I'll start out by saying, use smart pointers and you'll never have to worry about this.

What are the problems with the following code?

Foo * p = new Foo;
// (use p)
delete p;
p = NULL;

This was sparked by an answer and comments to another question. One comment from Neil Butterworth generated a few upvotes:

Setting pointers to NULL following delete is not universal good practice in C++. There are times when it is a good thing to do, and times when it is pointless and can hide errors.

There are plenty of circumstances where it wouldn't help. But in my experience, it can't hurt. Somebody enlighten me.

  • 6
    @Andre: Technically, it's undefined. What's likely to happen is that you access the same memory as before, but it may now be used by something else. If you delete memory twice, it's likely to screw up your program execution in a hard-to-find way. It is safe to delete a null pointer, though, which is one reason zeroing a pointer can be good. – David Thornley Dec 18 '09 at 22:55
  • 5
    @André Pena, it's undefined. Often it's not even repeatable. You set the pointer to NULL to make the error more visible when debugging, and maybe to make it more repeatable. – Mark Ransom Dec 18 '09 at 22:57
  • 3
    @André: No one knows. It is Undefined Behavior. It might crash with an access violation, or it might overwrite memory used by the rest of the application. The language standard makes no guarantees of what happens, and so you cannot trust your application once it has happened. It could have fired the nuclear missiles or formatted your harddrive. it can corrupt your app's memory, or it might make demons fly out of your nose. All bets are off. – jalf Dec 18 '09 at 22:57
  • 16
    The flying demons are a feature, not a bug. – jball Dec 18 '09 at 23:10
  • 3
    This question is not a duplicate because the other question is about C and this one is about C++. A lot of the answers hinge on things like smart pointers, which aren't available in C++. – Adrian McCarthy Jun 2 '13 at 19:57

18 Answers 18


Setting a pointer to 0 (which is "null" in standard C++, the NULL define from C is somewhat different) avoids crashes on double deletes.

Consider the following:

Foo* foo = 0; // Sets the pointer to 0 (C++ NULL)
delete foo; // Won't do anything


Foo* foo = new Foo();
delete foo; // Deletes the object
delete foo; // Undefined behavior 

In other words, if you don't set deleted pointers to 0, you will get into trouble if you're doing double deletes. An argument against setting pointers to 0 after delete would be that doing so just masks double delete bugs and leaves them unhandled.

It's best to not have double delete bugs, obviously, but depending on ownership semantics and object lifecycles, this can be hard to achieve in practice. I prefer a masked double delete bug over UB.

Finally, a sidenote regarding managing object allocation, I suggest you take a look at std::unique_ptr for strict/singular ownership, std::shared_ptr for shared ownership, or another smart pointer implementation, depending on your needs.

  • 13
    Your application won't always crash on a double delete. Depending on what happens between the two deletes, anything could happen. Most likely, you'll corrupt your heap, and you'll crash at some point later in a completely unrelated piece of code. While a segfault is usually better than silently ignoring the error, the segfault isn't guaranteed in this case, and it's of questionable utility. – Adam Rosenfield Dec 18 '09 at 23:10
  • 29
    The problem here is the fact that you have a double delete. Making the pointer NULL just hides that fact it does not correct it or make it any safer. Imagaine a mainainer comming back a year later and seeing foo deleted. He now believes he can re-use the pointer unfortunately he may miss the second delete (it may not even be in the same function) and now the re-use of the pointer now gets trashed by the second delete. Any access after the second delete is now a major problem. – Martin York Dec 18 '09 at 23:30
  • 11
    It's true the setting the pointer to NULL can mask a double delete bug. (Some might consider this mask to actually be a solution--it is, but not a very good one since it doesn't get to the root of the problem.) But not setting it to NULL masks the far (FAR!) more common problems of accessing the data after it has been deleted. – Adrian McCarthy Dec 19 '09 at 0:04
  • AFAIK, std::auto_ptr has been deprecated in the upcoming c++ standard – rafak Dec 19 '09 at 0:31
  • I wouldn't say deprecated, it makes it sound like the idea is just gone. Rather, it's being replaced with unique_ptr, which does what auto_ptr tried to do, with move semantics. – GManNickG Dec 19 '09 at 0:58

Setting pointers to NULL after you've deleted what it pointed to certainly can't hurt, but it's often a bit of a band-aid over a more fundamental problem: Why are you using a pointer in the first place? I can see two typical reasons:

  • You simply wanted something allocated on the heap. In which case wrapping it in a RAII object would have been much safer and cleaner. End the RAII object's scope when you no longer need the object. That's how std::vector works, and it solves the problem of accidentally leaving pointers to deallocated memory around. There are no pointers.
  • Or perhaps you wanted some complex shared ownership semantics. The pointer returned from new might not be the same as the one that delete is called on. Multiple objects may have used the object simultaneously in the meantime. In that case, a shared pointer or something similar would have been preferable.

