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Why do some people use the Finalize method over the Dispose method?

In what situations would you use the Finalize method over the Dispose method and vice versa?

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10 Answers 10

up vote 41 down vote accepted

Others have already covered the difference between Dispose and Finalize (btw the Finalize method is still called a destructor in the language specification), so I'll just add a little about the scenarios where the Finalize method comes in handy.

Some types encapsulates disposable resources in a manner where it is easy to use and dispose of them in a single action. The general usage is often like this. Open, read or write, close (Dispose). It fits very well with the using construct.

Others are a bit more difficult. WaitEventHandles for instances are not used like this as they are used to signal from one thread to another. The question then becomes who should call Dispose on these? As a safeguard types like these implement a Finalize method, which makes sure resources are disposed when the instance is no longer referenced by the application.

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I could not understand this approved answer. I still want to know the different. What it is? –  Ismael Dec 13 '12 at 19:23
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@Ismael: The biggest situation where Finalize may be justified is when there are a number of objects which are interested in having a resource kept alive, but there's no means by which an object that ceases to be interested in the resource can find out if it's the last one. In such case, Finalize will usually only fire when nobody's interested in the object. The loose timing of Finalize is horrible for non-fungible resources such as files and locks, but may be okay for fungible resources. –  supercat May 17 '13 at 20:56
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+1 to supercat for a great new (to me) word. The context made it pretty clear, but just in case for the rest of us, here's what wikipedia says: "Fungibility is the property of a good or a commodity whose individual units are capable of mutual substitution, such as sweet crude oil, shares in a company, bonds, precious metals, or currencies." –  Jon Coombs Oct 23 '13 at 7:57

The finalizer method is called when your object is garbage collected and you have no guarantee when this will happen (you can force it, but it will hurt performance).

The Dispose method on the other hand is meant to be called by the code that created your class so that you can clean up and release any resources you have acquired (unmanaged data, database connections, file handles, etc) the moment the code is done with your object.

The standard practice is to implement IDisposable and Dispose so that you can use your object in a using statment. Such as using(var foo = new MyObject()) { }. And in your finalizer, you call Dispose, just in case the calling code forgot to dispose of you.

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You need to be a bit careful about calling Dispose from your Finalize implementation -- Dispose may also dispose managed resources, which you don't want to touch from your finalizer, as they may already have been finalized themselves. –  itowlson Apr 9 '09 at 5:11
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@itowlson: Checking for null combined with the assumption that objects can be disposed of twice (with second call doing nothing) should be good enough. –  Samuel Apr 9 '09 at 5:16
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The standard IDisposal pattern and the hidden implementation of a Dispose(bool) to handle disposing managed components optional seems to cater for that issue. –  Brody Apr 9 '09 at 5:34
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Brody, I just wish this pattern would be easier to implement.... –  peterchen Apr 9 '09 at 7:32

Finalize is the backstop method, called by the garbage collector when it reclaims an object. Dispose is the "deterministic cleanup" method, called by applications to release valuable native resources (window handles, database connections, etc.) when they are no longer needed, rather than leaving them held indefinitely until the GC gets round to the object.

As the user of an object, you always use Dispose. Finalize is for the GC.

As the implementer of a class, if you hold managed resources that ought to be disposed, you implement Dispose. If you hold native resources, you implement both Dispose and Finalize, and both call a common method that releases the native resources. These idioms are typically combined through a private Dispose(bool disposing) method, which Dispose calls with true, and Finalize calls with false. This method always frees native resources, then checks the disposing parameter, and if it is true it disposes managed resources and calls GC.SuppressFinalize.

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The original recommended pattern for classes which held a mix of self-cleaning ("managed") and non-self-cleaning ("unmanaged") resources has long been obsolescent. A better pattern is to separately wrap every unmanaged resource into its own managed object which doesn't hold any strong references to anything which isn't necessary for its cleanup. Everything to which a finalizable object holds a direct or indirect strong reference will have its GC lifetime extended. Encapsulating the things that are needed for cleanup will let one avoid extending the GC lifetime of things that aren't. –  supercat May 17 '13 at 21:01
    
