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At: http://www.learncpp.com/cpp-tutorial/69-dynamic-memory-allocation-with-new-and-delete/

Regarding this code snippet:

int *pnValue = new int;
delete pnValue; // pnValue not set to 0

If we write

delete *pnValue;

Will this only cause the content of the dynamically allocated variable to be deleted, whilst the dynamically allocated memory still exists?


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closed as not a real question by sbi, ybungalobill, Prasoon Saurav, bmargulies, Graviton Jan 25 '11 at 1:04

It's difficult to tell what is being asked here. This question is ambiguous, vague, incomplete, overly broad, or rhetorical and cannot be reasonably answered in its current form. For help clarifying this question so that it can be reopened, visit the help center. If this question can be reworded to fit the rules in the help center, please edit the question.

Read. A. Book. –  sbi Jan 24 '11 at 9:03
Why downvote his post? It's a legit question –  KaiserJohaan Jan 24 '11 at 9:08
Not sure why someone would close this as "not a real question". It is a perfectly valid question for a beginner who doesn't understand how memory management works and we shouldn't just ignore that person's questions. –  Ed S. Jan 24 '11 at 9:08
The downvotes are probably because of the amount and type of question SWEngineer is asking. –  DarkDust Jan 24 '11 at 9:39
-1 asking without having tried (code would not have compiled) –  Cheers and hth. - Alf Jan 24 '11 at 9:51

5 Answers 5

up vote 8 down vote accepted
delete *pnValue;

This won’t compile. If you force it (say, with a reinterpret_cast), it will take the integer that pnValue points to, treat it as an address, and attempt to delete whatever is at that address.

That will most likely crash your program or cause data corruption.

For example, if you did this:

int *pnValue = new int;
*pnValue = 42;

// Note: The cast is needed to force compilation and is
// a bad, bad thing to do. The choice of "int*" is
// arbitrary as the value is obviously not actually an int*.
// This will almost certainly cause the program to abort:
delete reinterpret_cast<int*>(pnValue);

You will be telling the compiler to delete whatever is at memory location 42. You don’t want to do this.

Edit for further explanation: new int allocates a space in memory big enough to hold an int. *pnValue = 42 puts the value 42 into that space. The correct way to free that memory is:

delete pnValue;

This frees the space that was allocated and, hence, the value that had been stored there. After doing this pnValue itself no longer points to valid memory and should not be re-used (unless you do something like pnValue = new int again; then it will once again point to a valid memory location).

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@Nate. Thanks for your reply. So, how can someone delete the value the pointer is pointing to, which is "42"? –  Simplicity Jan 24 '11 at 8:55
That doesn't make a lot of sense. When you call delete you are telling the memory manager to reclaim the memory pointer to by pnValue. It doesn't matter what is there, it is simply a chunk of bytes from the manager's point of view. There is a good lecture series here which may help you (start at the first one) youtube.com/watch?v=arjo2-JQeaY&feature=channel –  Ed S. Jan 24 '11 at 8:59
@SWEngineer: new int allocates the memory for "42" and returns a pointer to it. delete pnValue deallocates the memory where the pointer points to, which is the memory where the "42" is stored in. –  DarkDust Jan 24 '11 at 9:00
In fact, it wouldn't even compile. delete can only be applied to pointers. –  Philipp Jan 24 '11 at 9:06
What DarkDust said: delete pnValue. And what Philipp says is also true: most compilers won’t let you do delete *pnValue unless you forcibly cast it, which should be a warning sign. –  Nate Jan 24 '11 at 9:10
delete *pnValue;

This is wrong! It's like writing delete v; where v is int v.

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Thanks for your reply. Can you just clarify your point? –  Simplicity Jan 24 '11 at 8:48
@SWEngineer: Nate has explained it beautifully. Please see his answer. The bottomline is : delete some_int; is really dangerous idea. Don't do that! –  Nawaz Jan 24 '11 at 9:20

You would not compile it. But it could be written like this:

delete reinterpret_cast<int *>(*pnValue) ;

This will free heap memory at location at pnValue adress. In case *pnValue is 0, nothing happens, but if it is not, you got to be truely a Jedi to make this code run in way you want.

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First off, it should be said that passing *pnValue probably won't compile at all since the argument will be an int and not a pointer to int (or any kind of pointer at all).

delete *pnValue 

Says: reclaim the memory at at the address *pnValue, i.e., whatever pnValue points to. This is VERY BAD and I'm not sure why you would suggest doing it, but you need to pass the value of the pointer to delete, not what it points to.

Look at it this way; when you dynamically allocate memory, you actually allocate a bit more than you asked for. The memory manager needs to keep tabs on information aside from the allocated memory in order to implement delete properly (i.e., how much memory was allocated or the address of the end of the allocated block, whatever. It's implementation defined.)

So, let's assume that it allocates a byte before the allocated memory chunk for housekeeping purposes. When you call delete, aside from passing in the wrong value, it will back up and interpret whatever lies in that memory as the information it needs to clean up properly. As you can imagine, this can cause very nasty, subtle bugs in your program, i.e., don't do it.

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@Ed Swangren. Thanks for your reply. Can you just clarify your point here: "but you need to pass the value of the pointer to delete, not what it points to."? Doesn't *pnValue represent the content (value) to what the pointer points to? –  Simplicity Jan 24 '11 at 8:47
*pvValue is the whatever pvValue points to interpreted as typeof(pvValue). the pointer itself needs to be passed to delete for reasons explained above. The value of pnValue is an address, what it points to is irrelevant, but it will be interpreted as an address by your code. –  Ed S. Jan 24 '11 at 8:49
@EdSwangren: What are you using where typeof(pnValue) isn't int* when given "int *pnValue;"? This answer is just misguided and wrong; though the end information is accurate, it's irrelevant here. –  Fred Nurk Jan 24 '11 at 9:11
You're right; any sane compiler wouldn't allow an int argument to delete. I was speaking at a conceptual level, I'll update the post. When I said typeof(pnValue) I meant to say typeof(*pnValue). Just a typo. I think that "misguided and wrong" may be a bit harsh for a typo unless you care to explain further. –  Ed S. Jan 24 '11 at 9:22
That said... this is Sunday and I'm a Bears fan, so I've been drinking a bit. It's definitely possible that I'm not on my A game right now :D –  Ed S. Jan 24 '11 at 9:32

Let's create a new scenario where you are correct.

int ** ppx = new int*;
*ppx = new int;
**ppx = 8374;


delete *ppx

would delete what ppx points to but would not delete ppx itself. *ppx would not be NULL though, it would just be an invalid pointer.

You could write

*ppx = NULL;


 int y = 17; 
 *ppx = &y;

If you wrote

 delete ppx;

Then it would delete the pointer and you could not assign *ppx or use it in any way. What *ppx pointed to would not be deleted however. Thus if it was a pointer you had allocated with new and there are no other pointers pointing to it, you will have a leak as you can no longer delete it.

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