Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

Sign up and start helping → Learn more about Documentation →

Assuming I have a method public static Rectangle DrawRectangle(Vector origin, Vector size) which returns an object of type Rectangle : IDisposable

If I call only the method DrawRectangle(origin, size), but do not assign the return value to a variable myRectangle = DrawRectangle(origin, size), will the compiler automatically detect this and call DrawRectangle(origin, size).Dispose(), or do I have to do it myself?

share|improve this question
"No", and "use using". – Marc Gravell Jan 7 '13 at 9:30
flagged as duplicate: stackoverflow.com/questions/45036/… – igrimpe Jan 7 '13 at 9:32
@igrimpe not sure it is a duplicate; this question specifically asks about the compiler – Marc Gravell Jan 7 '13 at 9:33
up vote 1 down vote accepted

There are only two scenarios I can think of where the compiler automatically calls dispose; the most obvious would be:

using(var obj = ... )
  // some code

which is an explicit instruction to say "at the end, whether success or failure, if obj is non-null, call obj.Dispose()". Basically it expands to:

   var obj = ...
   try {
       // some code
   } finally {
       if(obj != null) obj.Dispose();   

The other is foreach, where-by the iterator is disposed - although it gets a bit complicated, because IEnumerator doesn't specify that IDisposable is required (by contrast, IEnumerator<T> does specify that), and technically IEnumerable is not even required for foreach, but basically:

foreach(var item in sequence) {
   // some code

could be expressed as (although the spec may say it slightly differently):

    var iter = sequence.GetEnumerator();
    using(iter as IDisposable)
        {   // note that before C# 5, "item" is declared *outside* the while
            var item = iter.Current;
            // some code

In all other cases, disposing resources is your responsibility.

If you don't ensure that Dispose() is called, then nothing will happen until GC eventually collects the object; if there is a finalizer (there doesn't have to be, and usually isn't), the finalizer will be invoked - but that is different to Dispose(). It may (depending on the per-type implementation) end up doing the same thing as Dispose(): but it may not.

share|improve this answer
If the collection returns an enumerator of a class type which does not implement IDisposable (as opposed to being of type IEnumerator), I believe C# will assume that the enumerator instance does not implement IDisposable, and will not attempt the cast, even though the actual returned instance could be a derived type which does implement IDisposable. – supercat Jan 7 '13 at 16:57
@supercat yes, I noted that: see "technically". The equivalents example is meant to be illustrative and semantically-equivalent, not an exact implementation. As doe whether it tries the cast for the subtype scenario: I'd have to look in reflector to comment. In my own IL generator I only disable that if it is sealed/struct, so cannot have a subclass. – Marc Gravell Jan 7 '13 at 17:04
If GetEnumerator returns a type which does implement IDisposable, then the compiler will call Dispose on it. It's too bad that so far as I know the only name the compiler will look for is GetEnumerator, since if it would look for e.g. GetForEachEnumerator, it would be possible for that to return a struct which didn't implement any interface (and thus didn't have to implement IDisposable), while GetEnumerator could return a class which implemented IEnumerator<T> and thus had to implement IDisposable. – supercat Jan 7 '13 at 17:13
@supercat you can use explicit + public implementation to do that, IIRC – Marc Gravell Jan 7 '13 at 19:46
One could do that, if one is willing to require consumers of your type who want an IEnumerator<T> to either cast to IEnumerable<T> first or else call a method named something other than GetEnumerator. Neither of those seems particularly attractive. It would seem cleaner to have GetEnumerator will return a class object which behaves like a class-type enumerator, while GetForEachEnumerator would return a struct whose semantics were different as a consequence of it being a struct, but which would work correctly (and quickly) when used in the exact fashion that foreach uses it. – supercat Jan 7 '13 at 20:08

No. Point.

Eventually he finalizer does, but no. It does not automatically CALL Dispose.

share|improve this answer
I'd also mention that the compiler NEVER disposes the code being compiled, only the CLR. – Erik Philips Jan 7 '13 at 9:28
A finalizer may call Dispose, but it certainly doesn't have to. Disposal and finalization/garbage collection are separate things. – Jon Skeet Jan 7 '13 at 9:30
@ErikPhilips meh; I'm not sure that is a useful distinction. And there certainly are places where the compiler adds a Dispose; foreach and using being two off the top of my head – Marc Gravell Jan 7 '13 at 9:31
@TomTom the GC just cleans up the memory, calling finalize if there is one; it never does anything specifically relating to IDisposable / Dispose() - although the finalizer implementation may (if it chooses) – Marc Gravell Jan 7 '13 at 9:32
lIn some ways, I think the availability of finalizers may do more harm than good, since they often alow code which isn't written properly to "mostly work". Just about he only time finalizers should be important is when doing things like interning immutable objects that implement IDisposable (e.g. bitmaps holding pre-rendered pictures), in which case they may be reasonably combined with WeakReference. There are a few cases where correct cleanup is annoyingly difficult (e.g. a base-class object creates an IDisposable, and then a derived-class constructor throws an exception), but... – supercat Jan 7 '13 at 17:06

If your Rectangle class implemets IDisposable, try the using( ) { ... } statment when posible.

Msdn link

share|improve this answer

The compiler builds code in to assemblies and is not responsible for any execution. The .net runtime is what runs your code and more specifically, the garbage collector deals with memory clean up. It is generally best practice to call objects that implement IDisposable inside of a using block. E.g:

using (var obj = new object) { ... do your stuff }

This will help the runtime understand when your object goes out of scope and clean it up earlier, but as long as you dont hold on to a reference to an object, the runtime will eventually clean it up and dispose it for you.

share|improve this answer

If you want the CLR to call the Dispose method, it is usually recommended to implement the so called Dispose pattern in your class. However, I would not rely on CLR and wouldn't wait for GC to collect an object and use the using clause instead.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.