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For example I have a following class:

class singelton
    static singelton* Instance()
        if (m_pInstance == 0)
            m_pInstance = new singelton();
        return m_pInstance;

    void setData(std::string input) { data = input; }
    void getData() const { std::cout << data << std::endl; }
    singelton() {}
    ~singelton() {}

    static singelton* m_pInstance;

    std::string data;

typedef singelton s;

//what is this? Why need a singleton name? I mean "singelton*".
singelton* singelton::m_pInstance = 0;

int main(int argc, char** argv)
    return 0;

What is singelton* singelton::m_pInstance = 0;? This function assigns zero/null to a singleton instance, but why need use singleton* ? That assignment like a function, but use as assignment.

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3 Answers 3

up vote 5 down vote accepted

Static data members are not part of objects of a given class type; they are separate objects. As a result, the declaration of a static data member is not considered a definition. So static member must be defined outside of the class declaration.

In your example:

  • singelton * is a type of member.
  • singleton:: is class name (like namespace)
  • and m_pInstance is member name

P.S.: Because of static variables are initialised with 0 by default in C++, you don't need to explicitly set m_pInstance to 0 (or NULL). The definition only will be enough:

singelton * singelton::m_pInstance;
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What is singelton* singelton::m_pInstance = 0;?

It's the initialiser for the static member variable m_pInstance, statically initialising the pointer to be null. singelton* (pointer to singelton) is the type of the variable; singlelton::m_pInstance is the (qualified) name of the variable; and = 0 is the initialiser.

This function assigns zero/null to a singleton instance, but why need use singleton* ?

No, it initialises the pointer to null; it doesn't point to anything yet. The object itself will be created, and the pointer updated to point to it, the first time someone calls Instance(). It's a pointer so that the object itself can be created when it's first needed, rather than at some arbitrary point during program startup - this is known as "lazy initialisation".

Beware that, in C++, there is no way to implement the Singleton anti-pattern correctly. This particular implementation has the problems of leaking the object, and not being thread-safe. I strongly recommend that you get rid of it: just instantiate the object in an appropriate place, with a lifetime that's longer than whatever uses it, and pass references to whatever needs it.

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Could you please comment a bit more on why you consider singleton an anti-pattern? –  Massimiliano Dec 30 '13 at 13:08
@Massimiliano: That's beyond the scope of the question, and is well covered here, although that only discusses the conceptual problems of the anti-pattern in general, not the impossibility of implementing it correctly in C++. –  Mike Seymour Dec 30 '13 at 13:09





The class can only have one instance - hence called singleton

And the Singleton::Instance gives you access to that

singelton* singelton::m_pInstance = 0;

Initializes it and when you first use it the singleton is created

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