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I am totally confused with regards to deleting of things in c++ If i declare an array of objects and if i use the clear() function. Can i be sure that the memory was released?

For example :

tempObject obj1;
tempObject obj2;
vector<tempObject> tempVector;


Can i safely call clear to free up all the memory? Or do i need to iterate through to delete one by one?


If this scenario is changed to a pointer of objects, will the answer be the same as above?

vector<tempObject> *tempVector;
//push objects....
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There is nothing different from the second case than the first case other than the fact it points a vector. I think this question should be broadened so that you get a grasp on how memory allocation / deallocation should work, and probably pointers too. –  Marlon May 5 '12 at 19:01

3 Answers 3

up vote 22 down vote accepted

You can call clear, and that will destroy all the objects, but that will not free the memory. Looping through the individual elements will not help either (what action would you even propose to take on the objects?) What you can do is this:


That will create an empty vector with no memory allocated and swap it with tempVector, effectively deallocating the memory.

C++11 also has the function shrink_to_fit, which you could call after the call to clear(), and it would theoretically shrink the capacity to fit the size (which is now 0). This is however, a non-binding request, and your implementation is free to ignore it.

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Hey thanks for the reply. do you mind explaining what the above does? after calling that, do i need to call clear? –  mister May 5 '12 at 19:03
@dupdupdup: No, you don not need to call clear. The objects that were in tempVector are transfered to the empty vector. Then, the empty vector, since it is a nameless temporary object, is destroyed, and its contents, which were previously owned by tempVector, are destroyed and the memory deallocated. –  Benjamin Lindley May 5 '12 at 19:05
+1 I misinterpreted the Q but you got it correct. –  Alok Save May 5 '12 at 19:06
I'm no C++ expert, mind explaining how this is better than the tempVector.resize(0) I'd try first? –  delnan May 5 '12 at 19:08
std::vector::resize is not required to release memory, it's perfectly allowed to keep it around in case it's needed later. –  Useless May 5 '12 at 19:10

vector::clear() does not free memory allocated by the vector to store objects; it calls destructors for the objects it holds.

For example, if the vector uses an array as a backing store and currently contains 10 elements, then calling clear() will call the destructor of each object in the array, but the backing array will not be deallocated, so there is still sizeof(T) * 10 bytes allocated to the vector (at least). size() will be 0, but size() returns the number of elements in the vector, not necessarily the size of the backing store.

As for your second question, anything you allocate with new you must deallocate with delete. You typically do not maintain a pointer to a vector for this reason. There is rarely (if ever) a good reason to do this and you prevent the vector from being cleaned up when it leaves scope. However, calling clear() will still act the same way regardless of how it was allocated.

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There are two separate things here:

  1. object lifetime
  2. storage duration

For example:

    vector<MyObject> v;
    // do some stuff, push some objects onto v
    v.clear(); // 1
    // maybe do some more stuff
} // 2

At 1, you clear v: this destroys all the objects it was storing. Each gets its destructor called, if your wrote one, and anything owned by that MyObject is now released. However, vector v has the right to keep the raw storage around in case you want it later.

If you decide to push some more things into it between 1 and 2, this saves time as it can reuse the old memory.

At 2, the vector v goes out of scope: any objects you pushed into it since 1 will be destroyed (as if you'd explicitly called clear again), but now the underlying storage is also released (v won't be around to reuse it any more).

If I change the example so v becomes a pointer, you need to explicitly delete it, as the pointer going out of scope at 2 doesn't do that for you. It's better to use something like std::unique_ptr in that case, but if you don't and v is leaked, the storage it allocated will be leaked as well. As above, you need to make sure v is deleted, and calling clear isn't sufficient.

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What do you mean by 'If you decide to push.. this saves time as it can reuse the old memory.'? Why does old memory matter when you want to add new items? –  user13107 Nov 1 '13 at 3:35
The vector has to manage storage internally for the objects it stores. Creating a new vector requires allocating new storage, but clearing & reusing an existing vector allows (but doesn't guarantee) reuse of its already-allocated storage. –  Useless Nov 1 '13 at 11:30

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