@supercat: I don't fully understand what you mean here, though I'm getting a vague idea. Could you include a link to an article or blog explaining this? It sounds like you're describing a best practice rather than arguing against the use of Dispose and Finalize. –  Jon Coombs Oct 23 '13 at 8:03
    
@JCoombs: Dispose is good, and implementing it correctly is generally easy. Finalize is evil, and implementing it correctly is generally hard. Among other things, because the GC will ensure that no object's identity will ever get "recycled" as long as any reference to that object exists, it's easy to cleaning up a bunch of Disposable objects, some of which may have already been cleaned up, is no problem; any reference to an object on which Dispose has already been called will remain a reference to an object upon which Dispose has already been called. –  supercat Oct 23 '13 at 15:49
    
@JCoombs: Unmanaged resources, by contrast, generally have no such guarantee. If object Fred owns file handle #42 and closes it, the system might attach that same number to some the file handle which is given to some other entity. In that case, file handle #42 would not refer to Fred's closed file, but to the file that was in active use by that other entity; for Fred to try to close handle #42 again would be disastrous. Trying to 100% reliably keep track of whether one unmanaged object has yet been released is workable. Trying to keep track of multiple objects is much harder. –  supercat Oct 23 '13 at 15:55

Finalize

  • Finalizers should always be protected, not public or private so that the method cannot be called from the application's code directly and at the same time, it can make a call to the base.Finalize method
  • Finalizers should release unmanaged resources only.
  • The framework does not guarantee that a finalizer will execute at all on any given instance.
  • Never allocate memory in finalizers or call virtual methods from finalizers.
  • Avoid synchronization and raising unhandled exceptions in the finalizers.
  • The execution order of finalizers is non-deterministic—in other words, you can't rely on another object still being available within your finalizer.
  • Do not define finalizers on value types.
  • Don't create empty destructors. In other words, you should never explicitly define a destructor unless your class needs to clean up unmanaged resources and if you do define one, it should do some work. If, later, you no longer need to clean up unmanaged resources in the destructor, remove it altogether.

Dispose

  • Implement IDisposable on every type that has a finalizer
  • Ensure that an object is made unusable after making a call to the Dispose method. In other words, avoid using an object after the Dispose method has been called on it.
  • Call Dispose on all IDisposable types once you are done with them
  • Allow Dispose to be called multiple times without raising errors.
  • Suppress later calls to the finalizer from within the Dispose method using the GC.SuppressFinalize method
  • Avoid creating disposable value types
  • Avoid throwing exceptions from within Dispose methods

Dispose/Finalized Pattern

  • Microsoft recommends that you implement both Dispose and Finalize when working with unmanaged resources. The Finalize implementation would run and the resources would still be released when the object is garbage collected even if a developer neglected to call the Dispose method explicitly.
  • Cleanup the unmanaged resources in the Finalize method as well as Dispose method. Additionally call the Dispose method for any .NET objects that you have as components inside that class(having unmanaged resources as their member) from the Dispose method.
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I read this same answer everywhere and still i cannot understand what is the purpose of each one. I only read rules after rules, nothing more. –  Ismael Dec 13 '12 at 19:29

Finalize gets called by the GC when this object is no longer in use.

Dispose is just a normal method which the user of this class can call to release any resources.

If user forgot to call Dispose and if the class have Finalize implemented then GC will make sure it gets called.

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99% of the time, you should not have to worry about either. :) But, if your objects hold references to non-managed resources (window handles, file handles, for example), you need to provide a way for your managed object to release those resources. Finalize gives implicit control over releasing resources. It is called by the garbage collector. Dispose is a way to give explicit control over a release of resources and can be called directly.

There is much much more to learn about the subject of Garbage Collection, but that's a start.

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I'm pretty sure more than 1% of C# applications use databases: where you have to worry about IDisposable SQL stuff. –  Samuel Apr 9 '09 at 5:14
    
Also, you should implement IDisposable if you encapsulate IDisposables. Which probably covers the other 1%. –  Darren Clark Apr 9 '09 at 5:16
    
@Samuel: I don't see what databases has to do with it. If you are talking about closing connections, that's fine, but that's a different matter. You don't have to dispose objects to close connections in a timely manner. –  JP Alioto Apr 9 '09 at 5:35
    
@JP: But the Using(...) pattern makes it so much simpler to cope with. –  Brody Apr 9 '09 at 5:38
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Agreed, but that's exactly the point. The using pattern hides the call to Dispose for you. –  JP Alioto Apr 9 '09 at 6:05

The finalizer is for implicit cleanup - you should use this whenever a class manages resources that absolutely must be cleaned up as otherwise you would leak handles / memory etc...

