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Working on a game in Cocos2d-x. I have CCLayers* and lots of CCSprites* that are created. I add these CCSprites in a std::vector after I create them.

My concern is memory and deleting.

I am trying to wrap my head around std::unique_ptr. My understanding is that smart pointers will help and clean up memory and prevent leaks.

But I dont understand how to use it. Do I make a unique_ptr out of every CCSPrite*? Do I make a unique_ptr and put my whole vector in it?

Can anyone help me understand and give me an idea what to brush up on?

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Cocos2D-x uses a custom garbage collector, you shouldn't use smart pointers (or RAII for that matter) unless you like deleting stuff twice. –  Luke B. Jun 23 '13 at 23:04
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4 Answers 4

Wherever you use new currently, make sure the result is immediately go to ctor of a unique_ptr, or its reset() function. And that smart pointer is placed so it will live where needed. Or you may pass the controlled object ahead to a different instance. Or nuke it using reset().

Vectors you don't usually allocate with new, so they are not subject to smart pointering: the vector itself manages the memory for the content, you're ahead by that.

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Ah, so you are saying put the resulting new in a unique_ptr ctor and then place the unique_ptr in my vector so I can keep track of these objects. –  Jason Jun 23 '13 at 20:27
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There's nothing wrong with putting smart pointers in a vector. The choices, of whether to use a vector or not, and whether to use a smart pointer or not, are completely orthogonal to each other. The one has not a smidgen of influence on the other. –  Benjamin Lindley Jun 23 '13 at 20:59
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@BalogPal I think that what I am doing is very polymorphic. I have some base classes where other's subclass. Those resulting subclasses are what is going in the unique_ptr and then into the vector so I can access each one and do what needs to be done with it –  Jason Jun 23 '13 at 21:11
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Well, next time take care to put important info in the question. And you can look around SO for "duplicates" there are ready answers on how to have a polymorphic STL collection –  Balog Pal Jun 23 '13 at 21:13
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Can you explain to me how me telling you I had a polymorphic collection would have been important to your answer here? I asked about using a unique_ptr and some confusion on usage if the vector goes in it or the sprites themselves. –  Jason Jun 23 '13 at 21:19
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Simplistically unique_ptr<T> is a wrapper class for a member T* p. In unique_ptr::~unique_ptr it calls delete p. It has a deleted copy constructor so that you don't accidentally copy it (and hence cause a double deletion).

It has a few more features, but that is basically all it is.

If you are writing a performance-critical game, it is probably a better idea to manage memory manually with some sort of memory-pool architecture. That isn't to say that you can't use a vector<unique_ptr<T>> as part of that, just to say that you should plan out the lifetime of your dynamic objects first, and then decide what mechanism to use to delete them at the end of that lifetime.

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Cocos2d-x objects have own reference counter, and they use autorelease pool. If you will use std::unique_ptr, you should manually remove created object from autorelease pool and than register it in unique_ptr. Prefer to use CCPointer: https://github.com/ivzave/cocos2dx-ext/blob/master/CCPointer.h

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Can you explain what you mean by manually remove from autorelease pool? Is that the same as just not doing ->autorelease(); in my code where I am doing it? –  Jason Jun 25 '13 at 14:37
    
Cocos2d-x calls autorelease in it's create* methods. If you want remove from pool object that was already added, see CCPoolManager class reference. –  user2228947 Jun 26 '13 at 20:18
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If you need a polymorphic container, that is a vector that can hold CCSprites or any derived class, then you can use a std::vector<std::unique_ptr<CCSprite>> to describe this and provide you with you with lifetime management of the classes.

#include <memory>
#include <vector>
#include <iostream>

using namespace std;

class Foo {
    int m_i;
public:
    Foo(int i_) : m_i(i_) { cout << "Foo " << m_i << " ctor" << endl; }
    ~Foo() { cout << "Foo " << m_i << " ~tor" << endl; }
};

class FooBar : public Foo {
public:
    FooBar(int i_) : Foo(i_) { cout << "FooBar " << m_i << " ctor" << endl; }
    ~FooBar() { cout << "FooBar " << m_i << " ~tor" << endl; }
};

int main(int argc, const char** argv) {
    vector<unique_ptr<Foo>> foos;
    Foo foo(1);
    foos.emplace_back(unique_ptr<Foo>(new Foo(2)));

    cout << "foos size at end: " << foos.size() << endl;

    return 0;
}

(I tried adding an example of a short scoped unique_ptr being added to the vector but it caused my GCC 4.7.3 to crash when testing)

Foo 1 ctor
Foo 2 ctor
foos size at end: 1
[<-- exit happens here]
Foo 1 dtor
Foo 2 dtor

If you don't need a polymorphic container, then you can avoid the memory management overhead by just having the vector directly contain the CCSprite objects. The disadvantage to this approach is that the address of given sprites can change if you add/remove elements. If the object is non-trivial this can quickly get very expensive:

std::vector<CCSprite> sprites;
sprites.emplace_back(/* args */);
CCSprite* const first = &sprites.front();
for (size_t i = 0; i < 128; ++i) {
    sprites.emplace_back(/* args */);
}
assert(first == &sprites.front()); // probably fires.
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Please note that emplace_back is there to prevent copy-construction (if possible), by means of forwarding its arguments to the contained type's constructor, so you should use foos.emplace_back(new Foo(2)). I'm guessing you're using VS, which doesn't (didn't?) correctly implement emplace_back. –  Tom Knapen Jun 23 '13 at 21:33
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If CCSprite has an expensive move constructor then vector<CCSprite> will perform worse then vector<CCSprite*>, as when it grows past certain bounds the elements are move constructed to new storage. –  Andrew Tomazos Jun 23 '13 at 21:42
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@jogojapan O:) I have now :) Also, I'd best go read up on make_unique. –  kfsone Jun 24 '13 at 2:40
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@TomKnapen: Please don't pass a raw pointer into emplace_back! If the vector reallocates and the realloc throws an exception (for whatever reason), the memory is leaked, as it isn't owned by a unique_ptr yet. Only do .emplace_back(std::unique_ptr<Foo>(new Foo(...))); please. –  Xeo Jun 25 '13 at 10:09
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@kfsone: No, unique_ptr ctor is guaranteed noexcept. We want make_unique in the case of multiple arguments to, say, emplace_back, because the construction of the "sub"arguments (new Stuffs) are unsequenced, meaning it could allocate one, then try the next, that could fail and the memory would leak, because the first one wasn't yet bound to the unique_ptr. With make_unique, the allocation happens inside the function and is as such sequenced. –  Xeo Jun 25 '13 at 22:24
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