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Will an IDisposable memory leak if you don't use a using statement?
And if so, can someone provide a memory leak example if its not much code?

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6 Answers 6

up vote 4 down vote accepted

A correctly-written program which creates an instance of a type that implements IDisposable, and which is not specifically known to be capable of adequately cleaning up after itself when abandoned, must ensure that Dispose is called on that instance before abandoning it. Any program which fails to call Dispose on a type which is not specifically known to be fine without it is broken.

Although it would be nice if automatic finalization could take care of everything, it's a pretty crummy cleanup mechanism. It provides no guarantees with regard to sequencing, threading context, timeliness, or certainty of completion (when using deterministic cleanup, one can make reasonably certain that a program won't appear to complete normally if cleanup fails; when using finalization, a program may appear to complete normally without even attempting to clean up an object).

Microsoft may once have intended that every IDisposable class should be able to adequately clean up after itself if abandoned, but that is simply not practical. In many cases, for a class to attempt to clean up after itself if abandoned would add a massive amount of complexity, and would simply turn a broken program that would have obvious problems that are easy to track down, into a broken program that usually works except when the timing of the finalizer thread relative to some other thread causes things to fail in some unexpected and non-reproducible fashion.

There are some types which, despite implementing IDisposable, are unconditionally safe to abandon, and there are some others which may be safely abandoned in certain circumstances. It is fine to abandon such types in situations where disposing them would be difficult (e.g. because references are held by multiple objects that are manipulated by various threads, and there's no nice way by which any particular object can know it when it holds the last surviving reference), provided that one documents one's reasons for believing that such action is safe and appropriate. Such behavior is not appropriate, however, in cases where one has accepted IDisposable objects of unknown lineage.

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We wrote answers with very closely related view points :D My up-votes are currently out, but this is spot-on. –  user166390 Feb 8 '13 at 21:52

No it won't leak. Eventually garbage collection will get around to disposing the object.

IDisposable allows the caller to free up the resources early.

Update

As @Servy and @Brian Rasmussen state. The class that implements IDisposable should also implement a finalizer. This is the recommended practice. see http://msdn.microsoft.com/en-us/library/b1yfkh5e(v=vs.100).aspx

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2  
That all depends on what exactly is done in the Dispose method, and whether or not the type defined a finalizer. –  Servy Feb 8 '13 at 21:11
1  
If the type doesn't also provide a finalizer, it may leak unmanaged resources though. –  Brian Rasmussen Feb 8 '13 at 21:11
    
@Servy I didn't mention a finalizer because its consedered best practice. –  Richard Schneider Feb 8 '13 at 21:19
1  
@RichardSchneider You say it won't ever leak and that it will always end up being handled. That's just not true. It's often true, but it's not always true. That's a very important distinction. Not everyone follows the best practices, so if you don't ever dispose anything your program won't just consume more of those resources, it can potentially leak them. –  Servy Feb 8 '13 at 21:21
    
I agree with Servy. While "best practices" will also do Disposable-stuff in the finalizer, it is possible for external resources to be consumed before there is sufficient GC memory pressure/timing to invoke the finalizer. –  user166390 Feb 8 '13 at 21:22

First off, note that IDisposable generally relates to external unmanaged resources1 - e.g. files, connections - and leaks of such; CLR objects and memory used by such will still be handled correctly by the GC based upon reachability.

IDisposable defines a contract and represents a breaking-change when added to or removed from a type. Any failure to honor this contract can result in "not well-defined behavior". The using construct is a tool to avoid having to deal with the details of calling Dispose and edge-cases with exceptions, but it is not part of the contract and is not required. Yet, the contract remains the same and any violations of such removes all responsibility of said IDisposable to "work correctly".

  • Some types that implement IDisposable will never leak resources; they might not dispose any external resources.
  • Some types that implement IDisposable do not follow the "best practice" of also implementing a finalizer; they will leak external resources if Dispose is not called.
  • Some types, such as those that implement the finalizer pattern as well, might only leak external resources in certain GC situations. That is, the finalizer may not be invoked soon enough. This condition might be too slow to be an issue in low-load scenarios but lead to unexpected failures in high-load scenarios.
  • Some types might result in situations with ill-defined behavior and inconsistent state.

Don't violate the contract.


1 An IDisposable type could also alter some state in Dispose that does not utilize unmanaged resources: this is still covered under "not well-defined behavior" if the contract is violated. One case where I have used an IDisposable type is to manage Runtime Callable Wrapper (RCW) objects even though they are technically "managed" by the runtime. See supercat's comment for more situations.

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IDisposable doesn't just relate to "external" unmanaged resources; unmanaged resources can and do exist entirely within managed code. The prime example of an unmanaged resource within managed code is an subscription to an event from a long-lived object. If a subscriber to such an event is abandoned without unsubscribing, the subscriber's lifetime may be arbitrarily extended. If an unbounded number of subscribers are created and abandoned during the lifetime of the long-lived object, the number of simultaneous useless subscriptions will likewise be unbounded. –  supercat Feb 8 '13 at 21:48
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Glad you like the comment. Microsoft gives some examples of "unmanaged resource", but I've never found anywhere that it actually defines the term. My definition would be that an object Foo holds a resource if some outside entity is altering its behavior on Foo's behalf, to the detriment of other entities, and will keep doing so until further notice. A "managed resource" is a managed Object which holds a resource, and will likely clean it up, eventually, if abandoned. Resources other than managed resources are unmanaged resources. –  supercat Feb 8 '13 at 23:02

It all depends on what your IDisposable is.

The IDisposable pattern is basically a way to deterministically release managed (and unmanaged) resources, rather than waiting until the finalizer for that object runs. If, for example, you open up database connections, file handles, etc., you will of course want these resources released or otherwise cleaned up "on demand", so they don't prevent you from re-acquiring access to them elsewhere. This is the main use case for the Dispose pattern.

So, will it leak memory? Again, that depends - very likely, if you're using the IObervable<T> subscriptions, since in one sense, they are un-released event handlers (I'm simplifying drastically here). Will you cause a memory leak if you don't close that SqlConnection? Not by the strictest definition of "memory leak", as the connection will close eventually (say, when your app terminates, or the connection object is finally collected and finalized), but I think I can sum all this up by saying:

"ALWAYS dispose your IDisposables"

EDIT: @Servy is absolutely correct - while in my SqlConnection example, I believe the finalizer automatically closes the connection, but this is NOT guaranteed behavior for IDisposables in general - so always Dispose!

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This is assuming your type defines a finalizer, which it may not. –  Servy Feb 8 '13 at 21:14
    
Excellent point @Servy - I may have erred a bit on the side of oversimplification. –  JerKimball Feb 8 '13 at 21:15

using statement just syntactical sugar

 using(var resource = expression) statement

which translates something likes to

{
   var resource = expression;
   try {
      statement;
   }
   finally {
      [if(resource!=null)]((IDisposable)resource).Dispose();
   }
}

If dispose pattern implemented correctly the memory leak won't occurs. GC calls (non-deterministic) Finalizer which calls Dispose method.

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Using statement will call the object Dispose method at the end of the block.

you can use the following example to get the same result:

 obj a = new obj(); // Assuming obj : IDisposable
 try 
 {
    // Your code here
 }
 finally
 {
    if (a != null)
    { 
       a.Dispose();
    }
 }
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