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Question about threading to satisfy my curiosity...

Let's say I have static variable _status (ProgressStatus) and many threads are reading from this. To update this static variable I use an immutable object ProgressStatus, create a new instance and then swap out the reference.

var status = new ProgressStatus (50, "Working on it"); //plus many more fields in constructor

lock (_statusLocker) _status = status; // Very brief lock

Here's the reader code

public GetProgressStatus () {

     var status = new ProgressStatus (_status.ID, _status.Description); 
     return status }

What's the worst that could happen if I don't apply the lock?

share|improve this question
It's important for you to show us the reader code as well. Btw, the immutability of the object doesn't solve everything, nor does the fact that assigning a reference is atomic. Console.WriteLine(status.Progress + ", " + status.Text) could still produce something like "50, Complete" if the reference is changed by another thread in the middle of the operation. I guess you'll have to decide if that sort of inconsistency is acceptable. – Ani Nov 26 '10 at 14:39
Good point. As I wrote the reader code I realised this too - lol – Mark 909 Nov 26 '10 at 14:52
up vote 7 down vote accepted

It's possible that other threads won't see the new value.

Indeed, unless they're locking too, it's still possible that they won't see the new value.

Even though the reference will updated atomically (i.e. it'll never be some value which is a mixture of the old and new values), that says nothing about when the change becomes visible to other threads - or when other threads will even bother checking. (For example, one thread may have cached the value in a register, and without any indication that the thread needs to check main memory, it may not do so.)

It's possible that by declaring the variable as volatile you'll avoid this - but I've stopped believing that I understand exactly what volatile means, to be honest.

Using a lock consistently when working with shared mutable data (reading or writing) makes this problem go away due to the semantics of locking. Doing it in a lock-free and guaranteed-correct way involves considerably deeper understanding of what's going on. (Note that it's the variable which is mutable here, even if the object it refers to isn't.)

share|improve this answer
So true about volatile. Spent countless of hours trying to get a 100% accurate understanding of it, but I'm still not sure I get it. – cwap Nov 26 '10 at 14:51
I had a look at volatile a few days ago (…), and I couldn't find any documentation on it that wasn't contradictory or misleading. In particular, the CLR docs on the volatile. prefix seem to be completely different to what the C# spec says on volatile. It would be nice to get the 'official' view from a Microsoft CLR person at some point... – thecoop Nov 26 '10 at 14:57
@thecoop: Yeah. I used to go with the idea that a write to a volatile variable immediately went to main memory, and a read always came from main memory, effectively. I don't think it's that simple, and I get very confused :( Best left to the experts, IMO. – Jon Skeet Nov 26 '10 at 15:00
In my code, I'm actually trying to read from a Dictionary object. So potentially my update code will out the Dictionary object as it's being read (by some internal routines in the dictionary object) , and I guess might yield unexpected results – Mark 909 Nov 26 '10 at 15:13
@Mark 909: If it's a plain Dictionary<TKey, TValue> then that's not thread-safe anyway. – Jon Skeet Nov 26 '10 at 15:23

You may get a race condition if your program relies on this value getting updated in a predictable manner.

Here's a good 'lock-free' function:

static void LockFreeUpdate<T>(ref T field, Func<T, T> updateFunction)
    where T : class
    var spinWait = new SpinWait();
    while (true)
        T snapshot1 = field;
        T calc = updateFunction(snapshot1);
        T snapshot2 = Interlocked.CompareExchange(ref field, calc, snapshot1);
        if (snapshot1 == snapshot2) return;

I cant take the credit, I found it on the web

share|improve this answer

You shouldn't need the lock in this case, since changing a reference is an atomic operation.

share|improve this answer
Atomicity != volatility. – Jon Skeet Nov 26 '10 at 14:39
I don't understand why this comment has been marked down, can anyone explain? Seems reasonable to me – Mark 909 Nov 26 '10 at 15:11
@Mark 909: Because it's incorrect as explained in my comment. Just because the update is atomic doesn't mean the lock (or some other memory barrier) isn't required. – Jon Skeet Nov 26 '10 at 15:24
More specifically, if _status isn't marked volatile, other threads might not see the change in value right away. I had assumed it was already volatile when I wrote my answer, which is not the most brilliant assumption I've made. Anyway, it appears that volatile may not even accomplish what it's documented to, as per Jon Skeet's answer. – ShZ Nov 26 '10 at 16:59

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