Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Suppose we have a singleton class, where the Instance function(function which returns the singleton instance of the class) has been overloaded. One version takes some parameters and does the object initializing in the class constructor, the other version does not take any parameters.

1.    myClass::Instance ( int x, int y );
2.    myClass::Instance ( );

What we want to achieve is that the user of the class should always call (1) first, and any subsequent calls should be made only to the (2). User should not be allowed to make first call to (2) and once call to (1) is done no subsequent calls to (1) be allowed.

Is it possible to achieve this without putting the burden of checking NULL pointer on the user of the class ?

share|improve this question
Obviously, the first question should be, can you do without a Singleton ? –  Matthieu M. Jun 26 '13 at 8:18
The singleton class solely makes sure that the instance is available upon request. Yours doesn't (yes it is available but you must call this function first). If the responsibility to create the instance is with the the user, then you don't have a singleton at all (which may or may not be a bad thing). –  n.m. Jun 26 '13 at 8:25
@Matthieu M. Unfortunately Singleton is needed in the situation. –  StudentX Jun 26 '13 at 8:43
@n.m. The arguments passed to the class resides in main(); HWND and HINSTANCE (winapi) and our singleton class doesn't have access to those arguments, so a singleton which saves the arguments and return the instance to the user makes sense ? –  StudentX Jun 26 '13 at 8:46
@StudentX: I agree it can become tedious, but explicit is better than implicit in many cases. For example, what if you want to redesign your application to have two windows instead of one ? Then you will have two HWND handles, and depending on which is active the program should draw to one or the other. You cannot do that with a singleton... whereas it would be trivial should you be passing the handle around explicitly. Global variables (such as Singleton) hide data flow, and introduce invisible dependencies, that is why they are Bad (tm). –  Matthieu M. Jun 26 '13 at 9:09

2 Answers 2

The problem is that you can't possibly have the compiler arbitrate this "first-call" notion at compile time (as it compiles a specific translation unit, it has no insight into whether (1) may be called from some other translation unit), so you must:

  • design to restrict access to one or both overloads at compile time, and/or
  • check for valid usage at run time, and/or
  • make your code more tolerant of multiple calls to (1), while ensuring you'll get the behaviour you need.

There are many possible approaches which might or might not suffice:

  • you could have (1) harder to access by making it protected, or private while granting friendship to specific code that will call it, leaving (2) public for convenient ongoing use by other parts of the code

  • you could write the code of (1) so that after the first time it ignores any arguments and invokes (2)

  • you could have assertions validating the usage at run-time, which will hopefully ensure client code complies with your conditions long before it gets into production

  • you could have (1) return something that's needed to call (2), such as an object of a type that can't otherwise be created by the client, but that alone doesn't prevent (1) being called again. That needed object might be passed to (2)'s constructor, or (2) might become a function on that object.

share|improve this answer
+1 for "design to restrict access to one or both overloads at compile time". –  MattDavey Jun 26 '13 at 8:19

In 1. If the instance already exists, you throw an exception (std::logic_error for instance). If not, you construct the instance with the parameters provided and return it.

In 2. If the instance doesn't exist yet, you throw an exception (std::logic_error for instance). Then you return it.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.