A C++ book I have been reading states that when a pointer is deleted using the delete operator the memory at the location it is pointing to is "freed" and it can be overwritten. It also states that the pointer will continue to point to the same location until it is reassigned or set to NULL.

In Visual Studio 2012 however; this doesn't seem to be the case!


#include <iostream>

using namespace std;

int main()
    int* ptr = new int;
    cout << "ptr = " << ptr << endl;
    delete ptr;
    cout << "ptr = " << ptr << endl;


    return 0;

When I compile and run this program I get the following output:

ptr = 0050BC10
ptr = 00008123
Press any key to continue....

Clearly the address that the pointer is pointing to changes when delete is called!

Why is this happening? Does this have something to do with Visual Studio specifically?

And if delete can change the address it is pointing to anyways, why wouldn't delete automatically set the pointer to NULL instead of some random address?

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    Delete a pointer, doesn't mean it will be set to NULL, you have to take care of that. – Matt Oct 27 '15 at 17:25
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    I know that, but the book I'm reading specifically says that it will still contain the same address it was pointing to before delete, but the contents of that address may be overwritten. – tjwrona1992 Oct 27 '15 at 17:28
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    @tjwrona1992, yes, because this is what is usually happening. The book just lists most likely outcome, not the hard rule. – SergeyA Oct 27 '15 at 17:29
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    @tjwrona1992 A C++ book I have been reading -- and the name of the book is ... ? – PaulMcKenzie Oct 27 '15 at 17:39
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    @tjwrona1992: It may be surprising, but it's all usage of the invalid pointer value that is undefined behavior, not only dereferencing. "Checking where it is pointing to" IS using the value in a disallowed way. – Ben Voigt Oct 28 '15 at 13:55

I noticed that the address stored in ptr was always being overwritten with 00008123...

This seemed odd, so I did a little digging and found this Microsoft blog post containing a section discussing "Automated pointer sanitization when deleting C++ objects".

...checks for NULL are a common code construct meaning that an existing check for NULL combined with using NULL as a sanitization value could fortuitously hide a genuine memory safety issue whose root cause really does needs addressing.

For this reason we have chosen 0x8123 as a sanitization value – from an operating system perspective this is in the same memory page as the zero address (NULL), but an access violation at 0x8123 will better stand out to the developer as needing more detailed attention.

Not only does it explain what Visual Studio does with the pointer after it is deleted, it also answers why they chose NOT to set it to NULL automatically!

This "feature" is enabled as part of the "SDL checks" setting. To enable/disable it go to: PROJECT -> Properties -> Configuration Properties -> C/C++ -> General -> SDL checks

To confirm this:

Changing this setting and rerunning the same code produces the following output:

ptr = 007CBC10
ptr = 007CBC10

"feature" is in quotes because in a case where you have two pointers to the same location, calling delete will only sanitize ONE of them. The other one will be left pointing to the invalid location.

Visual Studio could set you up for a sticky situation by failing to document this flaw in its design.

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    That's a nice find. I wish MS would better document debugging behavior like this. For example, it would be nice to know which compiler version started implementing this and what options enable/disable the behavior. – Michael Burr Oct 27 '15 at 17:43
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    "from an operating system perspective this is in the same memory page as the zero address" - huh? Isn't the standard (ignoring large pages) page size on x86 still 4kb for both windows and linux? Although I dimly remember something about the first 64kb of address space on Raymond Chen's blog, so in practice I take it same result, – Voo Oct 27 '15 at 21:40
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    @Voo windows reserves the first (and last) 64kB worth of RAM as dead space for trapping. 0x8123 falls in there nicely – ratchet freak Oct 27 '15 at 22:44
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    Actually, it doesn't encourage bad habits, and it doesn't allow you to skip setting the pointer to NULL - that's the whole reason they're using 0x8123 instead of 0. The pointer is still invalid, but causes an exception when attempting to dereference it (good), and it doesn't pass NULL checks (also good, because it's an error not to do that). Where's the place for bad habits? It really is just something that helps you debug. – Luaan Oct 29 '15 at 11:04
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    Well, it can't set both (all) of them, so this is the second best option. If you don't like it, just turn off the SDL checks - I find them rather useful, especially when debugging someone else's code. – Luaan Oct 29 '15 at 13:10

You see the side-effects of the /sdl compile option. Turned on by default for VS2015 projects, it enables additional security checks beyond those provided by /gs. Use Project > Properties > C/C++ > General > SDL checks setting to alter it.