My rule of thumb is that if you leave pointers around in user code, you're Doing It Wrong. The pointer shouldn't be there to point to garbage in the first place. Why isn't there an object taking responsibility for ensuring its validity? Why doesn't its scope end when the pointed-to object does?

  • 15
    So you're making the argument that there shouldn't have been a raw pointer in the first place, and anything involving said pointer shouldn't be blessed with the term "good practice"? Fair enough. – Mark Ransom Dec 18 '09 at 23:09
  • 7
    Well, more or less. I wouldn't say that nothing involving a raw pointer can be termed a good practice. Just that it's the exception rather than the rule. Usually, the presence of the pointer is an indicator that there's something wrong at a deeper level. – jalf Dec 18 '09 at 23:28
  • 3
    but to answer the immediate question, no, I don't see how setting pointers to null can ever cause errors. – jalf Dec 18 '09 at 23:33
  • 7
    I disagree -- there are cases when a pointer is good to use. For example, there are 2 variables on the stack and you want to choose one of them. Or you want to pass an optional variable to a function. I would say, you should never use a raw pointer in conjunction with new. – rlbond Dec 18 '09 at 23:48
  • 4
    when a pointer has gone out of scope, I don't see how anything or anyone might need to deal with it. – jalf Nov 22 '10 at 16:46

I've got an even better best practice: Where possible, end the variable's scope!

    Foo* pFoo = new Foo;
    // use pFoo
    delete pFoo;
  • 17
    Yes, RAII is your friend. Wrap it in a class and it becomes even simpler. Or don't handle memory yourself at all by using the STL! – Brian Dec 18 '09 at 22:50
  • 24
    Yes indeed, that's the best option. Doesn't answer the question though. – Mark Ransom Dec 18 '09 at 22:53
  • 3
    This seems to be just to be a by-product of using function scopes period, and doesn't really address the problem. When you're using pointers, you're usually passing copies of them several layers deep and then your method is really meaningless in an effort to address the problem. While I agree that good design will help you isolate the errors, I don't think that your method is the primary means to that end. – San Jacinto Dec 18 '09 at 23:37
  • 2
    Come to think of it, if you could do this, why wouldn't you just forget the heap and pull all of your memory off the stack? – San Jacinto Dec 18 '09 at 23:46
  • 4
    My example is intentionally minimal. For example, instead of new, maybe the object is created by a factory , in which case it can't go on the stack. Or maybe it's not created at the beginning of the scope, but located in some structure. What I'm illustrating is that this approach will find any misuse of the pointer at compile time, whereas NULLing it will find any misuse at run time. – Don Neufeld Dec 19 '09 at 4:33

I always set a pointer to NULL (now nullptr) after deleting the object(s) it points to.

  1. It can help catch many references to freed memory (assuming your platform faults on a deref of a null pointer).

  2. It won't catch all references to free'd memory if, for example, you have copies of the pointer lying around. But some is better than none.

  3. It will mask a double-delete, but I find those are far less common than accesses to already freed memory.

  4. In many cases the compiler is going to optimize it away. So the argument that it's unnecessary doesn't persuade me.

  5. If you're already using RAII, then there aren't many deletes in your code to begin with, so the argument that the extra assignment causes clutter doesn't persuade me.

  6. It's often convenient, when debugging, to see the null value rather than a stale pointer.

  7. If this still bothers you, use a smart pointer or a reference instead.

I also set other types of resource handles to the no-resource value when the resource is free'd (which is typically only in the destructor of an RAII wrapper written to encapsulate the resource).

I worked on a large (9 million statements) commercial product (primarily in C). At one point, we used macro magic to null out the pointer when memory was freed. This immediately exposed lots of lurking bugs that were promptly fixed. As far as I can remember, we never had a double-free bug.

Update: Microsoft believes that it's a good practice for security and recommends the practice in their SDL policies. Apparently MSVC++11 will stomp the deleted pointer automatically (in many circumstances) if you compile with the /SDL option.


Firstly, there are a lot of existing questions on this and closely related topics, for example Why doesn't delete set the pointer to NULL?.

In your code, the issue what goes on in (use p). For example, if somewhere you have code like this:

Foo * p2 = p;

then setting p to NULL accomplishes very little, as you still have the pointer p2 to worry about.

