I have a .NET Core C# class that wraps an unmanaged pointer and it should be freed on program exit along with other resource cleanup. However, the destructor is not being called. I have tried in both Debug and Release mode. I see that .NET Core apparently doesn't guarantee that destructors will be run, so what is a recommended workaround? IMO the main point of garbage collection is to avoid having the developer track references, so I find this behavior surprising, to say the least.

From MSDN: In .NET Framework applications (but not in .NET Core applications), finalizers are also called when the program exits.

public Demo { 
  IntPtr _ptr;

  public Demo() 
    _ptr = /* P-invoke external function */ 

    /*P-invoke ptr deletion */

public static void Main() 
  Demo demo = new Demo();
  demo = null;

Program output:

<...>\Test.exe (process 7968) exited with code 0.
  • 2
    Here are some explanations stackoverflow.com/questions/44732234/…
    – CharithJ
    Commented Mar 30, 2021 at 0:37
  • Have you tried to declare Demo as a static Field: static Demo demo = new Demo();, then setting it to null and calling GC.Collect()? Do you mean to implement IDisposable here? (what version of .Net Core?)
    – Jimi
    Commented Mar 30, 2021 at 0:46
  • IMO a finalizer being run is a bug. Use a using block with IDisposable to guarantee disposal as far as possible. Remember that catastrophic failure is always a problem eg Environment.FailFast, taskkill or a power failure Commented Mar 30, 2021 at 0:47
  • 1
    Automatic cleanup of unmanaged resources is a laudable goal, but notoriously difficult to achieve in C#, and finalizers and not the answer to this. They are absolutely not guaranteed to run, it's best efforts only. Further reading joeduffyblog.com/2005/04/08/… and viva64.com/en/b/0437 and scale-tone.github.io/2018/04/13/… and codeproject.com/Articles/15360/… Commented Mar 30, 2021 at 1:06
  • 3
    Other than demo code, I've never written a Finalizer in my 20 years of .NET programming (I started with the alpha version of C#). Finalizers are hard to write properly, extremely hard to test, and even when you write them, really should never run (you should do your cleanup using IDisposable whenever possible). If you have a absolute requirement, look at SafeHandles
    – Flydog57
    Commented Mar 30, 2021 at 1:22

2 Answers 2


More changes are needed to improve the likelihood that the finalizer will be called.

Btw, Finalizer is never guaranteed to be called. If you want to gurantee the resources release, implement IDisposable and call Dispose() before the app/method/code block exit. Additionally to make Dispose() guaranteed to call (even if app crashes, except FailFast and StackOverflow) before exiting the code block, use try-finally or using statements.

Here's an example to play with.

public class Program
    static void Main(string[] args)
        Console.WriteLine("[main] Constructing");
        MyDisposable m = new MyDisposable(0);
        Console.WriteLine("[main] Disposing [object 0]");
        Console.WriteLine("[main] GC Collecting");
        Console.WriteLine("[main] Done");

    private static void MyMethod(int i)
        new MyDisposable(i);

public class MyDisposable : IDisposable
    private int _id;

    public MyDisposable(int id)
        _id = id;
        Console.WriteLine($"[object {_id}] Constructed");

    private bool disposed = false;

    public void Dispose()

    protected virtual void Dispose(bool disposing)
        if (!disposed)
            if (disposing)
                Console.WriteLine($"[object {_id}] Disposing by Dispose()");
                Console.WriteLine($"[object {_id}] Disposing by ~Finalizer");
            Console.WriteLine($"[object {_id}] Disposed");
            disposed = true;
            Console.WriteLine($"[object {_id}] Already disposed!");



[main] Constructing
[object 0] Constructed
[object 1] Constructed
[main] Disposing [object 0]
[object 0] Disposing by Dispose()
[object 0] Disposed
[main] GC Collecting
[object 1] Disposing by ~Finalizer
[object 1] Disposed
[main] Done

Some read: Using objects that implement IDisposable.

  • using with IDisposable calls Dispose(), with or without GC.WaitForPendingFinalizers(). Also, GC.WaitForPendingFinalizers() without IDisposable does not force the finalizer to be run - I'm not clear on what exactly you thought it would do.
    – evo8198
    Commented Mar 30, 2021 at 1:08
  • 1
    Finalizer is never guaranteed to be called. should be double bold. @evo8198 The point here is that if you want to dispose, use IDisposable. Your second point is simply not true. Finalizers have nothing intrinsically to do with IDisposable, other than their code usually just calls through to IDisposable.Dispose, which is why Dispose should contain GC.SuppressFinalize Commented Mar 30, 2021 at 1:12
  • @evo8198 i just showed how to make GC to call ~Demo. Just for example. But I didn't tell anything about connection between GC methods explicit calls and IDisposable.
    – aepot
    Commented Mar 30, 2021 at 1:15
  • @aepot, in my comment I was stating that GC.WaitForPendingFinalizers() does not actually force ~Demo() be called. I just tested it.
    – evo8198
    Commented Mar 30, 2021 at 1:20
  • 2
    @aepot, thanks, that was the issue - finalizer was not being called for me because I was calling the GC methods in the same scope as the object. I expected setting the object to null would be sufficient, but it is not.
    – evo8198
    Commented Mar 30, 2021 at 2:13

The official Cleaning up unmanaged resources states:

If your types use unmanaged resources, you should do the following:

Implement the dispose pattern. (...)

In the event that a consumer of your type forgets to call Dispose, provide a way for your unmanaged resources to be released. There are two ways to do this:

  • Use a safe handle to wrap your unmanaged resource. This is the recommended technique. Safe handles are derived from the System.Runtime.InteropServices.SafeHandle abstract class and include a robust Finalize method. When you use a safe handle, you simply implement the IDisposable interface and call your safe handle's Dispose method in your IDisposable.Dispose implementation. The safe handle's finalizer is called automatically by the garbage collector if its Dispose method is not called.


Implement a Dispose method contains:

  • 'the general pattern for implementing the dispose pattern for a base class that uses a safe handle'; and
  • 'the general pattern for implementing the dispose pattern for a base class that overrides Object.Finalize'.

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