Correctly implementing a finalizer is notoriously difficult and should be avoided wherever possible - the SafeHandle class (avaialble in .Net v2.0 and above) now means that you very rarely (if ever) need to implement a finalizer any more.

The IDisposable interface is for explicit cleanup and is much more commonly used - you should use this to allow users to explicitly release or cleanup resources whenever they have finished using an object.

Note that if you have a finalizer then you should also implement the IDisposable interface to allow users to explicitly release those resources sooner than they would be if the object was garbage collected.

See DG Update: Dispose, Finalization, and Resource Management for what I consider to be the best and most complete set of recommendations on finalizers and IDisposable.

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There're some keys about from the book MCSD Certification Toolkit (exam 70-483) pag 193:

destructor ≈(it's almost equal to) base.Finalize(), The destructor is converted into an override version of the Finalize method that executes the destructor’s code and then calls the base class’s Finalize method. Then its totally non deterministic you can't able to know when will be called because depends on GC.

If a class contains no managed resources and no unmanaged resources, it doesn’t need to implement IDisposableor have a destructor.

If the class has only managed resources, it should implement IDisposable but it doesn’t need a destructor. (When the destructor executes, you can’t be sure managed objects still exist, so you can’t call their Disposemethods anyway.)

If the class has only unmanaged resources, it needs to implement IDisposableand needs a destructor in case the program doesn’t call Dispose.

The Dispose method must be safe to run more than once. You can achieve that by using a variable to keep track of whether it has been run before.

The Dispose method should free both managed and unmanaged resources.

The destructor should free only unmanaged resources. (When the destructor executes, you can’t be sure managed objects still exist, so you can’t call their Disposemethods anyway.)

After freeing resources, the destructor should call GC.SuppressFinalize, so the object can skip the finalization queue.

An Example of a an implementation for a class with unmanaged and managed resources:

using System;

class DisposableClass : IDisposable
{
    // A name to keep track of the object.
    public string Name = "";

    // Free managed and unmanaged resources.
    public void Dispose()
    {

        FreeResources(true);
    }

    // Destructor to clean up unmanaged resources
    // but not managed resources.
    ~DisposableClass()
    {
        FreeResources(false);
    }

    // Keep track if whether resources are already freed.
    private bool ResourcesAreFreed = false;

    // Free resources.
    private void FreeResources(bool freeManagedResources)
    {
        Console.WriteLine(Name + ": FreeResources");
        if (!ResourcesAreFreed)
        {
            // Dispose of managed resources if appropriate.
            if (freeManagedResources)
            {
                // Dispose of managed resources here.
                Console.WriteLine(Name + ": Dispose of managed resources");
            }

            // Dispose of unmanaged resources here.
            Console.WriteLine(Name + ": Dispose of unmanaged resources");

            // Remember that we have disposed of resources.
            ResourcesAreFreed = true;

            // We don't need the destructor because
            // our resources are already freed.
            GC.SuppressFinalize(this);
        }
    }
}
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It has been a long time but you may read this http://blog.stephencleary.com/2009/08/how-to-implement-idisposable-and.html

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this is not an answer, please add one-liner or link only answers as comment below the question! –  MichaC Oct 5 '13 at 7:16
    
@MichaC he cannot comment due to his points :) –  Interstellar Mar 10 at 10:33

The best example which i know.

 public abstract class DisposableType: IDisposable
  {
    bool disposed = false;

    ~DisposableType()
    {
      if (!disposed) 
      {
        disposed = true;
        Dispose(false);
      }
    }

    public void Dispose()
    {
      if (!disposed) 
      {
        disposed = true;
        Dispose(true);
        GC.SuppressFinalize(this);
      }
    }

    public void Close()
    {
      Dispose();
    }

    protected virtual void Dispose(bool disposing)
    {
      if (disposing) 
      {
        // managed objects
      }
      // unmanaged objects and resources
    }
  }
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