Should you set all the objects to null (Nothing in VB.NET) once you have finished with them?

I understand that in .NET it is essential to dispose of any instances of objects that implement the IDisposable interface to release some resources although the object can still be something after it is disposed (hence the isDisposed property in forms), so I assume it can still reside in memory or at least in part?

I also know that when an object goes out of scope it is then marked for collection ready for the next pass of the garbage collector (although this may take time).

So with this in mind will setting it to null speed up the system releasing the memory as it does not have to work out that it is no longer in scope and are they any bad side effects?

MSDN articles never do this in examples and currently I do this as I cannot see the harm. However I have come across a mixture of opinions so any comments are useful.

  • 4
    +1 great question. Does anyone know a circumstance under which the compiler will optimize away the assignment altogether? i.e. has anyone looked at MSIL under different circumstances and noted IL for setting an object to null (or the lack thereof).
    – Tim M.
    Sep 27, 2010 at 7:43

15 Answers 15


Karl is absolutely correct, there is no need to set objects to null after use. If an object implements IDisposable, just make sure you call IDisposable.Dispose() when you're done with that object (wrapped in a try..finally, or, a using() block). But even if you don't remember to call Dispose(), the finaliser method on the object should be calling Dispose() for you.

I thought this was a good treatment:

Digging into IDisposable

and this

Understanding IDisposable

There isn't any point in trying to second guess the GC and its management strategies because it's self tuning and opaque. There was a good discussion about the inner workings with Jeffrey Richter on Dot Net Rocks here: Jeffrey Richter on the Windows Memory Model and Richters book CLR via C# chapter 20 has a great treatment:

  • 6
    The rule about not setting to null isn't "hard and fast"...if the object gets put on the large object heap (size is >85K) it will help the GC if you set the object to null when you are done using it. Nov 1, 2008 at 3:46
  • I agree to a limited extent, but unless you're starting to experience memory pressure then I see no need to 'prematurely optimise' by setting objects to null after use.
    – Kev
    Nov 1, 2008 at 20:14
  • 21
    This whole business of "don't prematurely optimize" sounds more like "Prefer slow and don't worry because CPUs are getting faster and CRUD apps don't need speed anyway." It may just be me though. :) Dec 20, 2008 at 4:42
  • 20
    What it really means is "The Garbage Collector is better at managing memory than you are." That might be just me though. :)
    – BobRodes
    Jun 7, 2012 at 19:41
  • 3
    @BobbyShaftoe: It's probably as wrong to say "premature optimization is bad, always" as it is to jump to the opposite extreme of "sounds more like 'prefer slow'." No reasonable programmer would say either. It's about nuance and being smart about what your optimizing. I'd personally worry about code clarity and THEN ACTUALLY TEST performance as I've personally seen a lot of people (including myself when I was younger) spend wayyyy too much time making the "perfect" algorithm, only to have it save 0.1ms in 100,000 iterations all while readability was completely shot. Aug 3, 2017 at 17:10

Another reason to avoid setting objects to null when you are done with them is that it can actually keep them alive for longer.


void foo()
    var someType = new SomeType();
    // someType is now eligible for garbage collection         

    // ... rest of method not using 'someType' ...

will allow the object referred by someType to be GC'd after the call to "DoSomething" but

void foo()
    var someType = new SomeType();
    // someType is NOT eligible for garbage collection yet
    // because that variable is used at the end of the method         

    // ... rest of method not using 'someType' ...
    someType = null;

may sometimes keep the object alive until the end of the method. The JIT will usually optimized away the assignment to null, so both bits of code end up being the same.

  • That's an interesting point. I always thought that objects don't go out of scope until after the method in which they are scoped is complete. Unless of course the object is scoped within a Using block or is explicitly set to Nothing or null.
    – Guru Josh
    May 6, 2014 at 16:15
  • 2
    The preferred way to ensure that they stay alive is to use GC.KeepAlive(someType); See ericlippert.com/2013/06/10/construction-destruction
    – NotMe
    Jul 10, 2014 at 15:34

No don't null objects. You can check out https://web.archive.org/web/20160325050833/http://codebetter.com/karlseguin/2008/04/28/foundations-of-programming-pt-7-back-to-basics-memory/ for more information, but setting things to null won't do anything, except dirty your code.

  • 1
    Nice and detail explanation about memory in the shared link Aug 8, 2014 at 12:11
  • 1
    Link broken. Without linked content, this answer is rather useles and should be deleted. Mar 27, 2019 at 8:07

In general, there's no need to null objects after use, but in some cases I find it's a good practice.

