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Recently I've bumped into a realization/implementation of the Singleton design pattern for C++. It has looked like this (I have adopted it from the real life example):

// a lot of methods are omitted here
class Singleton
{
   public:
       static Singleton* getInstance( );
       ~Singleton( );
   private:
       Singleton( );
       static Singleton* instance;
};

From this declaration I can deduce that the instance field is initiated on the heap. That means there is a memory allocation. What is completely unclear for me is when exactly the memory is going to be deallocated? Or is there a bug and memory leak? It seems like there is a problem in the implementation.

My main question is, how do I implement it in the right way?

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6  
8  
You'll find a great discussion of how to implement a singleton, along with thread-safety in C++ in this paper. aristeia.com/Papers/DDJ%5FJul%5FAug%5F2004%5Frevised.pdf –  Matthieu N. Oct 30 '09 at 11:34
8  
Singletons are bad: jalf.dk/blog/2010/03/…. Don't use them. –  sbi Jun 27 '11 at 10:33
30  
@sbi - Only a Sith deals in absolutes. Can the vast majority of problems be solved without Singletons? Absolutely. Do Singletons cause problems of their own? Yes. However, I can't honestly say that they're bad, since design is all about considering the tradeoffs and understanding the nuances of your approach. –  derekerdmann Jul 28 '11 at 20:10
6  
@derekerdmann: I didn't say you never need a global variable (and when you need one, a Singleton sometimes is better). What I said is that they should be used as little as possible. Glorifying Singleton as a valuable design pattern gives the impression it's good to use it, rather than that it is a hack, making code hard to understand, hard to maintain, and hard to test. This is why I posted my comment. None of what you said so far contradicted this. –  sbi Jul 29 '11 at 13:26

15 Answers 15

up vote 357 down vote accepted

See this article for a simple design for a lazy evaluated with guaranteed destruction singleton:
Can any one provide me a sample of Singleton in c++?

The classic lazy evaluated and correctly destroyed singleton.

class S
{
    public:
        static S& getInstance()
        {
            static S    instance; // Guaranteed to be destroyed.
                                  // Instantiated on first use.
            return instance;
        }
    private:
        S() {};                   // Constructor? (the {} brackets) are needed here.
        // Dont forget to declare these two. You want to make sure they
        // are unaccessable otherwise you may accidently get copies of
        // your singleton appearing.
        S(S const&);              // Don't Implement
        void operator=(S const&); // Don't implement
};

See this article about when to use a singleton: (not often)
Singleton: How should it be used

See this two article about initialization order and how to cope:
Static variables initialisation order
Finding C++ static initialization order problems

See this article describing lifetimes:
What is the lifetime of a static variable in a C++ function?

See this article that discusses some threading implications to singletons:
Singleton instance declared as static variable of GetInstance method

See this article that explains why double checked locking will not work on C++:
What are all the common undefined behaviour that a C++ programmer should know about?

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1  
@fnieto: Thanks. What I was trying to imply with the constructor S() should be declared private. As singeltons will have other members (otherwise why have a singelton) that need to be initialized (note there is not a Don't implement), so when you do declarea a constructor it will need to be private. –  Loki Astari Oct 19 '09 at 16:55
7  
Good answer. But should note that this is not thread-safe stackoverflow.com/questions/1661529/… –  Varuna Dec 25 '09 at 8:28
2  
+1 On second thought, I don't need a singleton. Just a single instance. :-P –  zourtney Dec 23 '11 at 18:34
4  
@Varuna: In C++11 this is now thread-safe. –  Mankarse May 4 '12 at 6:11
1  
@zourtney: Many people don't realize what you just did :) –  Johann Gerell Jan 4 '13 at 7:06

Being a Singleton, you usually do not want it to be destructed.

It will get torn down and deallocated when the program terminates, which is the normal, desired behavior for a singleton. If you want to be able to explicitly clean it, it's fairly easy to add a static method to the class that allows you to restore it to a clean state, and have it reallocate next time it's used, but that's outside of the scope of a "classic" singleton.

