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Edit: My question isn't about a using block and how it works. My question is about the difference in the two ways to do it, shown below.

I'm reading the CQRS Journey Guide, and I don't understand this line of code:

using (repo as IDisposable)

What does that mean? Why use it as IDisposable? In a typical using block, one doesn't need to use it as IDisposable:

using (var repo = this.respositoryFactory()) { // ... }

Any idea why the authors wrote it the first way instead of the second way?

This is the method in which that code appears:

private Conference.Web.Public.Models.Conference GetConference(string conferenceCode)
    var repo = this.repositoryFactory();
    using (repo as IDisposable)
        var conference = repo.Query<Conference>()
            .First(c => c.Code == conferenceCode);
        var conferenceModel =
        new Conference.Web.Public.Models.Conference
            Code = conference.Code,
            Name = conference.Name,
            Description = conference.Description
        return conferenceModel;
share|improve this question
Simple, you cant use any old type in a using block, it has to be a type that is IDisposable. –  iamkrillin Nov 15 '13 at 21:48
How does as IDisposable magically allow the instance to be disposed if its class does not implement IDisposable? And if it already implements IDisposable, why wouldn't that be enough for the using statement? I've never seen it require a cast. –  Jeroen Vannevel Nov 15 '13 at 21:50
@iamkrillin You don't have to set something 'as IDisposable' in a using block if it's already disposable. –  Bob Horn Nov 15 '13 at 21:51
well the short answer, the cast is not necessary. –  iamkrillin Nov 15 '13 at 21:58
Good explanation here: stackoverflow.com/questions/4695649/… –  async Nov 15 '13 at 22:21

3 Answers 3

up vote 9 down vote accepted

Any idea why the authors wrote it the first way instead of the second way?

This is often due to a misunderstanding of the language feature. The way you wrote it is the idomatic way to write it in C#:

using (var repo = this.respositoryFactory()) 

The only real advantage to the author's approach would be if repositoryFactory could, potentially, return a type which doesn't implement IDisposable. By writing the code via using (repo as IDisposable), the same code could handle non-disposable types.

Most of the time, this isn't an issue. However, it would be possible that the factory could optionally return an IDisposable type. As an example, suppose this method was done within a generic class, and repositoryFactory returned an IRepository<T>, it would be possible that type may or may not implement IDiposable, in which case this approach would handle both cases without imposing an IDisposable constraint on the generic type.

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Doesn't that assume that repositoryFactory returns a type that implements IDisposable? What if it returned object, for example? –  CodeNaked Nov 15 '13 at 21:55
@CodeNaked repositoryFactory would have to return an IDisposable or it wouldn't compile. –  Bob Horn Nov 15 '13 at 21:59
@BobHorn - Yes, but if it was a type that may or may not implement IDisposable, which may be the case with "factories", then you'd be required to cast it to an IDisposable. This doesn't seem to apply to this particular case, but you didn't show the type definition of the repositoryFactory. –  CodeNaked Nov 15 '13 at 22:05
@CodeNaked: it throws a compiler error if the return type of the factory does not hold IDisposable for certain. It has to return either IDisposable or a class/interface that implements it. –  Jeroen Vannevel Nov 15 '13 at 22:09
@CodeNaked: If you say using m=this.repositoryFactory() as IDisposable, then if the object returned by repositoryFactory() doesn't implement IDisposable, m will be null. In the code as originally written, repo would hold a reference to the object that doesn't implement IDisposable while the using block would perfectly happily guard null. –  supercat Nov 15 '13 at 22:15

Saying using(X as IDisposable) instructs the compiler that X identifies a particular instance of a type which implements IDisposable, then the using block should guard that instance, and otherwise it should guard nothing. Such a usage would be appropriate if the return type of the method this.repositoryFactory() did not implement IDisposable, but the method would sometimes return instances of types which do implement IDisposable and expect it to be called.

Note that any type which will be used as the return type of a factory that may produce IDisposable objects needing cleanup should implement IDisposable, even if only 99.9% of the objects generated would have Dispose methods that do nothing and don't actually have to be called. The non-generic IEnumerator fits that description to a "T", and thus should have implement IDisposable, but since it doesn't the best usage pattern is probably:

IEnumerator enumerator = myEnumerable.GetEnumerator();
using (enumerator as IDisposable)

Very similar to what is observed in the code using repositoryFactory() above.

share|improve this answer

if somewhere in the using block the code fails, or reach a point of exception. Its guaranteed that repo is beeing disposed.

Difference between the two lines is that there is no difference. cast to IDisposable is not nessecary, it is purely theorethical. possible differences

  • after the using you want to do something with repo.
  • cleaner code
share|improve this answer
I get that. Wouldn't that be the case for either approach? What's the difference between the two? –  Bob Horn Nov 15 '13 at 21:50
If the return type of DepositoryFactory does not implement IDisposable, but that method may sometimes generate instances of types which do implement IDisposable and would thus require cleanup, the as IDisposable will be necessary. –  supercat Nov 15 '13 at 22:10

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