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I struck up a conversation with my colleague today, who said she'd just learned the reason behind using the using statement.

 //Using keyword is used to clean up resources that require disposal (IDisposable interface). 

 using (StreamReader reader = new StreamReader(@"C:\test.txt")) 
 { 
 string line = reader.ReadLine(); 
 } 

I pointed out that the object is marked as "Can be disposed" but not actually disposed and garbage-collected unless GC decides to do so.

She responded that the object will be disposed automatically once that using statement ends because the using statement is translated to try-catch-finally block. So, the object must get disposed at the very end of the using statement.

I was confused by this, because I know that using a using statement does not guarantee that the object gets GC-collected. All that happens is that the Dispose() method would be called. The GC decides when to GC it regardless. But when she asked for proof, I could not find any.

Does anyone know how this works, and how to prove it?

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2 Answers 2

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You're talking about two very different things.

The object will be disposed as soon as the using-block ends. That doesn't say anything about when it is garbage collected. The only time heap memory is released is when a garbage collection occurs - which only happens under memory pressure (unless you use GC.Collect explicitly).

Disposing an object simply means calling its Dispose method. That most often means releasing either a scarce resource, or a native resource (in practice, all scarce resources are native - sockets, files, ...). Now, it's handy that the lifetime of the disposable object in your case is limited in scope, so it could theoretically be collected as soon as the using-block ends - however, that doesn't really happen in practice, since the .NET runtime tries to avoid collections - they're expensive. So until you cross a memory allocation threshold, no collection is going to happen, even though you have a dead object on the heap.

So what's the point of Dispose? Nothing to do with managed memory. You don't really care about managed memory, and you shouldn't expect that Dispose will actually be called - it doesn't have to be. The only thing that has to be called by the runtime is the finalizer, and you can only ever use that for disposing of native resources - in fact, there's no guarantee if the objects you have a reference to still exist by the time the finalizer runs - the managed memory might have already been reclaimed by then. That's why you never handle managed resources in a finalizer.

So yes, she was completely right. The point is that IDisposable has nothing to do with the garbage collector. Disposed does not mean garbage collected.

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    Also, you can read more about it on this post: stackoverflow.com/questions/11927827/… Apr 22, 2014 at 7:40
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    This answer is mostly correct, but there's rather too much emphasis on saying that the disposable pattern is unrelated to garbage collection. This is only true for objects that aren't finalizable. Any object with a finalizer will be treated differently by GC, and if the object is not disposed (including GC.SuppressFinalize) it may stay around for a lot longer before its memory is reclaimed. Apr 22, 2014 at 11:10
  • @DominicCronin True, but that's just the shortcut - it's better to release native resources sooner. And indeed, the garbage collector has no knowledge of your unmanaged memory; the finalizer is there exactly because of that - it allows you to safely handle unmanaged memory as well, by concentrating the necessary finalization code inside something that will be called at some point - and as an optimalization, can be suppressed - which is usually done in the Dispose method. That's why I'm saying that GC has nothing to do with IDisposable - GC doesn't care, you have to care.
    – Luaan
    Apr 22, 2014 at 11:21
  • The runtime doesn't have to call your finalizer in some situations, so it isn't a good idea to use it for anything with semantic importance. Obviously sudden process termination doesn't count, but one misbehaving finalizer can cause the runtime to just give up while it's trying to shut down and not call anything else. During runtime you do have an assurance that finalizers will be called if there's actually a collection, though.
    – Phoshi
    Apr 22, 2014 at 15:03
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    @Luaan: Absolutely, yeah, you don't need to worry about a large set of issues, which is why I specified semantic importance. I don't really consider releasing file handles to have any useful semantics, because whether it happens or not shouldn't change your behaviour.
    – Phoshi
    Apr 22, 2014 at 15:06
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She is right on the money using statement is just a syntatic sugar for try/finally{obj.Dispose();} . using statement ensures that the object will be disposed.(Dispose method will be called) but it has no relationship with garbage collection.

Take a look at this Understanding-the-using-statement

Short answer: So now we know using statement is just calling Dispose and does nothing other than that, and keep in mind that Dispose method is no special than any other methods. It is just a method and that's it. So it is no way related to garbage collection. Interestingly "Garbage Collector" doesn't even know about Dispose method or IDisposable.

Hope this helps

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  • so the object will be null but still remains on the heap unless GC GC's it. correct ? Apr 22, 2014 at 7:34
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    object will not be go null unless you explicitly set it to null. object will live in memory if you have live reference to the object somewhere despite the fact that object is disposed. Apr 22, 2014 at 7:35
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    @Luaan You're right indeed, but that's different story. That goes deep to the jit optimizations and GC in depth. To keep it simple and not to be pedantic I put this way :) Apr 22, 2014 at 7:46
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    +1 "Garbage Collector" doesn't even know about Dispose method or IDisposable Apr 22, 2014 at 7:57
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    @PhilSandler Yes I worded it wrong, it is syntatic sugar for try...finally{Dispose()}. Does that makes sense? Apr 22, 2014 at 12:41

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