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I have a method whose callers require different datatypes. I could repeat the requisite conversions a dozen times by putting them in each of the callers, but it seems much more efficient to do it once in the called method.

public String myMethod(String myArg)
{    
    return DoSomething(myArg);
}

public Int32 myMethod(String myArg)
{
    return Convert.ToInt32(DoSomething(myArg));
}

private String DoSomething(key)
{
    return SomeList[key];
}

If I have multiple methods that pull data from SomeList and have to utilize different data types then in each I have to do a type conversion. Examples might be session variables or query or form requests or any other number of things.

In VB I could say

Function myMethod(myArg as String) as Variant
    myMethod=DoSomething(myArg)
End Function

Sorry if the original post was not very clear. I hope this makes more sense.

Thanks

share|improve this question
    
have you looked at var? and your title doesn't match the body of this question very well. –  Earlz Nov 30 '09 at 22:39
    
What are you actually trying to do? The code you wrote isn't valid in VB (any version of it) either. –  Pavel Minaev Nov 30 '09 at 22:54
    
I'm thinking he would like to return a variant type but I don't really understand –  Earlz Nov 30 '09 at 22:55
    
Yes, I would like to be able to return different datatypes as needed. –  Praesagus Nov 30 '09 at 22:59
    
Like Pavel asked, what are you actually trying to do? Can you provide any scenario where this behaviour would make sense? –  Chris Pitman Nov 30 '09 at 23:13

6 Answers 6

up vote 12 down vote accepted
public T MyMethod<T>(string myArg)
{
 //do work here
}

USAGE

  public T MyMethod<T>(string myArg)
    {
        return (T)Convert.ChangeType(DoSomething(myArg), typeof(T));
    }

A bit over engineered maybe ;)

share|improve this answer
    
Your answer is interesting. I wonder if you could qualify it with an explanation. –  Praesagus Dec 1 '09 at 16:26
    
This is the best answer. The caller can say what type they expect from SomeList and you won't have to add cases to myMethod for each possible type. –  Robert Macnee Dec 1 '09 at 16:54
    
Not at all over engineered. It's the requirement. You've just given an optimal solution. +1 for the code. –  this. __curious_geek Dec 1 '09 at 17:06
    
I posted the accepted answer but I agree that this may be a nice alternative for you. But your question (at the time) was basically asking if there is any equivalent of a Variant in C#, which there is not. But if you know your return type at compile time then generics are definitely a good way to go. But by using the comparison to VB Variants you were basically saying that you did not know your type at compile time, thus the answer I gave. –  mjmarsh Dec 1 '09 at 18:38
    
Very elegant and exactly what I was looking for. thanks –  Praesagus Dec 18 '09 at 3:06

The only way this is possible is to return an "object" reference and then infer type in the calling code. As the previous poster said C# functions cannot vary by return type only.

For example:

private object myMethod(String myArg)
{    
    if (a == true)
       return "StringResult";
    else if (b == true)
       return 27;
    else
       return 1.4f;
}

private void Caller()
{
   object result = myMethod("arg");

   if (result is String)
      // Do string stuff
   else if (result is Int32)
      // Do int stuff
   else if (result is Single)
      // Do float stuff     
}
share|improve this answer

You can't have two methods with the same name and argument list, only differing in return type. No way.

share|improve this answer

To return different types from a method the return types must all share a common class in their inheritance hierarchy, such as object.

Section "10.6 Signatures and overloading" of the C# Language Specification 4th edition addresses overloading. Relevant excerpts:

"The signature of a method consists of the name of the method, the number of type parameters, and the type and kind (value, reference, or output) of each of its formal parameters, considered in the order left to right. The signature of a method specifically does not include the return type, parameter names, or type parameter names, nor does it include the params modifier that can be specified for the right-most parameter. When a parameter type includes a type parameter of the method, the ordinal position of the type parameter is used for type equivalence, not the name of the type parameter."

"Overloading of methods permits a class, struct, or interface to declare multiple methods with the same name, provided their signatures are unique within that class, struct, or interface."

Section "10.2 Overloading" of the Common Language Infrastructure 4th edition also addresses the topic. Relevant excerpts:

*"CLS Rule 38: Properties and methods can be overloaded based only on the number and types of their parameters, except the conversion operators named op_Implicit and op_Explicit, which can also be overloaded based on their return type."*

share|improve this answer

What Variant was in VB, object is in C#:

object Foo(int n) {
    switch (n) {
    case 1: return 123;     // can return an int
    case 2: return 123.456; // ... or a double
    case 3: return "foo";   // ... or a string
    case 4: return true;    // ... or a boolean
    ...
    default: return new MyClass();    // ... or anything, really
}
share|improve this answer

yet another option, use an out parameter rather than the return value.

void Foo(string args, out string answer)
{

}
void Foo(string args, out int answer)
{

}
share|improve this answer
    
I like this, if you're using an old version of .NET without generics this is probably the cleanest way. –  Robert Macnee Mar 9 '10 at 16:47

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