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You are designing an interface IFoo

public interface IFoo
{
   void Bar();
}

Let's say there are five implementations of this interface. Two of those implementations should also implement IDisposable as they use unmanaged resources. From a caller's perspective, it would be easiest if IFoo implemented IDisposable so any IFoo can be wrapped in a using block, but of course some of the implementations would then be littered with empty Dispose() methods. Just curious are there other ways of doing this?

EDIT

Its clearly better to have IFoo implement IDisposable to take any responsibility away from the client. How would they even know when and when not to check if something is possibly IDisposable? They would have to do this with everything otherwise. Everyone seems to agree a few empty Dispose() methods won't hurt anyone.

The best thing to come out of this question is how to concisely check if something might be disposable with the "as" and "using" in Marc Gravell's answer.

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4  
If the caller only knows about the IFoo, and some implementations of IFoo should be disposed, IFoo should inherit IDisposable. –  Dyppl Aug 30 '11 at 11:10
    
Yeah I mentioned that in my question, was just curious about any other approaches to the problem to avoid redundant implementations of IDisposable in concrete classes that didn't need it. –  Peter Kelly Aug 30 '11 at 11:12
    
the only other option is to check wether the object implements IDisposable on the caller side, see my answer. –  Dyppl Aug 30 '11 at 11:16

7 Answers 7

up vote 6 down vote accepted

I suspect I'd simply demand IDisposable() - a no-op Dispose() isn't a big overhead.

If you can't be sure whether it is disposable, the following is pretty effective:

var mightBeDisposable = GetBlah();
using(mightBeDisposable as IDisposable)
{
   // etc
}
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Because if "as" fails it returns null instead of throwing an exception and so will always enter the using block right? –  Peter Kelly Aug 30 '11 at 11:25
    
@Peter correct; and using already includes (in the spec) a null check, so only attempts to call .Dispose() in the case that mightBeDisposable turned out to be IDisposable (and hence a non-null value was observed) –  Marc Gravell Aug 30 '11 at 11:27
    
Got it, section 8.13 "if (resource != null) (IDisposable)resource).Dispose();" –  Peter Kelly Aug 30 '11 at 11:30
    
This pattern is also shown in More Effective C# p.33... –  Peter Kelly Sep 9 '11 at 9:13

There are precedents in the .NET Framework for interfaces that implement IDisposable - for example IComponent, IDataReader.

This seems a reasonable pattern when you expect most implementations to require disposal.

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Good point. User expectations. –  Peter Kelly Aug 30 '11 at 14:09

I would not force IFoo to implement IDisposable as it is against SOLID. You can derive a IDisposableFoo from IFoo if you like or you can make a check (or even custom method that wraps a IFoo into a DisposableAdapter and checks for IDisposable) if you need it.

class DisposableAdapter : IDisposable, IFoo
{
   IFoo _obj;
   public DisposableAdapter(IFoo obj)
   {
      _obj = obj;
   }

   public void Dispose()
   {
      if (_obj is IDisposable)
        ((IDisposable)obj).Dispose();
   }     

   // copy IFoos implementations from obj

}

using

using(var foo = new DisposableAdapter(myFoo)) //... use foo just as you had myFoo
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2  
Which SOLID guideline do you argue it violates? –  Marc Gravell Aug 30 '11 at 11:23
    
I would argue for some combination of the SRP and the ISP - uncle Bob calls it "Interface Pollution". Why force some Foos to implement empty methods? –  Carsten Aug 30 '11 at 11:44

If you don't mind adding some code to your calling site, you can just do the following:

IFoo foo = GetMeSomeFoo();

foo.UseFoo();

var disposableFoo = foo as IDisposable;
if (disposableFoo != null)
    disposableFoo.Dispose();

Not pretty, but doesn't pollute your interface. Doesn't ensure that the caller will do all this stuff, either.

EDIT: as Hans Passant pointed out, it's essentially equal to

IFoo foo = GetMeSomeFoo();
using (foo as IDisposable) {
    foo.UseFoo();
} 
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The problem with this approach is that you're not using the using keyword –  Ignacio Soler Garcia Aug 30 '11 at 11:23
    
@Hans Passant: neat, I didn't know that using behaves that way with null values, thanks –  Dyppl Aug 30 '11 at 11:23

You could create a disposable version of your interface which better shows your intent:

public interface IDisposableFoo : IFoo, IDisposable
{
}

Any class inheriting this interface could still be treated as an IFoo. An issue you may have is the need to check if your IFoo object is a disposable version before treating as such however this is fairly easy.

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The implementations of this interface that don't require IDisposable will still need to implement it. –  Peter Kelly Aug 30 '11 at 11:19
    
@Peter Kelly - then use the IFoo interface instead for those implementations. This option is just a way of explicitly showing in code that there is a disposable option –  Andy Rose Aug 30 '11 at 11:23

Although objects that implement interfaces generally promise abilities or characteristics that are not common in objects without those interfaces, and although IDisposable is an interface, the fact that an object implements IDisposable doesn't promise any ability or characteristic that would be lacking in objects which do not. Instead, the fact that an object implements IDisposable implies that it lacks a characteristic common in objects that don't implement it: the ability for anyone who acquires or holds a reference abandon it without regard for whether the object can or should be cleaned up first.

If code which uses a particular interface type will generally not be the last thing to hold a reference, then there's no need for the interface to implement IDisposable. Even if some implementations cannot be safely abandoned, that won't matter to any users of an instance other than the last one that holds a reference. If that user is generally going to know more about the specific type than is implied by the interface, the user will know whether the object needs cleanup whether or not the interface indicates it.

On the other hand, if the last user of an object will generally not know anything about it other than the fact that it implements some interface, then that interface should inherit IDisposable even (perhaps especially!) if only a tiny fraction of implementations will need cleanup. Consider the case of IEnumerable versus IEnumerable<T>. Any code which calls IEnumerable<T>.GetEnumerator() will receive what is likely to be the only reference anywhere in the universe to an object which implements IDisposable. As such, that code assumes the responsibility for ensuring that Dispose gets called on that reference. Any code which calls IEnumerable<T>.GetEnumerator() and neither calls Dispose on the returned value nor gives it to other code that promises to do so, is broken.

The type returned by non-generic IEnumerable.GetEnumerator does not implement IDisposable. That would on the fact of it seem to suggest that code which calls IEnumerable.GetEnumerator does not have a responsibility to dispose it. Unfortunately, such implication is incorrect. Code which calls IEnumerable.GetEnumerator has a responsibility to ensure that if the particular instance returned implements IDisposable, then its Dispose method must be called. Code which does not uphold that responsibility is no less broken than code which fails to dispose the return from IEnumerable<T>.GetEnumerator. The failure of the IEnumerable.GetEnumerator return type (i.e. IEnumerator) to to implement IDisposable does not eliminate caller's responsibility for cleaning up the returned object. It merely makes such responsibility more burdensome to carry out, and increases the probability that code will fail to do so.

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You either need 2 interfaces one that implements IDisposable and one that doesn't - IFoo and IDisposableFoo or just make IFoo disposable.

Theres no harm in having some empty implementations of IDisposable. Given you already have some which require dispose it seems a likely use case.

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