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I'm working on a method that needs to repeat a small operation at different spots, but the code to be repeated should be private to the method. The obvious solution is a nested function. Whatever I try however, the C# compiler barfs at me.

Something roughly equal to this Perl snippet:

my $method = sub {
    $helper_func = sub { code to encapsulate };

    # more code

    &$helper( called whenever needed );

    # more code
}

is what I am talking about, and what I'm trying to accomplish in C#.

No other method in the class should be able to access the helper function in this context. The most logical means of writing this construct in C#, as it appears to me would be something like this:

var helper = (/* parameter names */) => { /* code to encapsulate */ };

And actually make the compiler earn its keep ;).

Since such an assignment is forbidden, as is the equivalent using the older delegate(){} syntax in place of the lambda, and so is declaring a delegate type within a method—what csc actually allows me to write however, is this:

private delegate /* return type */ Helper(/* parameters */);
private /* return type */ method(/* parameters */) {

    Helper helper = (/* parameter names */) => { 
        /* code to encapsulate */
    };

    // more code

    helper( /* called whenever needed */ );

    // more code
}

Which is all fine and dandy for not copy and pasting a chunk of code around and editing the parameters by hand but it leaks a private delegate type to the rest of the class rather than keeping it private to the method. Which defeats the purpose in the first place. Using goto statements and local variables for parameters would provide better encapsulation of "helper" in this context without sacrificing code reuse. If I wanted to simulate function calls by passing parameters through registers, I think would rather use an assembler. I haven't found an acceptable way of refactoring the code to avoid the problem altogether either.

So, is it even possible to force this Common Object Oriented Language to obey? :-).

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1  
what about Action or the generic versions? –  Russ Cam Aug 1 '10 at 16:01
    
Looks like I owe an apology for having never heard of System.Action and System.Func before! Looking at MSDN, it seems that I must have missed a few things new in C# 3.5 :-). –  TerryP Aug 1 '10 at 16:34
    
NET3.5 or C#3.0 (porbably just to confuse every one) –  Rune FS Aug 1 '10 at 18:41

7 Answers 7

up vote 5 down vote accepted

If you are in C# 3.5 or higher you can take advantage of the lambdas and convenience delegate declarations Func<> and Action<>. So for instance

void DoSomething()
{
  Func<int,int> addOne = (ii) => ii +1;
  var two = addOne(1);
}

The reason you can't do

var addOne = (ii) => ii +1;

is because of Homoiconicity, the lambda can be interpreted as two different constructs, a delegate and an expression tree. Thus the need to be explicit in declaration.

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Accepted as answer among your peers, because it notes "3.5 or higher", which is useful for the sake of anyone else stumbling across this question via search. –  TerryP Aug 1 '10 at 16:42
    
for all intent and purposes you're right but strictly speaking (or when looking at the IL) it's a fancy way of declaring a class field, store a delegate in it and call that, so when looking at the IL it's not hidded (obscured by the name but not hidden) –  Rune FS Aug 1 '10 at 16:53
    
Btw: In C#2.0 the trick would be to use an anonymous delegate instead a Lambda expression –  Rune FS Aug 1 '10 at 17:05

You actually can do this in C#.

Func<T1, T2, ..., TReturn> myFunc = (a, b, ...) =>
{
  //code that return type TReturn
};


If you need an anonymous method of return type void use Action instead of Func:

Action<T1, T2, ...> myAction = (a, b, ...) =>
{
  //code that doesn't return anything
};
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If you explicitly type it, it will work, i.e.

Action<paramType1, paramType2> helperAction = (/* parameter names */) => { /* code to encapsulate */ };
Func<paramType1, paramType2, returnType> helperFunction = (/* parameter names */) => { /* code to encapsulate */ };

The reason var doesn't work is that a lambda expression can evaluate to multiple types (I believe either a delegate or expression tree, but don't quote me on that) and the compiler in this situation is unable to infer which was meant.

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Sounds plausible enough for why var fails with a lambda expression, but the older delegate(){} syntax should be easily inferred by the compiler, e.g. var x = delegate() { return constantexpr }; is also an error. Maybe it is just a case of "Sorry, not done yet... maybe in C# 6.0 folks!" :-S. –  TerryP Aug 1 '10 at 16:40

I recommend looking at the Action<T> and Func<TResult> delegates and their overloads. You can do something like this

static void Main(string[] args)
{
    SomeMethod();
}

private static void SomeMethod()
{
    Action<int> action = (num) => Console.WriteLine(num);

    Enumerable.Range(1,10).ToList().ForEach(action);

    Console.ReadKey();
} 

Here SomeMethod is private and has a local Action<int> delgate that takes an int and does something to it.

I think the issue that you came across is that you can't use implicit typing (i.e. use var) when assigning a lambda expression to a variable.

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You can't use the var keyword with lambdas or delegates because they both require additional context information (delegates require a return type, and lambdas require a return type and parameter types). For instance, the (params) => { code } syntax requires to be able to infer the parameter types and return types to work: you do this by explicitly giving it a type.

The generic System.Action delegate type (returns void) could do a good job at what you're trying:

Action<ArgumentType1, ArgumentType2, ...> myDelegate = (params) => { code };

Otherwise, there's also the System.Func, which has a return type, that must be passed as the last generic argument.

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It depends on what your definition of hiding is.

The func/action solution (like the one Scott suggests)

void DoSomething()
{
  Func<int,int> addOne = (ii) => ii +1;
  var two = addOne(1);
}

Feals like hidding the method definition when writing regular C# code BUT is when looking at the IL equivalent of

//This is pseudo code but comes close at the important parts
public class Class1
    {
        //The actual type is different from this
        private static Func<int, int> myMethod = AnonymousFunction; 

        public void f()
        {
            myMethod(0);
        }

        private static int AnonymousFunction(int i)
        {
            return 1;
        }
    }

So if you really want to get to the method from outside of the one "hidding" it you can do this with reflection The actual name generated for the field storing the delegate is illegal in C# bul valid in CLR context but that's the only thing that stand in the way of using the delegate as a regular delegate stored in a field (that is if you figue out the name :) )

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It's quite simple actually. As the Method seems to have another responsibility than your current Class (why else would you hide this method) move your method into it's own Class and the part you want to have private into a private method in the new class.

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"You have this small delegate problem with the compiler, so you should change your design entirely." –  zneak Aug 1 '10 at 16:04
    
Moving a method that has nothing to do with the current class into it's own class is actually good design and not that big of a change. Trying to force a solution without rethinking the approach is the worse decision. –  dbemerlin Aug 1 '10 at 16:06
    
How can you infer so much information about a method and a class you know nothing about? I don't think you need to question OP's design validity for such a simple question about a compiler feature. –  zneak Aug 1 '10 at 16:14
    
Who said that the method has nothing to do with the current class? Perhaps the class level is too general. One-off stuff is one of the biggest benefits of anonymous methods when having a class level method is overkill. –  Davy8 Aug 1 '10 at 16:15
    
If he wants to hide something from the current class it can't belong there so it requires it's own class. Ofc i don't know all the details but to me it looks very much like he is afraid of adding another class and instead adds more complexity by using nested methods (or at least something that behaves similarly). Anyways, everyone is entitled to his own opinion, if he wants complex, he can use complex, thats the good thing about C#. –  dbemerlin Aug 1 '10 at 16:18

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