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I have a class for stars in my game, I want them to use the same texture so I've come up with this code...

sf::Texture* Star::starTexture = NULL;
unsigned int Star::refCount = 0;

Star::Star() : starSpeed(0), starScale(0), locX(0), locY(0)
{
    if (starTexture == NULL)
    {
        starTexture = new sf::Texture();
    }

    refCount++;
}

Star::~Star()
{
    refCount--;

    if (refCount == 0)
    {
        delete starTexture;
        starTexture = NULL;
    }
}

I'm using the star class like this...

for (int i = 0; i < STAR_COUNT; ++i)
{
    Star star;

    star.Initialize(/* blah blah */);

    starVector.push_back(star);
}

I'm new to "advanced c++ techniques" and I'm worried this isn't going to work. Do I need to define a copy constructor? will the vector mess up my reference count? I'm open to suggestions for a better way to do this too. I guess I could keep the texture outside the class and pass a reference when I initialize each star but I perfer the texture staying inside the class...

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Why add compilcations of refcount. Why not sf::Texture Star::starTexture; Let the stack tack the strain? –  Ed Heal Oct 21 '11 at 7:04
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1 Answer

up vote 5 down vote accepted

Yes, it'll mess up if you don't explicitly define copy constructor and copy assignment operator for you class.

STL containers like vector have copy-by-value sementics. When Star object is copied into a vector, the raw pointer inside it is copied. So you now have multiple pointers pointing to a single memory, which definitely puts you on the fast track to undefined behavior, at best.

What you should do, is to define those functions explicitly. Manually perform the deep copy of that memory and increment your ref count properly.

A better way is to hold an RAII-object like boost::shared_ptr or std::tr1::shared_ptr inside your class and let it handle resource management(including ref-counting stuff) automatically for you. Then you don't need explicitly define those funtions anymore.

class Star
{
..
private:
  std::tr1::shared_ptr<sf::Texture> m_starTexture;
};

// link the smart pointer w/ resource
Star::Star(): m_starTexture(new Texture())
{
  ...  
}

This is guaranteed to work by language features:

  1. When your object is copied, copying functions of non-static member objects are called.
  2. When your object is deleted, destructors of non-static member objects are called.

In this case, copying functions of smart pointer will correctly increment ref count while destructor of it will decrement ref count, and deallocate the resource if ref count equals 0.

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Thanks! My memory was hinting at this but it was too faint... –  replicant Oct 21 '11 at 6:28
    
Thanks! I'm a little confused with std::tr1::shared_ptr though, will every instance of Class star have access to the same texture or will each new star create a new texture? can I declare a static shared_ptr in the header? –  replicant Oct 21 '11 at 7:11
    
That depends. When you creates a new star object, it creates a new texture in its constructor. So if you create 10 start objects(either on stack or on heap), they have 10 different textures inside. However, when you copy a star object, e.g., to a vector or to another star object, those objects share the same texture. Don't use static for shared_ptr. –  Eric Z Oct 21 '11 at 7:29
    
You probably need to figure out how smart pointers works usually. It's powerful. Just google it.) –  Eric Z Oct 21 '11 at 7:32
    
Thanks again, I'm going to look into it. –  replicant Oct 21 '11 at 7:36
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