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2  
if delete is never explicitly called on the static Singleton* instance, wouldn't this still technically be considered a memory leak? –  Andrew Garrison Jun 17 '09 at 16:10
2  
It's not a memory leak anymore than a simple declaration of a global variable. –  ilya n. Jun 17 '09 at 16:14
4  
To set something straight... "memory leak" concerns vis-a-vis singletons are completely irrelevent. If you have stateful resources in which deconstruction order matters, singletons can be dangerous; but all of the memory is cleanly regained by the operating system on program termination... nullifying this totally academic point in 99.9% of cases. If you want to argue the grammar back and forth of what is and is not a "memory leak", that's fine, but realize that it's a distraction from actual design decisions. –  jkerian Jun 17 '09 at 16:21
4  
@jkerian: Memory leaks and destruction in the C++ context is not really about the memory leaking. Really it is about resource control. If you leak memory the destroctor is not called and thus any resources associated with the object are not correctly released. Memory is just the simple example we use when teaching programming but there are much more complex resources out there. –  Loki Astari Jun 17 '09 at 16:34
3  
@Martin I agree with you completely. Even if the only resource is memory, you will still get into trouble trying to find REAL leaks in your program if you have to wade through a list of leaks, filtering out ones that "don't matter." It is better to clean these all up so any tool that reports leaks only reports things that ARE a problem. –  Dolphin Jun 17 '09 at 16:53

You could avoid memory allocation. There are many variants, all having problems in case of multithreading environment.

I prefer this kind of implementation (actually, it is not correctly said I prefer, because I avoid singletons as much as possible):

class Singleton
{
private:
   Singleton();

public:
   static Singleton& instance()
   {
      static Singleton INSTANCE;
      return INSTANCE;
   }
};

It has no dynamic memory allocation.

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In some instances, this lazy initialization is not the ideal pattern to follow. One example is if the constructor of the singleton allocates memory from the heap and you wish that allocation to be predictable, for instance in an embedded system or other tightly controlled environment. I prefer, when the Singleton pattern is the best pattern to use, to create the instance as a static member of the class. –  dma Jun 17 '09 at 17:06
2  
For many larger programs, especially those with dynamic libraries. Any global or static object that's none primitive can lead to segfaults/crashes upon program exit on many platforms due to order of destruction issues upon libraries unloading. This is one of the reasons many coding conventions (including Google's) ban the use of non-trivial static and global objects. –  obecalp Jun 17 '09 at 18:04

Another non-allocating alternative: create a singleton, say of class C, as you need it:

singleton<C>()

using

template <class X>
X& singleton()
{
    static X x;
    return x;
}

Neither this nor Cătălin's answer is automatically thread-safe in current C++, but will be in C++0x.

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Currently under gcc it is thread safe (and has been for a while). –  Loki Astari Jun 17 '09 at 16:26
3  
The problem with this design is that if used across multiple libraries. Each library has is own copy of the singelton that that library uses. So it is no longer a singelton. –  Loki Astari Jun 17 '09 at 16:27
1  
@LokiAstari: It is spelled 'singleton'. :) –  Nic Foster Jul 12 '12 at 18:41

If you want to allocate the object in heap, why don't use an auto pointer. Memory will also be deallocated since we are using an auto pointer.

class S
{
    public:
        static S& getInstance()
        {
            if( m_s.get() == 0 )
            {
              m_s.reset( new S() );
            }
            return *m_s;
        }

    private:
        static std::auto_ptr<S> m_s;

        S();
        S(S const&);            // Don't Implement
        void operator=(S const&); // Don't implement
};

std::auto_ptr<S> S::m_s(0);
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It is indeed probably allocated from the heap, but without the sources there is no way of knowing.

The typical implementation (taken from some code I have in emacs already) would be:

Singleton * Singleton::getInstance() {
	if (!instance) {
		instance = new Singleton();
	};
	return instance;
};

...and rely on the program going out of scope to clean up afterwards.

If you work on a platform where cleanup must be done manually, I'd probably add a manual cleanup routine.

Another issue with doing it this way is that it isn't thread-safe. In a multithreaded environment, two threads could get through the "if" before either has a chance to allocate the new instance (so both would). This still isn't too big of a deal if you are relying on program termination to clean up anyway.

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you can deduce, since you can see that instance variable is a pointer to the class instance. –  Artem Barger Jun 17 '09 at 16:18
    
There is no need to dynamically allocate the singleton. In fact this is a bad idea as there is not way to automatically de-allocate using the above design. Let it fall out of scope is does not call destructors and is just lazy. –  Loki Astari Jun 17 '09 at 16:25
    
You can automatically deallocate using the atexit function. That's what we do (not saying it's a good idea) –  Joe Jun 17 '09 at 20:15

The solution in the accepted answer has a significant drawback - the destructor for the singleton is called after the control leaves the "main" function. There may be problems really, when some dependent objects are allocated inside "main".