This is not to say that setting a pointer to NULL is always pointless. For example, if p were a member variable pointing to a resource who's lifetime was not exactly the same as the class containing p, then setting p to NULL could be a useful way of indicating the presence or absence of the resource.

  • 1
    I agree that there are times when it won't help, but you seemed to imply that it could be actively harmful. Was that your intent, or did I read it wrong? – Mark Ransom Dec 18 '09 at 23:16
  • 1
    Whether there s a copy of the pointer is irrelevant to the question whether the pointer variable should be set to NULL. Setting it to NULL is a good practice on the same grounds cleaning the dishes after you're done with dinner is a good practice - while it's not a safeguard against all bugs a code can have, it does promote good code health. – Franci Penov Dec 18 '09 at 23:16
  • 2
    @Franci Lots of people seem to disagree with you. And whether there is a copy certainly is relevant if you try to use the copy after you deleted the original. – anon Dec 18 '09 at 23:22
  • 3
    Franci, there's a difference. You clean dishes because you use them again. You don't need the pointer after you delete it. It should be the last thing you do. Better practice is to avoid the situation altogether. – GManNickG Dec 18 '09 at 23:23
  • 1
    You can re-use a variable, but then it's no longer a case of defensive programming; it's how you designed the solution to the problem at hand. The OP is discussing whether this defensive style is something we should strive for, not of we'll ever set a pointer to null. And ideally, to your question, yes! Don't use pointers after you delete them! – GManNickG Dec 19 '09 at 0:56

If there is more code after the delete, Yes. When the pointer is deleted in a constructor or at the end of method or function, No.

The point of this parable is to remind the programmer, during run-time, that the object has already been deleted.

An even better practice is to use Smart Pointers (shared or scoped) which automagically delete their target objects.

  • Everyone (including the original questioner) agrees that smart pointers are the way to go. Code evolves. There might not be more code after the delete when you first right it, but that's likely to change over time. Putting in the assignment helps when that happens (and costs almost nothing in the mean time). – Adrian McCarthy Dec 21 '09 at 22:19

As others have said, delete ptr; ptr = 0; is not going to cause demons to fly out of your nose. However, it does encourage the usage of ptr as a flag of sorts. The code becomes littered with delete and setting the pointer to NULL. The next step is to scatter if (arg == NULL) return; through your code to protect against the accidental usage of a NULL pointer. The problem occurs once the checks against NULL become your primary means of checking for the state of an object or program.

I'm sure that there is a code smell about using a pointer as a flag somewhere but I haven't found one.

  • 9
    There's nothing wrong with using a pointer as a flag. If you're using a pointer, and NULL isn't a valid value, then you probably should be using a reference instead. – Adrian McCarthy Dec 19 '09 at 0:11

I'll change your question slightly:

Would you use an uninitialized pointer? You know, one that you didn't set to NULL or allocate the memory it points to?

There are two scenarios where setting the pointer to NULL can be skipped:

  • the pointer variable goes out of scope immediately
  • you have overloaded the semantic of the pointer and are using its value not only as a memory pointer, but also as a key or raw value. this approach however suffers from other problems.

Meanwhile, arguing that setting the pointer to NULL might hide errors to me sounds like arguing that you shouldn't fix a bug because the fix might hide another bug. The only bugs that might show if the pointer is not set to NULL would be the ones that try to use the pointer. But setting it to NULL would actually cause exactly the same bug as would show if you use it with freed memory, wouldn't it?

  • (A) "sounds like arguing that you shouldn't fix a bug" Not setting a pointer to NULL is not a bug. (B) "But setting it to NULL would actually cause exactly the same bug" No. Setting to NULL hides double delete. (C) Summary: Setting to NULL hides double delete, but exposes stale references. Not setting to NULL can hide stale references, but exposes double deletes. Both sides agree that the real problem is to fix stale-references and double-deletes. – Mooing Duck Jul 12 '13 at 17:48

If you have no other constraint that forces you to either set or not set the pointer to NULL after you delete it (one such constraint was mentioned by Neil Butterworth), then my personal preference is to leave it be.

For me, the question isn't "is this a good idea?" but "what behavior would I prevent or allow to succeed by doing this?" For example, if this allows other code to see that the pointer is no longer available, why is other code even attempting to look at freed pointers after they are freed? Usually, it's a bug.

It also does more work than necessary as well as hindering post-mortem debugging. The less you touch memory after you don't need it, the easier it is to figure out why something crashed. Many times I have relied on the fact that memory is in a similar state to when a particular bug occurred to diagnose and fix said bug.


