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I've read through this post about disposing of datasets and I still have a question about the destructor. I know that post basically says that you don't need to dispose of Datasets, Datatables, and Dataviews, but my dataset is MASSIVE, so I want to release that memory ASAP. So, my question, should I include a destructor even though the dataset will be disposed when my objects' dispose method is called? Also, explain to me again why the "bool disposing" is needed.

        public DEditUtil(DataSet dsTxData)
        this.dsTxData = dsTxData;

    public void Dispose()

    protected virtual void Dispose(bool disposing)
        if (!disposed)
            if (disposing)

            disposed = true;

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The answer to "Should I create a finalizer" is almost always "No" – asawyer May 4 '12 at 14:03
no need to call GC – May 4 '12 at 14:03
If you are going to implement the pattern then you do want the SuppressFinalize to prevent your Dispose(bool) method from being called twice. – Mike Edenfield May 4 '12 at 14:08
@MichaelEdenfield - calling Dispose(bool) twice shouldn't be a problem, but having the destructor called and your DataTables moved to Gen-1 is really bad. So yes, SuppressFinalize is very essential. – Henk Holterman May 4 '12 at 14:31
up vote 4 down vote accepted

Yes, in general you should implement the full IDisposable pattern whenever either of the following is true:

  1. You have unmanaged resources being allocated by your class, or
  2. You have managed resources that implement IDisposable (which implies that they, in turn, have unmanaged resources)

The presence of the finalizer (the general CLR term for what C++/C# call a "destructor") is to handle cases where your Dispose method is not called for some reason. The boolean value being passed in to your protected Dispose() method indicated if you are being called from within the public Dispose, or from within your finalizer.

If your public Dispose method is being called, that call stack is deterministic: your dispose method is being called directly, so you can safely call methods (including Dispose) on your child objects.

If you are inside of the finalizer, then you have no idea what's going on with other objects that are also being garbage-collected. In general, it may not be safe to call methods on managed objects your control from within your finalizer.

So, the boolean value basically says: "if true, dispose everything; if false, only dispose my unmanaged resources and let everyone else deal with theirs."

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However he has no unmanaged resources. If the finalizer is called in his example code, it will call Dispose(false) which will not dispose his dataset. It basically does nothing in his case. If you remove the if(disposing) in the Dispose(bool disposing) method, then yes, this would help clean up the DataSet when his class' Dispose() method was not called. – CodingWithSpike May 4 '12 at 14:12
It never hurt to implement the full pattern, and it's much easier than trying to remember "do I need half of it? all of it?" and getting it wrong. That's why its a pattern. – Mike Edenfield May 4 '12 at 14:14
I do agree with that statement. I usually implement the full pattern too. I just wanted to point out that with his sample code, his DataSet's .Dispose() would not be called by his finalizer. – CodingWithSpike May 4 '12 at 14:17
@rally25rs yes, you are correct. If the question was "do I absolutely need a destructor" than I would have to admit that it isn't technically doing anything here. But if you ask me "should I add one", then yes, you should use the pattern the same way every time unless you have a really, really good reason not to. – Mike Edenfield May 4 '12 at 14:19
No, you almost never need the full pattern. You should never need a destructor. And for a DataSet you don't really need anything, it's more out of a general principle that we implement IDisposable. – Henk Holterman May 4 '12 at 14:27

The memory used by your DataSet object will be available for garbage collection as soon as it is not referenced anymore by the code.

The garbage collector will make that memory available to the program at a later (non determinate) time.

Both things do not depend of having or not a destructor or calls to Dispose, so the answer is no - you don't need a destructor.

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@MichaelEdenfield: it seems he said exactly the same. Object will be released when it's not more referenced by anything. May be there is tiny english words "game", but I'm not sure. – Tigran May 4 '12 at 14:13
I objected to the phrase "as soon as" implying that it was immediately collected when it went out of scope. That's explicitly not guaranteed by the runtime. – Mike Edenfield May 4 '12 at 14:16
In fact, it might not get collected until the program is shut down. So I agree, this answer is false and misleading. – Skalli May 4 '12 at 14:29
@MichaelEdenfield: by 'released' I meant 'available for garbage collection' - bad choice of words - I am claryfying my answer. – MiMo May 4 '12 at 14:31
@MichaelEdenfield - Calling Dispose() does not release (collect, recycle) any memory. Dispose is about resources only. – Henk Holterman May 4 '12 at 14:34

No, you do not need any other method call here, it's already enough what you did. Dispose will be called by the runtime and you will free resource allocated, the cleanup let's leave up to GC to decide how and when to do it.

If you have really huge problems with memory you can try to cal GC.Collect() to enforce the collection of the garbage, that usually works, but it's never a good practise to use it in that way, so try to avoid it as much as possible.


According to the comments, it's important to pay attention on execution flow in your case, cause the DataSet cleanup will be done only if it's not disposed==false and disposing == true, which from the code provided, will be a case only during esplicit call from the code.

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Dispose() is never "just called" by the runtime; if you follow the recommended practice of always wrapping disposable objects in a using block, the compiler will insert explicit Dispose() calls for you. – Mike Edenfield May 4 '12 at 14:12
-1 because the runtime does not call Dispose() on your objects automatically. – CodingWithSpike May 4 '12 at 14:15
@MichaelEdenfield: I hope the OP's is aware of this, considering that he already implemented Dispose and seems also resolved his problem, but searching for some possible "better" or more "secure" solution. – Tigran May 4 '12 at 14:15
@rally25rs: Where do you read in my post thta runtime call dispose automatically ? – Tigran May 4 '12 at 14:16
"Dispose will be called by the runtime" Dispose ought to be called by user code, and probably is, but it's not called by the runtime itself – Servy May 4 '12 at 14:17

Very seldom should user-written classes ever use finalizers (or C# destructors) for any purpose other than to log failures to call Dispose. Unless one is delving deep into the particulars of how finalizers work, and exactly what is or is not guaranteed guaranteed about the context in which they run, one should never call any other object's Dispose method within a finalizer. In particular, if one's object's Finalize() method is running, any IDisposable objects to which it holds a reference will usually fall into one of the following categories:

  1. Someone else still has a reference to that object and expects it to be usable, so calling `Dispose` would be bad.
  2. The object cannot be safely disposed within a finalizer thread context, so calling `Dispose` would be bad.
  3. The object would have kept the present object alive if there were anything meaningful for its `Dispose` handler to do; the fact that the present object's `Finalize` method is running implies that there's no longer any need to call `Dispose` on the other object (this scenario can occur with events).
  4. The object has already had its `Finalize` method called, so calling `Dispose` would be at best superfluous.
  5. The object is scheduled to have its `Finalize` method called, so calling `Dispose` would likely be superfluous.

Although there are a few cases where an object might need to clean up another IDisposable object within a Finalize method, using Finalize properly in such cases is tricky, and using it improperly is apt to be worse than not using it at all. Among other things, Finalize generally only runs when an entity requests an IDisposable and wrongfully fails to call Dispose before abandoning it. It's usually better to focus one's efforts on making sure that Dispose gets properly before an object is abandoned, than on trying to properly handle buggy consumer code.

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