I was solving some programming exercise when I realised that I have a big misunderstanding about pointers. Please could someone explain the reason that this code causes a crash in C++.

#include <iostream>

int main()
    int* someInts = new int[5];

    someInts[0] = 1; 
    someInts[1] = 1;

    std::cout << *someInts;
    someInts++; //This line causes program to crash 

    delete[] someInts;
    return 0;

P.S I am aware that there is no reason to use "new" here, I am just making the example as small as possible.

  • 34
    Can you please explain why do you think that this code should work and what do you expect it to produce? Maybe you think that it's possible to delete only part of the allocated memory? Or maybe that calling the delete operator will work with any pointer that is pointing inside the allocated object (no matter where exactly)? Maybe something else, elaborate please. – AnArrayOfFunctions Dec 16 '16 at 15:05
  • 13
    Everyone so far is explaining correct, but sortof opaque memory semantics. Unfortunate, since this is clearly a beginner question, and the OP almost certainly meant (*someInts)++;. – imallett Dec 16 '16 at 16:25
  • 9
    Why wouldn't it crash? – Lightness Races BY-SA 3.0 Dec 16 '16 at 16:25
  • 1
    @imallett I think you may be right. I certainly did not interpret the question in that way however! Some explanation by the OP of what the program is attempting to do would be nice... – Ben Dec 16 '16 at 16:57
  • 5
    @philipxy Actually, their code is a proper MCVE and demonstrates the exact issue, and the line with the comment is the one that's directly responsible for the crash. (But, as you pointed out, it's not the line where it crashes.) delete[] expects a pointer that was obtained from a corresponding array new. Incrementing a pointer obtained from array new, then passing the resulting pointer to delete[], is invalid and causes UB. As they correctly pointed out, someInts++; is the problem line. – Justin Time - Reinstate Monica Dec 16 '16 at 23:47

It's actually the statement after the one you mark as causing the program to crash that causes the program to crash!

You must pass the same pointer to delete[] as you get back from new[].

Otherwise the behaviour of the program is undefined.

  • Previous comments alluded to the C standard, but they have been removed. – Bathsheba Dec 16 '16 at 13:55
  • Yes, my reply was to a removed comment that basically said 'C works, why doesn't C++?' I can remove these comments now if you wish. – IanM_Matrix1 Dec 16 '16 at 13:59
  • 1
    In C++, not only it has to be the same address but it must be the same pointer type (or a base class with a virtual destructor). – Phil1970 Dec 16 '16 at 15:32
  • 14
    @Phil1970: For array delete (delete[]) it has to be the exact same pointer type, no polymorphism allowed. – Ben Voigt Dec 16 '16 at 17:08
  • For reference purposes, most compilers store some data just in front of your data that was allocated with new, and use that data in delete to manage the memory properly. When you incremented the pointer and then deleteed that, the compiler started looking in the wrong place for its bookkeeping data. It used whatever data it found there, which lead to your segfault. – Cort Ammon - Reinstate Monica Dec 17 '16 at 0:54

The problem is that with the someInts++; you are passing the address of the second element of an array to your delete[] statement. You need to pass the address of the first (original) element:

int* someInts = new int[5];
int* originalInts = someInts; // points to the first element
someInts[0] = 1;
someInts[1] = 1;

std::cout << *someInts;
someInts++; // points at the second element now

delete[] originalInts;

Without going into the specifics of a specific implementation here, the intuitive reason behind the crash can be explained simply by considering what delete[] is supposed to do:

Destroys an array created by a new[]-expression

You give delete[] a pointer to an array. Among other things, it has to free the memory it allocated to hold the contents of that array after.

How is the allocator know what to free? It uses the pointer you gave it as a key to look up the data structure which contains the bookkeeping information for the allocated block. Somewhere, there is a structure which stores the mapping between pointers to previously allocated blocks and the associated bookkeeping operation.

You may wish this lookup to result in some kind of friendly error message if the pointer you pass to delete [] was not one returned by a corresponding new[], but there is nothing in the standard that guarantees that.

So, it is possible, given a pointer which had not been previously allocated by new[], delete[] ends up looking at something that really is not a consistent bookkeeping structure. Wires get crossed. A crash ensues.

Or, you might wish that delete[] would say "hey, it looks like this pointer points to somewhere inside a region I allocated before. Let me go back and find the pointer I returned when I allocated that region and use that to look up the bookkeeping information" but, again, there is no such requirement in the standard:

For the second (array) form, expression must be a null pointer value or a pointer value previously obtained by an array form of new-expression. If expression is anything else, including if it's a pointer obtained by the non-array form of new-expression, the behavior is undefined. [emphasis mine]

In this case, you are lucky because you found out you did something wrong instantaneously.

PS: This is a hand-wavy explanation

  • 2
    Nothing wrong with a hand-wavy explanation sometimes. The other answers are concise, but I finally got why it happens from reading this one. (and @plugwash's :) – decvalts Dec 17 '16 at 9:05
  • Normally the information about allocations is not stored in a seperate data structure but instead stored immediately prior to the allocated memory. – plugwash Dec 19 '16 at 19:37
  • It matters a lot in terms of what happens when things go wrong. An actual lookup can return a "not found" error. A simple subtraction will just try to access whatever happens to be in the memory below the user's pointer. – plugwash Dec 19 '16 at 19:56
  • You may wish this lookup to result in some kind of friendly error message if the pointer you pass to delete [] was not one returned by a corresponding new[], but there is nothing in the standard that guarantees that. – Sinan Ünür Dec 19 '16 at 20:14

You can increment a pointer within the block and use that incremented pointer to access different parts of the block, that is fine.

However you must pass Delete the pointer you got from New. Not an incremented version of it, not a pointer that was allocated by some other means.

Why? well the cop-out answer is because that is what the standard says.

The practical answer is because to free a block of memory the memory manager needs information about the block. For example where it starts and ends, and whether adjacent chunks are free (normally a memory manager will combine adjacent free chunks) and what arena it belongs to (important for locking in multithreaded memory managers).

This information is typically stored immediately prior to the allocated memory. The Memory manager will subtract a fixed value from your pointer and look for a structure of allocation metadata at that location.

If you pass a pointer that does not point to the start of a block of allocated memory then the memory manager tries to perform the subtraction and read it's control block but what it ends up reading is not a valid control block.

If you are lucky then the code crashes quickly, if you are unlucky then you can end up with subtle memory corruption.

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.