Explicitly nulling after delete strongly suggests to a reader that the pointer represents something which is conceptually optional. If I saw that being done, I'd start worrying that everywhere in the source the pointer gets used that it should be first tested against NULL.

If that's what you actually mean, it's better to make that explicit in the source using something like boost::optional

optional<Foo*> p (new Foo);
// (use p.get(), but must test p for truth first!...)
delete p.get();
p = optional<Foo*>();

But if you really wanted people to know the pointer has "gone bad", I'll pitch in 100% agreement with those who say the best thing to do is make it go out of scope. Then you're using the compiler to prevent the possibility of bad dereferences at runtime.

That's the baby in all the C++ bathwater, shouldn't throw it out. :)


In a well structured program with appropriate error checking, there is no reason not to assign it null. 0 stands alone as a universally recognized invalid value in this context. Fail hard and Fail soon.

Many of the arguments against assigning 0 suggest that it could hide a bug or complicate control flow. Fundamentally, that is either an upstream error (not your fault (sorry for the bad pun)) or another error on the programmer's behalf -- perhaps even an indication that program flow has grown too complex.

If the programmer wants to introduce the use of a pointer which may be null as a special value and write all the necessary dodging around that, that's a complication they have deliberately introduced. The better the quarantine, the sooner you find cases of misuse, and the less they are able to spread into other programs.

Well structured programs may be designed using C++ features to avoid these cases. You can use references, or you can just say "passing/using null or invalid arguments is an error" -- an approach which is equally applicable to containers, such as smart pointers. Increasing consistent and correct behavior forbids these bugs from getting far.

From there, you have only a very limited scope and context where a null pointer may exist (or is permitted).

The same may be applied to pointers which are not const. Following the value of a pointer is trivial because its scope is so small, and improper use is checked and well defined. If your toolset and engineers cannot follow the program following a quick read or there is inappropriate error checking or inconsistent/lenient program flow, you have other, bigger problems.

Finally, your compiler and environment likely has some guards for the times when you would like to introduce errors (scribbling), detect accesses to freed memory, and catch other related UB. You can also introduce similar diagnostics into your programs, often without affecting existing programs.


Let me expand what you've already put into your question.

Here's what you've put into your question, in bullet-point form:

Setting pointers to NULL following delete is not universal good practice in C++. There are times when:

  • it is a good thing to do
  • and times when it is pointless and can hide errors.

However, there is no times when this is bad! You will not introduce more bugs by explicitly nulling it, you will not leak memory, you will not cause undefined behaviour to happen.

So, if in doubt, just null it.

Having said that, if you feel that you have to explicitly null some pointer, then to me this sounds like you haven't split up a method enough, and should look at the refactoring approach called "Extract method" to split up the method into separate parts.

  • I disagree with "there are no times when this is bad." Consider the amount of cutter this idiom introduces. You have a header being included in every unit that deletes something, and all those delete locations become just slightly less straight-forward. – GManNickG Dec 18 '09 at 22:59
  • There are times when it is bad. If someone tries to dereference your deleted-now-null pointer when they shouldn't, it probably won't crash and that bug is 'hidden.' If they dereference your deleted pointer which still has some random value in it, you are likely to notice and the bug will be easier to see. – Carson Myers Dec 19 '09 at 2:03
  • @Carson: My experience is quite the opposite: Dereferencing a nullptr will almost all ways crash the Application and can be caught by a debugger. Dereferencing a dangling pointer usually doesn't produce a problem right away, but will often just lead to incorrect results or other errors down the line. – MikeMB Jun 15 '16 at 6:35
  • @MikeMB I completely agree, my views about this have changed substantially in the past ~6.5 years – Carson Myers Jun 15 '16 at 7:29
  • In terms of being a programmer, we were all someone else 6-7 years ago :) I'm not even sure I would've dared answering a C/C++ question today :) – Lasse V. Karlsen Jun 15 '16 at 7:48


The only "harm" it can do is to introduce inefficiency (an unnecessary store operation) into your program - but this overhead will be insignificant in relation to the cost of allocating and freeing the block of memory in most cases.

If you don't do it, you will have some nasty pointer derefernce bugs one day.

