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Here is a Java example problem from http://www.ibm.com/developerworks/java/library/j-dcl/index.html

public static Singleton getInstance()
{
  if (instance == null) //#4
  {
    synchronized(Singleton.class) {  //#1
      if (instance == null)          //#2
        instance = new Singleton();  //#3
    }
  }
  return instance;
}

It seems this isn't safe because #3 can set instance to not null before the constructor is executed thus when another thread checks instance on #4 it will not be null and return a instance that hasn't been constructed properly.

Apparently using a function variable wont help because it may be optimized out or just be executed in a way that also sets the value to instance when we don't want it to.

I was thinking wouldn't the easiest way is to have a function new Singleton(); so it is completed before assigning it to instance. Now the issue is how do I tell C++ a function should NOT be inline? I think Singleton* make_singleton() volatile should do that but i'm positive I am wrong.

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marked as duplicate by Christian.K, stijn, K-ballo, Kay, deepmax May 10 '13 at 11:52

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

    
I'm a little confused. The article and code in your question are about Java, and then you're talking about C++11. Are you trying to figure out how to implement this idiom in C++? If so, the article you linked already talks about why the Java version won't work. What does your C++ function look like? –  Gian May 7 '13 at 6:27
    
I'm afraid you'll just keep attracting downvotes from people who lack reading comprehension and think that you're talking about Java. –  congusbongus May 7 '13 at 6:32
1  
Just don't use a singleton. :) –  GManNickG May 7 '13 at 6:33
    
@GManNickG: :D I NEVER do. It just bugged me that new might have a problem when working with threads –  acidzombie24 May 7 '13 at 6:39

2 Answers 2

up vote 25 down vote accepted

I'll ignore the singleton bits for a while and assume you need this for lazy initialization and not for silly things like singletons.

I suggest forgetting about double-checked locking. C++ provides a very useful tool for this kind of situation in the form of std::call_once, so use that.

template <typename T>
struct lazy {
public:
    // needs constraining to prevent from doing copies
    // see: http://flamingdangerzone.com/cxx11/2012/06/05/is_related.html
    template <typename Fun>
    explicit lazy(Fun&& fun) : fun(std::forward<Fun>(fun)) {}

    T& get() const {
         std::call_once(flag, [this] { ptr.reset(fun()); });
         return *ptr;
    }
    // more stuff like op* and op->, implemented in terms of get()

private:
    std::once_flag flag;
    std::unique_ptr<T> ptr;
    std::function<T*()> fun;
};

// --- usage ---

lazy<foo> x([] { return new foo; });
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I would suggest using call_once rather than std::call_once. It doesn't make a difference here, but one should generally prefer to call functions unqualified to allow ADL to take effect. Since flag is of type std::once_flag, namespace std will be an associated namespace, making the std:: unnecessary. –  Adam H. Peterson May 7 '13 at 15:25
20  
Erm. No. One should generally prefer whatever achieves one's goal. I want to call std::call_once and only that, not anything else, making std:: absolutely crucial to ensure that. –  R. Martinho Fernandes May 7 '13 at 15:29
    
I agree that works in this case, and it's mostly a style thing. However, I see a lot of people call std::swap, which is usually wrong (especially in template code) because it suppresses ADL. That's why I suggest always calling functions unqualified, unless there's a specific need to control exactly which function is called and ADL would do the wrong thing. Since here ADL will pick std::call_once, my recommendation is to not suppress ADL. –  Adam H. Peterson May 7 '13 at 16:15
5  
@AdamH.Peterson the case for unqualified calling swap is quite different from that of other functions from the Standard Library. swap could be part of a user-defined class interface and generic code should find it, and fall back to std::swap otherwise. But this almost never applies to any other algorithm from the Standard Library, and they should always be called with std::. Especially if you are a library author, not using std:: introduces unintended points of customization (your code will subtly break if users define functions with the same name). –  TemplateRex May 10 '13 at 12:32
1  
@Dave no, that cannot happen. See the docs for call_once: "No invocation in the group returns before the abovementioned execution of the selected function is completed successfully, that is, doesn't exit via an exception." –  R. Martinho Fernandes May 10 '13 at 15:21

This is exactly the type of situation atomics are designed for. By storing the result into an atomic, you know that the compiler can't sequence any critical stores or operations after the atomic is set. Atomics are both for emitting processor instruction primitives to ensure the necessary sequential consistency (e.g., for cache coherency across cores) and for telling the compiler which semantics must be preserved (and therefore to limit the types of reorderings it can do). If you use an atomic here, it won't matter if the function is inlined because whatever inlining the compiler does will have to preserve the semantics of the atomic itself.

You may also be interested in looking into std::call_once which is also designed for this situation, and more specifically for the situation where multiple threads may need something done, but exactly one of them should do it.

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