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I would like to discuss the nuances of implementation of well known Singleton design pattern. Here there are two implementations in C++:

and another one is this:

#ifndef __SINGLETON_HPP_
#define __SINGLETON_HPP_

template <class T>
class Singleton
  static T* Instance() {
      if(!m_pInstance) m_pInstance = new T;
      assert(m_pInstance !=NULL);
      return m_pInstance;
  Singleton(Singleton const&);
  Singleton& operator=(Singleton const&);
  static T* m_pInstance;

template <class T> T* Singleton<T>::m_pInstance=NULL;


If we compare this versions what advantages and disadvantages does they have and eventually, which version is preferred?

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Yes it's a pattern, but it doesn't mean you should use it. You'll be choosing the lesser of two evils. I don't imagine you really need it. – Peter Wood Jan 23 '12 at 7:48
@PeterWood It's not a pattern - it's an anti-pattern – BЈовић Jan 23 '12 at 7:52
Do you know that using include guards named like __SINGLETON_HPP_ is actually wrong in addition to being ugly? – 6502 Jan 23 '12 at 7:55
@VJovic:Why is sigleton an antipattern? – Cratylus Jan 23 '12 at 7:58
@VJovic Anti-patterns are patterns, too. – Peter Wood Jan 23 '12 at 8:59

2 Answers 2

up vote 1 down vote accepted

The main differences between these two implementations are:

  • the first adds a redundant flag to tell you whether or not a pointer is null, and so takes up slightly more memory than it needs to;
  • the second is not a singleton at all: there is nothing to stop T from having a public constructor, thereby breaking the singleton restriction.

The main problems with both of them (beyond the fact that a singleton is never a good idea in the first place) are:

  • construction is not thread-safe; calling Instance() from two threads could cause two objects to be created;
  • both leak memory; they dynamically create the object with new, but never call delete.

In C++, it is very difficult to manage the lifetime of a globally-accessible object safely; for that reason (and many others), I would recommend avoiding the Singleton anti-pattern altogether. Create objects in well-managed scopes, and pass references where needed.

If you really want a globally-accessible instance, then in most cases the simplest and safest option is:

static Singleton & Instance() {
    static Singleton instance;
    return instance;

This will be created the first time the function is called, and a C++11 compiler must ensure that this is thread-safe. The remaining problem is that the instance might be destroyed before other static objects, causing a disaster if their destructors try to access it.

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Basically, both implementations are the same. Implementation on CodeProject provides 2 things:

  • singleton status flag, which allows you to mark singleton as "old" from outside (and then properly reinstantiate it from inside)
  • getInstance method, which is nothing special from singleton's perspective. However this makes the code way more readable for other persons AND yourself after some time.

Just the difference between
Cat::meow(); and

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