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(After asking this related question , I still have a question.)

The whole idea(AFAIK) with Lazy<T> , is to create the object only when we need it. Why ? becuase it's expensive to create.

The last thing I would want is that the Expensive object will be created >1 times.

I don't care if many threads will eventually yields the same reference. I just don't want them to create more than one instance.

so Lazyinitializer handle this by syncLock:

LazyInitializer.EnsureInitialized (ref _expensive, ref useless, ref _sync, () => new Expensive());

But how does Lazy<T> can handle it ? I've searched in msdn and couldnt find any syncLock overload ...

What am I missing ?

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2 Answers 2

up vote 3 down vote accepted

Are you asking how Lazy works internally? Lazy does guarantee that only one will ever be created, as per the MSDN documentation:

By default, Lazy objects are thread-safe. That is, if the constructor does not specify the kind of thread safety, the Lazy objects it creates are thread-safe. In multi-threaded scenarios, the first thread to access the Value property of a thread-safe Lazy object initializes it for all subsequent accesses on all threads, and all threads share the same data. Therefore, it does not matter which thread initializes the object, and race conditions are benign.

If you are in fact asking how it works internally, it seems to be using a lock of some sort:

        object obj = Volatile.Read<object>(ref this.m_threadSafeObj);
        bool flag = false;
            if (obj != Lazy<T>.ALREADY_INVOKED_SENTINEL)
                Monitor.Enter(obj, ref flag);
            if (this.m_boxed == null)
                boxed = this.CreateValue();
                this.m_boxed = boxed;
                Volatile.Write<object>(ref this.m_threadSafeObj, Lazy<T>.ALREADY_INVOKED_SENTINEL);
                boxed = (this.m_boxed as Lazy<T>.Boxed);
                if (boxed == null)
                    Lazy<T>.LazyInternalExceptionHolder lazyInternalExceptionHolder = this.m_boxed as Lazy<T>.LazyInternalExceptionHolder;
            if (flag)

Notice the Monitor.Enter and Monitor.Exit calls.

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While it is using Monitor, it isn't doing so in what I would call a "simple" way. – Marc Gravell Dec 2 '12 at 5:37
Noted :) Updated.... – BFree Dec 2 '12 at 5:38

Sounds like you want to look at the constructor overloads which take a LazyThreadSafetyMode.

Lazy<T> lazy = new Lazy<T>(() => new T, LazyThreadSafetyMode.ExecutionAndPublication);

Lazy<T> is basically a user-friendly version of LazyInitializer, with the exact implementation of single- or multi-threaded init being hidden behind that enum.

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wt* ? was it so hard to add syncobj like they created in LazyInitializer? – Royi Namir Dec 2 '12 at 5:35
Lazy<T> with ExecutionAndPublication is equivalent to LazyInitializer with syncLock. You will only ever get one instance. – Cory Nelson Dec 2 '12 at 5:38
@Royi often it isn't about whether something is "hard" (although that can be a factor) - it is: is it needed? is it useful? I'm guessing it failed one of those two. The monitor usage inside Lazy-of-T is quite subtle. – Marc Gravell Dec 2 '12 at 5:39
But according to @bfree - Lazy<T> do it automatically...? – Royi Namir Dec 2 '12 at 5:39
The default ctor specifies ExecutionAndPublication. Bfree is correct, you can just use the default ctor. – Cory Nelson Dec 2 '12 at 5:42

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