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Consider the sample code below. The class Data is used to store an array of data: for simplicity, I chose to use a vector<char> as data member. However, these data must be processed by an external routine, which requires a pointer to the first element of the array and, of course, the length of this array: for this reason, I have also implemented the functions get_data() and get_length().

class Data
    Data(const char* sourcePtr, int sourceLength) : _data(sourcePtr, sourcePtr+sourceLength) { ; }

    const char* get_data() const { return &_data.front(); }
    int get_length() const { return _data.size(); }

    void print() const
        vector<char>::const_iterator it;
        for(it = _data.begin(); it != _data.end(); ++it)
            cout << *it;

    vector<char> _data;

Now consider the following code sample, which uses the class Data.

int main(int argc, char** argv)
    char* a = new char[4];
    a[0] = 'b';
    a[1] = 'y';
    a[2] = 't';
    a[3] = 'e';

    Data myData(a,4);
    delete[] a;

    cout << endl;

    const char* aPtr = myData.get_data();

    // The following statement frees the memory allocated
    // for the data member of the class Data.
    delete[] aPtr;

    return 0;

The above statement delete[] aPtr frees the memory allocated for the data member of the class Data. As a consequence, when the myData object is deallocated automatically, the content of the vector<char> has already been deallocated manually, and obviously an error SIGABRT occurs.

How to ensure that the compiler signals the statement delete[] aPtr as an error? How should you modify the class Data to achieve this goal?

share|improve this question
You can't. It is one of the many problems with returning raw pointers. – juanchopanza Mar 5 '13 at 21:32
Basically, as soon as you give a raw pointer to the outside world, you are at their mercy. Why do you need to give one out anyway? There's a reason vector goes to the trouble of exposing (abstract) iterators. – Jon Mar 5 '13 at 21:33
you can wrap with a smart pointer, that's a about it (someone could always call operator-> explicit on it, though) – Stephen Lin Mar 5 '13 at 21:35
You should always make clear in the documentation who owns the pointer that you return. If someone ignores that documentation they get what they deserve. – Mark Ransom Mar 5 '13 at 21:37

4 Answers 4

up vote 5 down vote accepted

The most straightforward way to deal with this is to make sure that it is clear who is the "owner" of a pointer. In my C++ days, if a pointer was returned by a function, the function's name should start with "Create" rather than "Get". Later, we usually returned smart pointers, in such a scenario.

It is in fact not at all hard to write C++ where you never need to delete any pointer explicitly, but rather store all of them in a smart pointer that will delete the pointee when it gets destroyed itself.

share|improve this answer

Stop using "naked" new and delete operations, wrap the new in an RAII type and do not use delete unless you're writing a destructor of an RAII type.

std::unique_ptr<char[]> a{ new char[4] };
a[0] = 'b';
a[1] = 'y';
a[2] = 't';
a[3] = 'e';

Data myData(std::move(a),4);

This code means that ownership of the array is clearly given to the smart pointer, and then clearly transferred to the Data object. Attempting to delete the array will not compile.

This doesn't prevent users later doing delete[] aPtr but if you get into the habit of never using delete except in the destructor of an RAII type, then it becomes glaringly obvious when someone introduces a bug by using delete somewhere they shouldn't, because they don't own the memory.

Stop fiddling about with bare pointers. If users of your code won't stop doing so then let them learn the hard way.

share|improve this answer

You don't. new and delete don't track who owns the pointer. That's your job.

What you can do instead is make a copy of the data the pointer points to. Then it doesn't matter what the caller does with its array. You have your own copy, and assuming you're not doing something braindead like exposing it to anyone who wants it, it's safe.

Or, check out std::unique_ptr and std::shared_ptr. :P They're the new hotness as far as memory management is concerned; when you use a smart pointer, memory very nearly manages itself.

share|improve this answer
not sure what you mean, it's an array in this case, so making a copy and returning it would require an allocation and passing ownership of the allocated copy. but i withdrew my comment after you mentioned smart pointers. – Stephen Lin Mar 5 '13 at 21:40
(and i guess you withdrew yours after i withdrew mine :D) – Stephen Lin Mar 5 '13 at 21:41
@StephenLin: What i mean is, char x[5]; Data mydata(x, 5); would cause problems if the Data object assumed that was its pointer now and should be deleted on destruction. – cHao Mar 5 '13 at 21:43
yeah, but that's not his problem AFAICT--he's copying the data from x into a vector in mydata, so that's ok; his problem is that he wants to return a pointer to the data in mydata (that he still owns) and prevent it from being deleted. he can copy it before and returning a copy of that, but then the caller must free it. – Stephen Lin Mar 5 '13 at 21:47

Write good documentation. It's not your job to prevent other programmers from doing stupid things.

share|improve this answer
"It's not your job to prevent other programmers from doing stupid things". Never mind other programmers - It's definitely your job to stop YOURSELF from doing stupid things. Returning a smart pointer instead of a raw one tells every programmer (without looking at the docs) that they should not manually delete the returned object. – Roddy Mar 5 '13 at 21:57
@Roddy - I don't see anything in the question that suggests that the goal is shared ownership. Absent that, a smart pointer only adds overhead. – Pete Becker Mar 5 '13 at 23:49
I think the "shared ownership" is kind of implicit and unavoidable when you have functions returning pointers (or, indeed, references). If the OP's worried about the caller deleteing the returned pointer in error, he probably will also be concerned about the caller trying to dereference the pointer after the pointed objects lifetime. There is overhead, yes : but often the benefits in fewer bugs outweigh them. – Roddy Mar 6 '13 at 11:32
@Roddy - no, shared ownership is a design decision. Returning a shared pointer means that whatever it points to can outlive the object that returned it. In this case, where the pointer currently points to data stored in a std::vector, that requires a major redesign. – Pete Becker Mar 6 '13 at 12:32
Agreed. We're bogged in the details a bit, and smart pointers (shared or otherwise) are just one "technical" approach to the problem. Returning an iterator, or a reference could be others. But, I still believe that returning raw pointers and relying on documenting what NOT to do with them should be a policy of last resort. – Roddy Mar 6 '13 at 13:20

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