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If I allocated a memory location for an int object dynamically as follows:

int *x = new int;

After done with it, and want to free the memory on the heap, I will do the following:

delete x;

Now, if I did not do the following:

x = NULL;

Will x be pointing to another address? UPDATE: another instead of many

Say I didn't do x = NULL and made another delete x;, what will happen?

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  1. Anything you do with x (apart from = NULL - which is, imo, bad practice) after you delete it is undefined.
  2. double-delete = disaster.

Note: some runtime systems will protect you from certain very simple cases of double delete. Depending on the details, you might be okay if you happen to be running on one of those systems and if no one ever deploys your code on another system that handles things differently and if you are deleting something that doesn't have a destructor and if you don't do anything significant between the two deletes and if no one ever changes your code to do something significant between the two deletes and if your thread scheduler (over which you likely have no control!) doesn't happen to swap threads between the two deletes and if, and if, and if. So back to Murphy: since it can go wrong, it will, and it will go wrong at the worst possible moment.

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After the delete, the pointer will typically still contain the address of the (now free) memory. The second delete gives undefined behavior, so don't do that.

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It will invoke undefined behavior. If you don't do x=NULL then x will be pointing to an invalid memory location which if you try to use will cause undefined behavior.

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But, when I do delete, am I not deleting the pointer itself? How is it as you say `If you don't do x=NULL then x will be pointing to an invalid memory location'? Thanks – Simplicity Jan 29 '11 at 14:43
@user588855: Lets say x was 0x11111111 before deletion. So when you do delete x; this memory location is free. But since you didn't set x to NULL it is still having the value 0x11111111 which is a freed memory location. Trying to read/write into this location using *x or x-> will invoke undefined behavior. – Asha Jan 29 '11 at 16:39


int main(){
  int* i = new int;
  std::cout << i << std::endl;
  delete i;
  std::cout << i << std::endl;
  delete i;




** glibc detected ** ./a.out: double free or corruption (fasttop): 0x08e19008 *

as you see, the address stays the same, but the second delete ends in a runtime error. behaviour may in detail depend on environment, but as a general rule it will not work.

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That last sentence is not necessarily true: Some compilers will "protect" you from doing this, so it might appear to "work". But it's still undefined behavior, and it's still a bad idea. Testing it is not the right way to get an answer here. – Cody Gray Jan 29 '11 at 9:19
@Code Gray: That's not testing, it's demonstrating. That the first sentence is not necessarily true is why I said "may depend on environment". – thorsten müller Jan 29 '11 at 10:26

calling delete on already deleted memory will cause undefined behaviour. Generally, your program will crash.

After deleting x, where it will be pointing is "compiler dependent". Most of the compilers will just let it point to where it was, before delete was called. But that memory address is no more valid, and hence should not be called.

For this same reason, "delete this" must be used very judiciously and carefully, if at all needed. :-)

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When you say: calling delete on already deleted memory will cause undefined behaviour.. Isn't it the pointer which is deleted and not the memory? Thanks – Simplicity Jan 29 '11 at 14:46
@user: neither is being deleted, per se. The memory is being freed, which means that your program tells the operating system: "okay, thanks for the chunk of memory, I'm done using it!" and your program no longer has read/write access to it. – David Titarenco Jan 29 '11 at 19:46

The secondth delete is undefined.

As a side note, there are tools to detect a double deletion. One of the best one around is Valgrind.

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