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Is it in anyway possible ( preferably without using any third party libs), to create a function whose type is determined at runtime in C#?

e.g

public static void myfunc(var x)
{
     System.Windows.Forms.MessageBox.Show(x); //just an example
}

NOTE: I want the runtime to determine the type of the parameter and do not want to later cast the parameter to another type, as would be necessary if I use generics. e.g I don't want:

 myfunc<T>(T x) 
 // and then :
 MessageBox.Show((string)m);

UPDATE: I am actually making a function parser for my programming language, which translates to C# code. In my language, I wanted the parameter types to be determined at runtime always. I was looking for some good C# feature for easy translation. e.g in my language syntax:

 function msg << x
     MessageBox.Show x
 end

needed to be translated to something that didn't ask for a type at compile time, but would need one at runtime. e.g

public static void msg(var x)
{
     System.Windows.Forms.MessageBox.Show(x);
}
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1  
why do you keep referring to the type of the function when you really mean type of the parameter? –  codesparkle Dec 30 '11 at 18:19
2  
You wouldn't need that cast as all objects implement ToString(). Besides, if you need to cast to a string... then the function should just take a string! A meaningful example would be appreciated. –  Ed S. Dec 30 '11 at 18:20
    
@codesparkle sorry, I typed the question in a hurry. –  ApprenticeHacker Dec 30 '11 at 18:24
    
If only stackoverflow made people tell their reason before downvoting a question... –  ApprenticeHacker Dec 30 '11 at 18:38

3 Answers 3

up vote 9 down vote accepted

The keyword introduced for runtime binding in C# 4 is dynamic.

public static void myfunc(dynamic x)

This allows you to make assumptions about x that are unchecked at compile time but will fail at runtime if those assumptions prove invalid.

public static void MakeTheDuckQuack(dynamic duck)
{
    Console.WriteLine(duck.Quack()); 
}

The assumption made here is that the parameter will have a method named Quack that accepts no arguments and returns a value that can then be used as the argument to Console.WriteLine. If any of those assumptions are invalid, you will get a runtime failure.

Given classes defined as

class Duck
{
    public string Quack()
    {
        return "Quack!";
    }
}

class FakeDuck
{
    public string Quack()
    {
        return "Moo!";
    }
}

And method calls

MakeTheDuckQuack(new Duck());
MakeTheDuckQuack(new FakeDuck());
MakeTheDuckQuack(42);

The first two succeed, as runtime binding succeeds, and the third results in an exception, as System.Int32 does not have a method named Quack.

Generally speaking, you would want to avoid this if possible, as you're essentially stipulating that an argument fulfill an interface of some sort without strictly defining it. If you are working in an interop scenario, then perhaps this is what you have to do. If you are working with types that you control, then you would be better served trying to achieve compile time safety via interfaces and/or base classes. You can even use different strategies (such as the Adapter Pattern) to make types you do not control (or cannot change) conform to a given interface.

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+1, Thanks, you solved the problem. –  ApprenticeHacker Dec 30 '11 at 18:36
    
+1 for the explanation or why not to use it in most scenarios and what to do instead. –  codesparkle Dec 30 '11 at 19:00
    
+9001 for "moo" –  Bengie Dec 30 '11 at 19:29

If you need to know the type... then you need to know the type. You can't have your cake and eat it too.

First off, the cast in your example is unnecessary as all objects implement ToString(). Instead of telling us what you think you need, tell us what problem you are trying to solve. There is almost certainly a solution either via generics or the use of the dynamic keyword (though dynamic is rarely needed), but we need more info. If you add more I'll update this answer.

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Your suggestion of the dynamic keyword pretty much solved the problem, but I've updated my answer. –  ApprenticeHacker Dec 30 '11 at 18:32

You could use a type of object or, if you don't know how many items are available, you could use a params object array, i.e. params object[] cParams.

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