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Why this code does not cause memory leaks?

int iterCount = 1000;
int sizeBig = 100000;
for (int i = 0; i < iterCount; i++)
{
   std::auto_ptr<char> buffer(new char[sizeBig]);
}

WinXP sp2, Compiler : BCB.05.03

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In most cases if you pair new with delete[] and vice versa for non-trivial types this doesn't cause a leak - instead the program simply crashes when trying to deallocate memory. –  sharptooth Jul 29 '09 at 7:46
3  
You can try using boost::scoped_array instead of std::auto_ptr –  Harald Scheirich Jul 29 '09 at 10:01

2 Answers 2

up vote 14 down vote accepted

Because you're (un)lucky. auto_ptr calls delete, not delete []. This is undefined behavior.

Try doing something like this and see if you get as lucky:

struct Foo
{
    char *bar;
    Foo(void) : bar(new char[100]) { }
    ~Foo(void) { delete [] bar; }
}

int iterCount = 1000;
int sizeBig = 100000;
for (int i = 0; i < iterCount; i++)
{
   std::auto_ptr<Foo> buffer(new Foo[sizeBig]);
}

The idea here is that your destructor for Foo will not be called.


The reason is something like this: When you say delete[] p, the implementation of delete[] is suppose to go to each element in the array, call its destructor, then free the memory pointed to by p. Similarly, delete p is suppose to call the destructor on p, then free the memory.

char's don't have a destructor, so it's just going to delete the memory pointed to by p. In my code above, it is not going to destruct each element in the array (because it's not calling delete[]), so some Foo's will leave their local bar variable un-deleted.

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Yes, I'm unlucky :) Thanks for explanation. –  Xeningem Jul 29 '09 at 8:04

The auto_ptr will only live for the duration of the loop iteration and will release the object connected to it on iteration completion.

The compiler can see that in this case new[] can allocate space in the same way as new - without storing the number of elements anywhere since there's no need to call trivial char destructors - and that's why later when delete is called by the auto_ptr's destructor instead of delete[] it causes no problems since the memory block has actually been allocated in the new's way and that allocation can be paired with delete.

This is an example of a thing not to do. It's up to the compiler to decide whether to replace new[] with new. Using delete instead of delete[] and vice versa is undefined behaviour.

See http://stackoverflow.com/questions/787417/why-would-you-write-something-like-this-intentionally-not-using-delete-on-an for discussion of delete vs delete[].

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So as GMan says: it's sheer luck delete is equivalent to delete[] here? –  xtofl Jul 29 '09 at 7:40
1  
Well, yes, it's a result of the compiler trying to be clever and accidentially saving the developer. –  sharptooth Jul 29 '09 at 7:43
3  
It's not a result of compiler being clever, it is rather the result of compiler being lazy and doing the easiest thing (which in this case means that memory allocation for one element and array when PODs are involved works precisely the same). Of course this is U.B., so it is "sheer luck" that it works in a given implementation - and IIRC there are some real implementations where it does not work. –  Pavel Minaev Jul 29 '09 at 7:56

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