I always use a macro for delete:

#define SAFEDELETE(ptr) { delete(ptr); ptr = NULL; }

(and similar for an array, free(), releasing handles)

You can also write "self delete" methods that take a reference to the calling code's pointer, so they force the calling code's pointer to NULL. For example, to delete a subtree of many objects:

static void TreeItem::DeleteSubtree(TreeItem *&rootObject)
    if (rootObject == NULL)


    for (int i = 0; i < numChildren)

    delete rootObject;
    rootObject = NULL;


Yes, these techniques do violate some rules about use of macros (and yes, these days you could probably achieve the same result with templates) - but by using over many years I never ever accessed dead memory - one of the nastiest and most difficult and most time consuming to debug problems you can face. In practice over many years they have effectively eliminated a whjole class of bugs from every team I have introduced them on.

There are also many ways you could implement the above - I am just trying to illustrate the idea of forcing people to NULL a pointer if they delete an object, rather than providing a means for them to release the memory that does not NULL the caller's pointer.

Of course, the above example is just a step towards an auto-pointer. Which I didn't suggest because the OP was specifically asking about the case of not using an auto pointer.

  • 2
    Macros are a bad idea, particularly when they look like normal functions. If you want to do this, use a templated function. – anon Dec 18 '09 at 23:14
  • 2
    Wow... I have never seen anything like anObject->Delete(anObject) invalidate the anObject pointer. That's just frightening. You should create a static method for this so that you are forced to do TreeItem::Delete(anObject) at the very least. – D.Shawley Dec 18 '09 at 23:28
  • Sorry, typed it in as a function rather than using the proper uppercase "this is a macro" form. Corrected. Also added a comment to explain myself better. – Jason Williams Dec 19 '09 at 6:55
  • And you're right, my quickly bashed out example was rubbish! Fixed :-). I was merely trying to think of a quick example to illustrate this idea: any code that deletes a pointer should ensure that the pointer is set to NULL, even if someone else (the caller) owns that pointer. So always pass in a reference to the pointer so it can be forced to NULL at the point of deletion. – Jason Williams Dec 19 '09 at 7:09

"There are times when it is a good thing to do, and times when it is pointless and can hide errors"

I can see two problems: That simple code:

delete myObj;
myobj = 0

becomes to a for-liner in multithreaded environment:

delete myObj;
myobj = 0

The "best practice" of Don Neufeld don't apply always. E.g. in one automotive project we had to set pointers to 0 even in destructors. I can imagine in safety-critical software such rules are not uncommon. It is easier (and wise) to follow them than trying to persuade the team/code-checker for each pointer use in code, that a line nulling this pointer is redundant.

Another danger is relying on this technique in exceptions-using code:

   delete myObj; //exception in destructor
   //myObj=0; <- possibly resource-leak

if (myObj)
  // use myObj <--undefined behaviour

In such code either you produce resource-leak and postpone the problem or the process crashes.

So, this two problems going spontaneously through my head (Herb Sutter would for sure tell more) make for me all the questions of the kind "How to avoid using smart-pointers and do the job safely with normal pointers" as obsolete.

  • I fail to see, how the 4-liner is significantly more complex than a 3-liner (one should use lock_guards anyway) and if your destructor throws you are in trouble anyway. – MikeMB Jun 15 '16 at 6:46
  • When I first saw this answer I didn't understand why you would want to null a pointer in a destructor, but now I do - it's for the case where the object owning the pointer gets used after it's deleted! – Mark Ransom Oct 20 '16 at 15:21

There is always Dangling Pointers to worry about.

  • 1
    Would it be so hard to put "dangling pointers" instead of "this"? :) At least it gives your answer some substance. – GManNickG Dec 18 '09 at 23:00
  • 4
    It's even the subject of a W3C QA tip, "Don't use 'click here' as link text": w3.org/QA/Tips/noClickHere – outis Dec 18 '09 at 23:19

If you're going to reallocate the pointer before using it again (dereferencing it, passing it to a function, etc.), making the pointer NULL is just an extra operation. However, if you aren't sure whether it will be reallocated or not before it is used again, setting it to NULL is a good idea.

As many have said, it is of course much easier to just use smart pointers.

Edit: As Thomas Matthews said in this earlier answer, if a pointer is deleted in a destructor, there isn't any need to assign NULL to it since it won't be used again because the object is being destroyed already.


I can imagine setting a pointer to NULL after deleting it being useful in rare cases where there is a legitimate scenario of reusing it in a single function (or object). Otherwise it makes no sense - a pointer needs to point to something meaningful as long as it exists - period.


If the code does not belong to the most performance-critical part of your application, keep it simple and use a shared_ptr:

shared_ptr<Foo> p(new Foo);
//No more need to call delete

It performs reference counting and is thread-safe. You can find it in the tr1 (std::tr1 namespace, #include < memory >) or if your compiler does not provide it, get it from boost.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

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