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I was working on serializing and deserializing a class object using XML when I came across this blog post that shows how to do it on Windows Phone 7 using the isolated storage area. Windows Phone 7 is the platform I am developing for:

In this example, the only object he explicitly calls Dispose() on is the TextReader object. I looked up the TextReader object on MSDN and found that the documentation said this:

Releases the unmanaged resources used by the TextReader and optionally releases the managed resources.

So I assume the reason he does this is to release immediately the unmanaged resources acquired by the TextReader object. It would not have occurred to me to do this if it weren't for his blog post. Obviously I don't want to start calling Dispose() on every object in sight, so what is a good rule of thumb for at least investigating when a particular object should have Dispose() called on it or not? Are there some guidelines for this or a list somewhere, at least of the popular .NET objects that require this special handling?

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4 Answers 4

up vote 5 down vote accepted

Obviously I don't want to start calling Dispose() on every object in


In general, any object that implements IDisposable should be disposed as soon as you're finished with it, typically using the using statement.

Most objects that do not have unmanaged resources do not implement IDisposable (and do not have Dispose() methods), so you have nothing to worry about.

The only exceptions are base classes that implement IDisposable in case some derived implementations have something to dispose (eg, IEnumerator, Component, or TextReader).
However, it is not always obvious which concrete implementations need to be disposed (and it may change at any time), so you should always dispose them anyway.

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Even if its just "vestigial", you have no way of knowing that unless you inspect the source code. Implementing IDisposable is a contract with the caller that they will ensure the object gets disposed when they are finished with it. The implementation details might change, but you can't make those assumptions. – Cody Gray Apr 4 '13 at 3:19
To be safe, if it has a Dispose method, call it. When you get more comfortable with it, you can learn which things don't 'really' need to be disposed. E.g., don't bother disposing Task objects. It's not important to dispose of in-memory IO objects (like StringWriter, for instance). The documentation of the particular class/method should specify all this. But it's okay to err on the side of caution and dispose everything. – Jacob Apr 4 '13 at 3:22
@Robert Not really sure about the history/rationale behind the decision. To me, the RAII idiom used in C++ (which really has more significance in guaranteeing calls to the destructor than the name would indicate) makes more sense. But I'm sure someone thought this all through, since RAII was already a well-established pattern. – Cody Gray Apr 4 '13 at 3:23
@Jacob Not sure I agree with that. You're still relying on implementation details that could easily change from one version of the framework to the other. And let's not kid ourselves, no one goes through and checks all their code for each update. We just cross our fingers and make sure it compiles. The point is, there's no real harm in calling Dispose(). – Cody Gray Apr 4 '13 at 3:25
@CodyGray particularly for the Task case, there is harm, namely that if you try to do it, you'll probably get it wrong (which can cause bugs in completely separate code), and getting it right requires ugly, ugly code. See . For the StringWriter example I can see your point but it's kind of braindead obvious that a class like that does not acquire unmanaged resources. – Jacob Apr 4 '13 at 3:34

Obviously I don't want to start calling Dispose() on every object in sight, so what is a good rule of thumb for at least investigating when a particular object should have Dispose() called on it or not?

This is not a problem. The compiler won't let you call Dispose() on an object that doesn't implement it.

And you should be calling Dispose() for every object that does implement it (which it will do via the IDisposable interface). That is the guideline you should be following. In fact, that's what it means when an object implements IDisposable: that it has unmanaged resources that need to be released.

It becomes much less of a chore if you'll simply wrap the creation and use of the objects in a using statement, e.g.:

using (DisposableObject obj = new DisposableObject(...))
} // obj.Dispose() is automatically called here, even if an exception is thrown
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Thanks! That side-effect of using is just what I'm looking for. – Robert Oschler Apr 4 '13 at 3:17
+1. @RobertOschler, Just wondering what is goal of using from your point of view than? (if Dispose is side effect, something should be real goal...) – Alexei Levenkov Apr 4 '13 at 3:24
@AlexeiLevenkov - I thought "using" was for aliasing and thereby simplifying object chains in code? I didn't know it also worked as a scope boundary for object lifetimes. – Robert Oschler Apr 4 '13 at 3:26
@RobertOschler, I see. Thanks... I did not realize that "you need to write code this way" can lead to such assumption. I'll keep it in mind whenever I need to reply about using in the future. – Alexei Levenkov Apr 4 '13 at 3:31

Actually you do have to dispose of objects which implement IDisposable.

The standard way of doing that as opposed to directly calling the Dispose() is:

using(AnyIDisposable obj = ...)
    // work with obj here
//The Dispose() method is already called here
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Please correct me if i'm wrong. As far a i read/understood, all clases of the .NET Framework are managed (to the view of the programmer, although underderlaying they might use unmanaged code), so theoretically you dont need to call Dispose() or using, because the gc will take care. But sometimes it's very recommended to use them, see IDisposable Interface and Which managed classes in .NET Framework allocate (or use) unmanaged memory? and

EDIT: (you are right noob) For clarification i'll add Nayan answer from IDisposable Interface

It recommended to call dispose or using, when:

1.You class has many objects and there are of lots of cross references. Even though its all managed, GC may not be able to reclaim the memory due to alive references. You get a chance (other than writing a finalizer) to untangle the references and break up the links the way you attached them. Hence, you are helping the GC to reclaim the memory.

2.You have some streams open which are alive till the object of the class dies. Even though such implementations of files/network etc are managed, they go deep down to handles in Win32 mode. Hence, you get a chance to write a Dispose method where you can close the streams. The same is true for GDI objects, and some more.

3.You are writing a class which uses unmanaged resources, and you want to ship your assembly to third parties. You better use disposable pattern to make sure you are able to free the handles to avoid the leakage.

4.Your class implements lots of event handlers and hooks them up to events. The objects of classes which expose the events, like Form etc., will not be freed up by GC since the implementations local to your class (maybe) are still hooked into those events. You can unhook those event handlers in Dispose; again helping GC.

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While this link may answer the question, it is better to include the essential parts of the answer here and provide the link for reference. Link-only answers can become invalid if the linked page changes. – noob May 12 at 9:27
I think the best summary of IDisposable is "your class has asked outside entities to do things on its behalf, to the possible detriment of other entities, and needs to let the former entities know when their services are no longer required". All four of the items from the link satisfy that criterion (though #1 only in the case where many items hold mutual references; the job of Dispose is to clear out references to the object being Disposed) and many more do besides. – supercat May 12 at 14:52

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