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I'm getting invalid point error from the code below I don't see why. All I'm trying to do is to delete free some strings on the heap from a vector:

void func() {
    vector<string>* vec = new vector<string>;
    vec->push_back(*(new string("1")));
    vec->push_back(*(new string("2")));

    for(vector<string>::iterator itr = vec->begin(); itr != vec->end(); ++itr)
        string* ptr = &(*itr);

EDIT: is it because push_back creates a copy of the string?

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vec->push_back(*(new string("1"))); = memory leak – Charles Salvia Feb 22 '13 at 19:33
because push_back() creates a copy and leaves the string on the heap out of reference, correct? – user1861088 Feb 22 '13 at 19:40
If you really want to allocate on the heap, safer to use… – Aditya Sihag Feb 22 '13 at 19:43
@user1861088, correct – Charles Salvia Feb 22 '13 at 19:48

3 Answers 3

Your error is because the element isn't dynamically allocated; the vector is. What you're trying to do would require:

void func() 
    vector<string*> vec;
    vec.push_back(new string("1"));
    vec.push_back(new string("2"));

    for(vector<string*>::iterator itr = vec.begin(); itr != vec.end(); ++itr)
        string* ptr = *itr;

But honestly I see little reason to do this. As-written your code not only attempts to delete memory it never actually allocated, it leaks what it allocations it did make.

There are reasons to store pointers to objects in a vector like this (such as the objects being actually from another container somewhere else and you need a temporary list of them for a custom-sort operation without disturbing the original content), but something tells me you're a ways-off from having such a need.

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I understand. Situation is I cannot use a vector of pointers. Well, I was confused about some concepts. But I think I get it now. – user1861088 Feb 22 '13 at 19:41
You can use a vector of pointers. But you probably have no reason to. – Charles Salvia Feb 22 '13 at 19:42
First, regarding pointers owning resources, see this simple doc that sums it up nicely. If you must use pointers, and those pointers own the resources they point to, give them brains (make them smart pointers). Otherwise, tread very, very carefully. The example reason I cite for using a vector of naked pointers is considerable because the pointers in the vector would not own the resources they point to. Hard to picture, I know, but important. – WhozCraig Feb 22 '13 at 19:47
@user1861088, that is a different problem than accessing an element that is stored in a container. In general, you really need to understand C++ ownership semantics if you are every going to use pointers. If you need to return an object from a function, return it by value. C++11 has move semantics which usually will ensure the object is moved, rather than copied. Otherwise, if you're not using C++11, considering returning a smart pointer or (less preferably) using an "output value parameter". – Charles Salvia Feb 22 '13 at 19:54
@user1861088 Absolutely it is. it has come a long way since the original C++ w/STL many moons ago. The 1300+ pages of the C++11 standards document is in itself a testimony to how much better it is defined. – WhozCraig Feb 22 '13 at 20:02

No you're not - your vector stores string objects, not pointers to string objects. That's why you have the * in your push_back call - you are dereferencing the returned pointer.

You are adding a copy of the dynamic string you create with new and that dynamic string is lost, since you never store the pointer that new returns.

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Firstly, the line

vec->push_back(*(new string("1")));

is causing a memory leak. The value returned from new string("1") is a pointer to a newly allocated string object. But when you dereference it and insert it into the vector, a copy of the heap-allocated object is created and inserted. However, the actual string object you originally allocated on the heap is leaked.

Essentially, your vector is storing string objects by value, not pointers to string objects. The copy of the string object that is inserted into the vector is NOT a heap allocated object (not an object allocated with new). And of course, you cannot delete something that wasn't allocated with new. So when you call delete(ptr) you are causing undefined behavior.

What you seem to want here is a:

vector<string*>* vec = new vector<string*>;

However, in general I don't see any compelling reason why you are allocating everything on the heap. In C++ it is preferable to use stack allocation and containers with value semantics whenever feasible, unless you have some reason why you need heap allocation (e.g. a container of polymorphic objects, in which case you should use smart pointers anyway). Generally, when new C++ programmers use heap-allocated objects and the new keyword all over the place, it is a sign that they are poorly transliterating a programming style imported from a managed language like Java or C#.

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+1 concur on the compelling reason points of interest. – WhozCraig Feb 22 '13 at 19:57

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