Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I'm writing a class that's similar to a WCF interface proxy but that has some specialized but boilerplate extra code in it. I would like to extract the boilerplate code and use a generic or other mechanism to wrap calls to an internal instance of a class.

public interface IMyInterface
  long fn1(int param1, int param2);

public class MyInterfaceProxy : IMyInterface
  // generated code

public class MyClass : IMyInterface
  private MyInterfaceProxy _myProxy; // implements IMyInterface
  public long fn1(int param1, int param2)
    long result = null;
               delegate(IMyInterface svc)
                   result = svc.fn1(param1, param2);
    return result;

  private T CallMethod( ??? )
     where T : class
    T result = null;

    // some boilerplate code
    // Call the delegate, passing _myProxy as the IMyInterface to act on
    // some more boilerplate code

    return result;


If it helps, the boilerplate code can represent retry logic, timeout behavior, standardized exception handling behavior, etc.

So here are my questions:

  1. Is there a standard or preferred way to solve this problem?
  2. If generics are the preferred mechanism, what is the signature of the CallMethod function?
share|improve this question
Can you use a base class and have CallMethod be a protected method in the base class? –  Brian S Mar 1 '13 at 1:22
Scratch my previous comment, that doesn't seem to be what you're asking for. I'm not sure I follow what you're asking, but as far as the call signature, can you make use of Func<T,T>? Seems like that is the signature of CallMethod. See this link for more on Func<T,TResult>. –  Brian S Mar 1 '13 at 1:30

1 Answer 1

up vote 2 down vote accepted

I think this is what you are looking for. There is a lot more that can be done composing functions. This is the very surface scratching of functional programming paradigms, and it's really great that we can use some of it in c# now.

EDIT: added the anonymous function implementation as well to better simulate your delegate scenario.

class Program
    static void Main(string[] args)
        string resFromFunctionToBeWRapped = CallMethod(() => FunctionToBeWrapped());

        int resFromAnon = CallMethod(() => {
            Console.WriteLine("in anonymous function");
            return 5;
        } );

        Console.WriteLine("value is {0}", resFromFunctionToBeWRapped);
        Console.WriteLine("value from anon is {0}", resFromAnon);


    private static TResult CallMethod<TResult>(Func<TResult> functionToCall) //where T : class
        Console.WriteLine ("in wrapper");

        var ret = functionToCall();

        Console.WriteLine("leaving wrapper");

        return ret;

    private static string FunctionToBeWrapped()
        Console.WriteLine("in func");
        return "done";

share|improve this answer
This is VERY close to what I've come up with - to the point that I'm happy giving you the credit for the answer! The only adjustment was changing the Func from Func<TResult> to Func<TResult, KInterface> (since FunctionToBeWrapped takes a single parameter.) protected K CallMethod<K>(Func<T, K> serviceInvoker) where K : class { K result = null; ServiceChannel.UseServiceClient(HostName, EndpointName, delegate(T svc) { result = serviceInvoker.Invoke(svc); }); return result; } –  mcating Mar 1 '13 at 3:11
Also, calling code I got working looks like "return CallMethod(svc => svc.fn1(1, 2));" –  mcating Mar 1 '13 at 3:13

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.