If an object implements IDisposable and is stored in a field, I think it's good to null it, just to avoid using the disposed object. The bugs of the following sort can be painful:

// ... at some later time

It's good to null the field after disposing it, and get a NullPtrEx right at the line where the field is used again. Otherwise, you might run into some cryptic bug down the line (depending on exactly what DoSomething does).

  • 8
    Well, a disposed object should throw ObjectDisposedException if it has already been disposed. This does, as far as I know, require boilerplate code all over the place, but then again, Disposed is a badly thought-out paradigm anyway. Apr 5, 2011 at 17:01
  • 3
    Ctrl+F for .Dispose(). If you find it, you aren't using IDisposable correctly. The only use for a disposable object should be in the confines of a using-block. And after the using-block, you don't even have access to myField anymore. And within the using block, setting to null is not required, the using-block will dispose the object for you.
    – Suamere
    Jan 11, 2016 at 16:54

Chances are that your code is not structured tightly enough if you feel the need to null variables.

There are a number of ways to limit the scope of a variable:

As mentioned by Steve Tranby

using(SomeObject object = new SomeObject()) 
  // do stuff with the object
// the object will be disposed of

Similarly, you can simply use curly brackets:

    // Declare the variable and use it
    SomeObject object = new SomeObject()
// The variable is no longer available

I find that using curly brackets without any "heading" to really clean out the code and help make it more understandable.

  • I tried using custom local scopes once (mostly being a smarta$$). The company exploded.
    – Suamere
    Jan 11, 2016 at 16:56
  • On another note: This is because the c# compiler will find local-scoped variables that implement IDisposable, and will call .Dispose (MOST Of the time) when their scope ends. However... SQL Connections are one big time when .Dispose() is never optimized-in. There are some types that require explicit attention, so I personally always do things explicitly just so I don't get bitten.
    – Suamere
    Jan 11, 2016 at 16:58


using(SomeObject object = new SomeObject()) 
  // do stuff with the object
// the object will be disposed of

In general no need to set to null. But suppose you have a Reset functionality in your class.

Then you might do, because you do not want to call dispose twice, since some of the Dispose may not be implemented correctly and throw System.ObjectDisposed exception.

private void Reset()
    if(_dataset != null)
       _dataset = null;
    //..More such member variables like oracle connection etc. _oraConnection
  • Best to just track this with a separate flag maybe. Sep 13, 2019 at 9:49

The only time you should set a variable to null is when the variable does not go out of scope and you no longer need the data associated with it. Otherwise there is no need.

  • 2
    That's true, but it also means you should probably refactor your code. I don't think I've ever needed to declare a variable outside of it's intended scope. Aug 5, 2008 at 20:36
  • 2
    If "variable" is understood to include object fields, then this answer makes a lot of sense. In the case where "variable" means only "local variable" (of a method), then we're probably talking about niche cases here (e.g. a method that runs for a much-longer-than-usual time span). May 28, 2017 at 12:21

this kind of "there is no need to set objects to null after use" is not entirely accurate. There are times you need to NULL the variable after disposing it.

Yes, you should ALWAYS call .Dispose() or .Close() on anything that has it when you are done. Be it file handles, database connections or disposable objects.

Separate from that is the very practical pattern of LazyLoad.

Say I have and instantiated ObjA of class A. Class A has a public property called PropB of class B.

Internally, PropB uses the private variable of _B and defaults to null. When PropB.Get() is used, it checks to see if _PropB is null and if it is, opens the resources needed to instantiate a B into _PropB. It then returns _PropB.

To my experience, this is a really useful trick.

Where the need to null comes in is if you reset or change A in some way that the contents of _PropB were the child of the previous values of A, you will need to Dispose AND null out _PropB so LazyLoad can reset to fetch the right value IF the code requires it.

If you only do _PropB.Dispose() and shortly after expect the null check for LazyLoad to succeed, it won't be null, and you'll be looking at stale data. In effect, you must null it after Dispose() just to be sure.

I sure wish it were otherwise, but I've got code right now exhibiting this behavior after a Dispose() on a _PropB and outside of the calling function that did the Dispose (and thus almost out of scope), the private prop still isn't null, and the stale data is still there.

Eventually, the disposed property will null out, but that's been non-deterministic from my perspective.

The core reason, as dbkk alludes is that the parent container (ObjA with PropB) is keeping the instance of _PropB in scope, despite the Dispose().

  • Good example showing how setting to null manually means a more fatal error for the caller which is a good thing.
    – rollsch
    Jul 17, 2017 at 13:16

There are some cases where it makes sense to null references. For instance, when you're writing a collection--like a priority queue--and by your contract, you shouldn't be keeping those objects alive for the client after the client has removed them from the queue.