Quoting from the MSDN article:

  • Performs limited pointer sanitization. In expressions that do not involve dereferences and in types that have no user-defined destructor, pointer references are set to a non-valid address after a call to delete. This helps to prevent the reuse of stale pointer references.

Do keep in mind that setting deleted pointers to NULL is a bad practice when you use MSVC. It defeats the help you get from both the Debug Heap and this /sdl option, you can no longer detect invalid free/delete calls in your program.

  • 1
    Confirmed. After disabling this feature, the pointer is no longer redirected. Thanks for providing the actual setting that modifies it! – tjwrona1992 Oct 27 '15 at 18:13
  • Hans, is it still considered bad practice to set deleted pointers to NULL in a case where you have two pointers pointing to the same location? When you delete one, Visual Studio will leave the second pointer pointing to its original location which is now invalid. – tjwrona1992 Oct 29 '15 at 16:32
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    Pretty unclear to me what kind of magic you expect to happen by setting the pointer to NULL. That other pointer isn't so it doesn't solve anything, you still need the debug allocator to find the bug. – Hans Passant Oct 29 '15 at 16:43
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    VS does not clean up pointers. It corrupts them. So your program will crash when you use them anyway. The debug allocator does much the same thing with heap memory. The big problem with NULL, it is not corrupt enough. Otherwise a common strategy, google "0xdeadbeef". – Hans Passant Oct 29 '15 at 16:51
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    Setting the pointer to NULL is still much better than leaving it pointing to its previous address which is now invalid. Attempting to write to a NULL pointer will not corrupt any data and will probably crash the program. Attempting to reuse the pointer at that point may not even crash the program, it may just produce very unpredictable results! – tjwrona1992 Oct 29 '15 at 16:57

It also states that the pointer will continue to point to the same location until it is reassigned or set to NULL.

That is definitely misleading information.

Clearly the address that the pointer is pointing to changes when delete is called!

Why is this happening? Does this have something to do with Visual Studio specifically?

This is clearly within the language specifications. ptr is not valid after the call to delete. Using ptr after it has been deleted is cause for undefined behavior. Don't do it. The run time environment is free to do whatever it wants to with ptr after the call to delete.

And if delete can change the address it is pointing to anyways, why wouldn't delete automatically set the pointer to NULL instead of some random address???

Changing the value of the pointer to any old value is within the language specification. As far as changing it to NULL, I would say, that would be bad. The program would behave in a more sane manner if the value of the pointer were set to NULL. However, that will hide the problem. When the program is compiled with different optimization settings or ported to a different environment, the problem will likely show up in the most inopportune moment.

  • I do not believe it answers OP's question. – SergeyA Oct 27 '15 at 17:30
  • Disagree even after edit. Setting it to NULL will not hide the problem - in fact, it would EXPOSE it in more cases than without that. There is a reason normal implementations do not do this, and the reason is different. – SergeyA Oct 27 '15 at 18:12
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    @SergeyA, most implementations don't do it for the sake of efficiency. However, if an implementation decides to set it, it is better to set it to something that is not NULL. It would reveal the problems sooner than if it were set to NULL. It is set to NULL, calling delete twice on the pointer would not cause a problem. That is definitely not good. – R Sahu Oct 27 '15 at 18:16
  • No, not the efficiency - at least, it is not the primary concern. – SergeyA Oct 27 '15 at 18:20
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    @SergeyA Setting a pointer to a value that's not NULL but also definitely outside the process' address space will expose more cases than the two alternatives. Leaving it dangling won't necessarily cause a segfault if it's used after being freed; setting it to NULL won't cause a segfault if it's deleted again. – Blacklight Shining Oct 28 '15 at 0:51
delete ptr;
cout << "ptr = " << ptr << endl;

In general even reading (like you do above, note: this is different from dereferencing) values of invalid pointers (pointer becomes invalid for example when you delete it) is implementation defined behaviour. This was introduced in CWG #1438. See also here.

