@LukeH, I see, my orignal comment here was wrong. – Jodrell Jul 22 '11 at 14:25
This link provides a useful description of a "Method Group"… – Jodrell Jul 22 '11 at 14:32

Rollup of what works and does not:

Does not work:

var generator = 1 == 0 ? EvenNumbers : OddNumbers;
Func<int, IEnumerable<int>> generator = 1 == 0 ? EvenNumbers : OddNumbers;

Does work:

var generator = 1 == 0 ? (Func<int, IEnumerable<int>>)EvenNumbers : OddNumbers;

If it was anything to do with yield or var the latter should also fail.

My guess is a problem with the ternary operator.

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The problem is that the statement

var gen = OddNumbers;

Can be interpreted both as

Func<int, IEnumerable<int>> gen = OddNumbers;


Expression<Func<int, IEnumerable<int>> gen = OddNumbers;

The compiler can't decide that, so you have to do this.

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Nope. It is the ternary operator failing. – leppie Jul 22 '11 at 12:10
There is, however, no real bug in the ternary operator. A method does not have an intrinsic type, only delegates do. Which is why the ternary operator cannot infer a type to return. – J. Steen Jul 22 '11 at 12:13
@J. Steen: replacing var with the intended type fails too. That is surprising. – leppie Jul 22 '11 at 12:14
@leppie, I'm assuming because the ternary operator can't use the left hand side to infer a type. THAT, however, could very well be some kind of logical error, or incorrect assumption since the ternary operator is just syntactic sugar. ;) – J. Steen Jul 22 '11 at 12:16
The compiler can't infer the type of the left hand side (IMHO due to the answer I gave above) and thus fails. – Henning Krause Jul 22 '11 at 12:20

A method (method group) does not have an intrinsic type, only delegates do. Which is why the ternary operator cannot infer a type to return, and thus is why you have to cast one or the other return value as the type you want to return.

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