But this sort of thing only matters in long lived collections. If the queue's not going to survive the end of the function it was created in, then it matters a whole lot less.

On a whole, you really shouldn't bother. Let the compiler and GC do their jobs so you can do yours.


Take a look at this article as well: http://www.codeproject.com/KB/cs/idisposable.aspx

For the most part, setting an object to null has no effect. The only time you should be sure to do so is if you are working with a "large object", which is one larger than 84K in size (such as bitmaps).


Stephen Cleary explains very well in this post: Should I Set Variables to Null to Assist Garbage Collection?


The Short Answer, for the Impatient Yes, if the variable is a static field, or if you are writing an enumerable method (using yield return) or an asynchronous method (using async and await). Otherwise, no.

This means that in regular methods (non-enumerable and non-asynchronous), you do not set local variables, method parameters, or instance fields to null.

(Even if you’re implementing IDisposable.Dispose, you still should not set variables to null).

The important thing that we should consider is Static Fields.

Static fields are always root objects, so they are always considered “alive” by the garbage collector. If a static field references an object that is no longer needed, it should be set to null so that the garbage collector will treat it as eligible for collection.

Setting static fields to null is meaningless if the entire process is shutting down. The entire heap is about to be garbage collected at that point, including all the root objects.


Static fields; that’s about it. Anything else is a waste of time.


I believe by design of the GC implementors, you can't speed up GC with nullification. I'm sure they'd prefer you not worry yourself with how/when GC runs -- treat it like this ubiquitous Being protecting and watching over and out for you...(bows head down, raises fist to the sky)...

Personally, I often explicitly set variables to null when I'm done with them as a form of self documentation. I don't declare, use, then set to null later -- I null immediately after they're no longer needed. I'm saying, explicitly, "I'm officially done with you...be gone..."

Is nullifying necessary in a GC'd language? No. Is it helpful for the GC? Maybe yes, maybe no, don't know for certain, by design I really can't control it, and regardless of today's answer with this version or that, future GC implementations could change the answer beyond my control. Plus if/when nulling is optimized out it's little more than a fancy comment if you will.

I figure if it makes my intent clearer to the next poor fool who follows in my footsteps, and if it "might" potentially help GC sometimes, then it's worth it to me. Mostly it makes me feel tidy and clear, and Mongo likes to feel tidy and clear. :)

I look at it like this: Programming languages exist to let people give other people an idea of intent and a compiler a job request of what to do -- the compiler converts that request into a different language (sometimes several) for a CPU -- the CPU(s) could give a hoot what language you used, your tab settings, comments, stylistic emphases, variable names, etc. -- a CPU's all about the bit stream that tells it what registers and opcodes and memory locations to twiddle. Many things written in code don't convert into what's consumed by the CPU in the sequence we specified. Our C, C++, C#, Lisp, Babel, assembler or whatever is theory rather than reality, written as a statement of work. What you see is not what you get, yes, even in assembler language.

I do understand the mindset of "unnecessary things" (like blank lines) "are nothing but noise and clutter up code." That was me earlier in my career; I totally get that. At this juncture I lean toward that which makes code clearer. It's not like I'm adding even 50 lines of "noise" to my programs -- it's a few lines here or there.

There are exceptions to any rule. In scenarios with volatile memory, static memory, race conditions, singletons, usage of "stale" data and all that kind of rot, that's different: you NEED to manage your own memory, locking and nullifying as apropos because the memory is not part of the GC'd Universe -- hopefully everyone understands that. The rest of the time with GC'd languages it's a matter of style rather than necessity or a guaranteed performance boost.

At the end of the day make sure you understand what is eligible for GC and what's not; lock, dispose, and nullify appropriately; wax on, wax off; breathe in, breathe out; and for everything else I say: If it feels good, do it. Your mileage may vary...as it should...


I think setting something back to null is messy. Imagine a scenario where the item being set to now is exposed say via property. Now is somehow some piece of code accidentally uses this property after the item is disposed you will get a null reference exception which requires some investigation to figure out exactly what is going on.

I believe framework disposables will allows throw ObjectDisposedException which is more meaningful. Not setting these back to null would be better then for that reason.


Some object suppose the .dispose() method which forces the resource to be removed from memory.

  • 11
    No it doesn't; Dispose() does not collect the object - it is used to perform deterministic clean up, typically releasing unmanaged resources. Nov 2, 2008 at 11:08
  • 1
    Bearing in mind that the determinism applies only to the managed resources, not the unmanaged ones (i.e. memory) Apr 5, 2011 at 17:05

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