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I've been reading this book from Joseph Albahari about threading:

In Part 2, I found this example:

Here is the aforementioned example:

class ThreadUnsafe
  static int _x;
  static void Increment() { _x++; }
  static void Assign()    { _x = 123; }

Thread-safe version:

class ThreadSafe
  static readonly object _locker = new object();
  static int _x;

  static void Increment() { lock (_locker) _x++; }
  static void Assign()    { lock (_locker) _x = 123; }

I couldn't understand why Assign method is not thread safe. Shouldn't integer assignment be atomic operation on both 32- and 64-bit architectures?

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2 Answers 2

up vote 8 down vote accepted

The assignment is atomic in that any reading thread will either see 123 or the previous value - not some intermediate value. However, there's no guarantee that a thread will see the new value until there have been two memory barriers: a write memory barrier in the writing thread, and a read memory barrier in the reading thread.

If you had two threads like this (after making _x public or internal, so that it could be read from other types of course - or with the code in the ThreadSafe class anyway):

// Thread 1
Console.WriteLine("Writing thread starting");
Console.WriteLine("Writing thread done");

// Thread 2
Console.WriteLine("Reading thread starting");
while (ThreadSafe._x != 123)
    // Do nothing
Console.WriteLine("Reading thread done");

... there's no guarantee that thread 2 would ever finish, because thread 2 might not "see" the assignment from thread 1.

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Could you please explain this while loop? If thread 1 always keeps assigning 123 to _x, what else could Thread 2 read from it? –  Ivan Mar 12 '14 at 11:45
Added the original code, to clarify the question. –  Lepi Perke Mar 12 '14 at 11:46
@Ivan: What about it? It's just trying to loop until thread 2 "sees" the assignment of 123 to _x. The point is that it might never "see" that change. –  Jon Skeet Mar 12 '14 at 11:46
I'd expect that eventually the change of one memory location is going to become visible to the other thread as well (after cpu synchronizes memory caches). I don't really understand how can it happen that one thread never sees the change although its actively reading from that memory location. –  Ivan Mar 12 '14 at 12:02
@Ivan: Suppose the second thread's code copies the value into a register, and then keeps just using that register. That's entirely legal under the .NET memory model. –  Jon Skeet Mar 12 '14 at 12:03

I couldn't understand why Assign method is not thread safe.

static void Increment() { lock (_locker) _x++; }
static void Assign()    { lock (_locker) _x = 123; }

Assign() would be safe without locks. But only in isolation.

Without the lock in Assign(), Increment() still wouldn't be safe. You can't make Increment() safe by itself, you need to lock around all code that changes _x.

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In the aforementioned article, author states: "In the following class, neither the Increment nor the Assign method is thread-safe", so I understood that they are individually not thread-safe. Maybe I assumed something that was not clearly said. If so, your answer clarifies to me use of lock in Assign method. –  Lepi Perke Mar 12 '14 at 12:08
Assign() is atomic, every other notion of 'thread-safety' is with the calling code. But Increment() always involves 2 ops on the same variable. You need to protect all actions on that var to to be able to call Increment thread-safe. –  Henk Holterman Mar 12 '14 at 12:11
Disagree at least to some degree. Visibility guarantees are also an important part of "thread-safety", so in my opinion the code would only be thread-safe if _x was volatile or we introduced the necessary memory barriers after the write ourselves. –  Voo Mar 12 '14 at 12:48

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