Would the following code facilitate lazy initialization?
Or would the singletonInstance be created as soon as somebody includes the header (or even at program startup time)?

class SingletonClass


        static const SingletonClass& Instance()
            static SingletonClass singletonInstance;
            return singletonInstance; 

This is known as the Meyers singleton and they are lazy instantiated.

There are some considerations:

  • the singletons will be destroyed at the end of the program in the reverse order in which they are created, so there can be dependency issues.
  • C++03 doesn't guarantee against race conditions in multithreaded environments.
  • Thanks for the reference! – cacau Jan 21 '14 at 8:31

The SingletonClass constructor will not be called earlier than somenone calls the Instance() method.

Thus yes, it facilitates lazy initialization.

  • Interesting! Would have thought the opposite - i.e. static member instance is always there..! – cacau Jan 21 '14 at 8:18
  • @cacau As far I remember there's a guarantee in the language standard that a compiler has to implement this behavior. Should I look it up for you for mentioning? – πάντα ῥεῖ Jan 21 '14 at 8:21
  • 4
    @πάνταῥεῖ: The behaviour of local static (as static variables declared within a function are known) is indeed well specified. They are to be instantiated the first time flow of control passes through their declaration (thus if nested inside an if block, the first time the if branch is taken) and in case an exception is thrown during their initialization it will be re-attempted the next time flow of control passes through their declaration. Furthermore, in C++11 this initialization is thread-safe; though a number of compilers (gcc, clang, ...) already guaranteed that in C++03. – Matthieu M. Jan 21 '14 at 8:49

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