Please note that before that reading values of invalid pointers was undefined behaviour, so what you have above would be undefined behaviour, which means anything could happen.

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    Also relevant is the quote from [basic.stc.dynamic.deallocation]: "If the argument given to a deallocation function in the standard library is a pointer that is not the null pointer value, the deallocation function shall deallocate the storage referenced by the pointer, rendering invalid all pointers referring to any part of the deallocated storage" and the rule in [conv.lval] (section 4.1) that says reading (lvalue->rvalue conversion) any invalid pointer value is implementation-defined behavior. – Ben Voigt Oct 28 '15 at 18:20
  • Even UB can be implemented in a specific way by a specific vendor such that it's reliable, at least for that compiler. If Microsoft had decided to implement their pointer-sanitization feature prior to CWG #1438, that wouldn't have made that feature any more or less reliable, and in particular it's simply not true that "anything could happen" if that feature is turned on, regardless of what the standard says. – Kyle Strand Oct 29 '15 at 16:32
  • @KyleStrand:I basically gave definition of UB(blog.regehr.org/archives/213). – giorgi moniava Oct 29 '15 at 22:30
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    To most of the C++ community on SO, "anything could happen" is taken entirely too literally. I think that this is ridiculous. I understand the definition of UB, but I also understand that compilers are just pieces of software implemented by real people, and if those people implement the compiler so that it behaves certain way, that's how the compiler will behave, regardless of what the standard says. – Kyle Strand Oct 29 '15 at 22:46

I believe, you are running some sort of debug mode and VS is attempting to repoint your pointer to some known location, so that further attempt to dereference it could be traced and reported. Try compiling/running the same program in release mode.

Pointers are usually not changed inside delete for the sake of efficiency and to avoid giving a false idea of safety. Setting delete pointer to pre-defined value will do no good in most of complex scenarios, since the pointer being deleted is likely to be only one of several pointing to this location.

As a matter of fact, the more I think about it, the more I find that VS is at fault when doing so, as usual. What if the pointer is const? Is it still gonna change it?

  • I don't know! I'll try this with a constant pointer :) – tjwrona1992 Oct 27 '15 at 18:02
  • Yup, even constant pointers get redirected to this mysterious 8123! – tjwrona1992 Oct 27 '15 at 18:03
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    @SergeyA but from the other side dereffing that deleted pointer will show you by segfault that you tried to deref a deleted pointer and it won't be equal to NULL. In the other case it will only crash if the page also gets freed (which is very unlikely). Fail faster; solve sooner. – ratchet freak Oct 27 '15 at 22:53
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    @ratchetfreak "Fail fast, solve sooner" is a very valuable mantra, but "Fail fast by destroying key forensic evidence" does not start such a valuable mantra. In simple cases, it may be convenient, but in more complicated cases (the ones we tend to need the most help on), erasing valuable information decreases my tools available to solve the problem. – Cort Ammon Oct 28 '15 at 1:48
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    @tjwrona1992: Microsoft is doing the right thing here in my opinion. Sanitizing one pointer is better than doing none at all. And if this causes you a problem in debugging, put a break point before the bad delete call. Odds are that without something like this you'd never spot the problem. And if you have a better solution to locate these bugs, then use it and why do you care what Microsoft does? – Zan Lynx Oct 28 '15 at 20:34

After deleting the pointer the memory to which it points may still be valid. To manifest this error, the pointer value is set to an obvious value. This really helps the debugging process. If the value were set to NULL, it may never show up as potential bug in the program flow. So it may hide a bug when you test later against NULL.

Another point is, that some run time optimizer may check that value and change its results.

In earlier times MS set the value to 0xcfffffff.

protected by Ionică Bizău Nov 26 '15 at 14:28

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