I met this problem, when trying to introduce a Singleton in the Qt application. I decided, that all my setup dialogs must be Singletons, and adopted the pattern above. Unfortunately, Qt's main class "QApplication" was allocated on stack in the "main" function, and Qt forbids creating/destroying dialogs when no application object is available.

That is why I prefer heap-allocated singletons. I provide an explicit "init()" and "term()" methods for all the singletons and call them inside "main". Thus I have a full control over the order of singletons creation/destruction, and also I guarantee that singletons will be created, no matter whether someone called "getInstance()" or not.

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Look like you've tried to use it in the wrong way. –  Artem Barger Jun 18 '09 at 15:55
    
If you are referring to the currently accepted answer you first statement is wrong. The destructor is not called until all static storage duration objects are destroyed. –  Loki Astari Oct 12 '12 at 16:40

This is about object life-time management. Suppose you have more than singletons in your software. And they depend on Logger singleton. During application destruction, suppose another singleton object uses Logger to log its destruction steps. You have to guarantee that Logger should be cleaned up last. Therefore, please also check out this paper: http://www.cs.wustl.edu/~schmidt/PDF/ObjMan.pdf

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#define INS(c) private:void operator=(c const&){};public:static c& I(){static c _instance;return _instance;}

Example:

   class CCtrl
    {
    private:
        CCtrl(void);
        virtual ~CCtrl(void);

    public:
        INS(CCtrl);
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I think You should write a static function wherein your static object is deleted. You should call this function when you are about to close your application. This will ensure you dont have memory leakage.

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The paper that was linked to above describes the shortcoming of double checked locking is that the compiler may allocate the memory for the object and set a pointer to the address of the allocated memory, before the object's constructor has been called. It is quite easy in c++ however to use allocaters to allocate the memory manually, and then use a construct call to initialize the memory. Using this appraoch, the double-checked locking works just fine.

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Unfortunately not. This has been discussed in great depth by some of the best C++ developers out there. Double checked locking is broken in C++03. –  Loki Astari Oct 12 '12 at 16:44

Here is an easy implementation.

#include <iostream>
using namespace std;
class mySingletonClass {


    static mySingletonClass *mySingletonObject;

    mySingletonClass(){

        cout<<"My Solo Object Created\n";

    }

public:

    static mySingletonClass* getSingletonObject();


};

mySingletonClass* mySingletonClass::mySingletonObject=NULL;
mySingletonClass* mySingletonClass::getSingletonObject(){

    if(!mySingletonObject){

        mySingletonObject=new mySingletonClass;
    }
    return mySingletonObject;
}

int main(int argc, const char * argv[])
{

    mySingletonClass *myObject;
    myObject=myObject->getSingletonObject();
    cout<<myObject<<"\n";

    ///2nd object get the reference of the first object!

    mySingletonClass *myAnotherObject;
    myAnotherObject=myAnotherObject->getSingletonObject();
    cout<<myAnotherObject<<"\n";


    return 0;
}

Here Only one object created and this object reference is returned every time.

Lets examine the output:
My Solo Object Created
Memory:X
Memory:X

Here X is the memory location of singleton Object.

N.B. This is not a thread safe one.You have to ensure thread safety.

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A better solution in my opinion:

MemoryManager as a singleton

class MemoryManager
{
public:
    static MemoryManager * inst();

private:
    static MemoryManager * _singletonInst;
    MemoryManager() { }
    MemoryManager(MemoryManager const&);
    void operator=(MemoryManager const&);        
};

MemoryManager * MemoryManager::_singletonInst = new MemoryManager();

// Getting singleton instance
MemoryManager * MemoryManager::inst()
{
    return _singletonInst;
}

then using MemoryManager::inst() for getting the single object.

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How about using placement new like this:

class singleton
{
    static singleton *s;
    static unsigned char *buffer[sizeof(singleton)/4 *4] //4 byte align
    static singleton* getinstance()
    {
        if (s == null)
        {
            s = new(buffer) singleton;
        }
        return s;
    }
};
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2  
Why. That seems complex. And the destructor is never called. Also you need to fix the expression for calculating size currently it will work on average 25% of the time (try the situation where sizeof(singelton) == 3. Then your above expression results in 0 sized array. –  Loki Astari Oct 12 '12 at 16:42

I don't think C++ can have real singleton. An object/instance in C++ could always be replicated in a way like:

    single &s = single::getInstance();
    single *sp = (single *)malloc(sizeof(single));
    memcpy(sp, &s, sizeof(single));

We get a new instance pointer sp by using malloc and memcpy. However, singleton is indeed singleton in Java, which does not support mechanisms like memory copy.

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