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What (if any) is the C# equivalent of the ASM command "XCHG".

With that command, which imo is a genuine exchange (unlike Interlocked.Exchange), I could simply atomically swap two ints, which is what I am really trying to do.


Sample code based upon my suggestion. Variable suffixed "_V" are decorated as volatile:

// PART 3 - process links
// prepare the new Producer
address.ProducerNew.WorkMask_V = 0;
// copy the current LinkMask
address.ProducerNew.LinkMask_V = address.Producer.LinkMask_V;
// has another (any) thread indicated it dropped its message link from this thread?
if (this.routerEmptyMask[address.ID] != 0)
  // allow all other bits to remain on (i.e. turn off now defunct links)
  address.ProducerNew.LinkMask_V &= ~this.routerEmptyMask[address.ID];
  // reset
  this.routerEmptyMask[address.ID] = 0;
// PART 4 - swap
address.ProducerNew = Interlocked.Exchange<IPC.Producer>(ref address.Producer, address.ProducerNew);
// PART 5 - lazily include the new links, make a working copy
workMask = address.Producer.LinkMask_V |= address.ProducerNew.WorkMask_V;

Note the lazy update.

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Please update your question with the additional details that you have provided in the comments to my answer. It will help others trying to answer your question if they know all the constraints. stackoverflow.com/questions/3855671/… –  Jeff Yates Oct 4 '10 at 13:50
The XCHG instruction would not be the atomic operation you're looking for since there is no XCHG [mem1],[mem2] opcode. You would need three instructions: mov reg,[mem1] XCHG reg,[mem2] mov [mem1],reg –  Skizz Oct 4 '10 at 15:35
@Skizz I had another look at the ASM manual - you're right. Wow. Even in assembler one can't do what I am looking for. –  IanC Oct 4 '10 at 16:28
In reality, it is impossible in any language, even ASM, to atomically swap two variables. One can only exchange a with b atomically, and non-atomically get back a as the result. –  IanC Nov 14 '10 at 15:45
The XCHG link leads to nowhere. –  TheBlastOne Sep 9 '11 at 12:24

8 Answers 8

up vote 20 down vote accepted

Here's kind of a weird idea. I don't know exactly how you have your data structure set up. But if it's possible you could store your two int values in a long, then I think you could swap them atomically.

For example, let's say you wrapped your two values in the following manner:

class SwappablePair
    long m_pair;

    public SwappablePair(int x, int y)
        m_pair = ((long)x << 32) | (uint)y;

    /// <summary>
    /// Reads the values of X and Y atomically.
    /// </summary>
    public void GetValues(out int x, out int y)
        long current = Interlocked.Read(ref m_pair);

        x = (int)(current >> 32);
        y = (int)(current & 0xffffffff);

    /// <summary>
    /// Sets the values of X and Y atomically.
    /// </summary>
    public void SetValues(int x, int y)
        // If you wanted, you could also take the return value here
        // and set two out int parameters to indicate what the previous
        // values were.
        Interlocked.Exchange(ref m_pair, ((long)x << 32) | (uint)y);

Then it seems you could add the following Swap method to result in a swapped pair "atomically" (actually, I don't know if it's fair to really say that the following is atomic; it's more like it produces the same result as an atomic swap).

/// <summary>
/// Swaps the values of X and Y atomically.
/// </summary>
public void Swap()
    long orig, swapped;
        orig = Interlocked.Read(ref m_pair);
        swapped = orig << 32 | (uint)(orig >> 32);
    } while (Interlocked.CompareExchange(ref m_pair, swapped, orig) != orig);

It is highly possible I've implemented this incorrectly, of course. And there could be a flaw in this idea. It's just an idea.

share|improve this answer
+1 for thinking out of the box. –  Rob Vermeulen Oct 5 '10 at 8:02
Damn, why didn't I think of storing the 2 ints in a long! Good one! –  IanC Oct 7 '10 at 9:19
The technique is known from a solution to the ABA problem where you keep an incrementing 'version' counter in the upper 32-bits and your data in the lower 32, to detect ABA failures. See page 536 of Duffy's "Concurrent Programming on Windows." I wrote a managed lock-free dictionary based on 64-bit atomic operations, done entirely on paired 32-bit neighbors like this. –  Glenn Slayden Jul 29 '12 at 21:46
@dantao This idea does work. In fact, I managed to place 3 numbers into a long, and control them using shifts. It's the perfect solution. –  IanC Sep 14 '12 at 12:47
@IanC: Awesome! Normally I look back on answers I posted to SO two years ago and cringe; but it's good to know this idea ultimately proved useful to you (even though I'm sure you had to make significant changes to apply it to your scenario). –  Dan Tao Sep 14 '12 at 13:23

This is the likely implementation for Interlocked.Exchange() in the CLR, copied from the SSCLI20 source:

        _ASSERT_ALIGNED_4_X86 ecx
        mov     eax, [ecx]      ; attempted comparand
        cmpxchg [ecx], edx
        jne     retry1          ; predicted NOT taken
        jmp     retry

It is superior to using XCHG because this code works without taking a bus lock. The odd looking jumping code is an optimization in case branch prediction data is not available. Needless to say perhaps, trying to do a better job than what has been mulled over for many years by very good software engineers with generous helpings from the chip manufacturers is a tall task.

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Indeed. Indubitably. Quite. +1 –  Jeff Yates Oct 4 '10 at 13:52
Why would the jump help if branch prediction data is not available? –  TheBlastOne Sep 8 '11 at 19:13
@the - If it is not available then the processor has to guess. It always guesses at "jump not taken". Which is very likely correct with this code. Very likely wrong if the je instruction were used. Guessing wrong is very expensive because of the pipeline. –  Hans Passant Sep 8 '11 at 19:28
@Hans, so what is the advantage? If prediction is unavailable, wouldn't it be cheapeer to just return? And if it is available, why would one insert a jump solely to force prediction to guess right? When would the jump be taken? jne jumps if ZF is not set, and cmpxchg sets ZF is the operands were equal, right? Sorry for not seeing the probably obvious point. –  TheBlastOne Sep 9 '11 at 7:43
@the - you're not close. Why don't you ask a question about it? –  Hans Passant Sep 9 '11 at 10:34

Why isn't Interlocked.Exchange suitable for you?

If you require the exact memory locations to be swapped then you're using the wrong language and platform as .NET abstracts the memory management away so that you don't need to think about it.

If you must do something like this without Interlocked.Exchange, you could write some code marked as unsafe and do a traditional pointer-based swap as you might in C or C++, but you'd need to wrap it in a suitable synchronisation context so that it is an atomic operation.

You don't need to resort to unsafe code to do a swap atomically. You can wrap the code in a synchronisation context to make it atomic.

lock (myLockObject)
  var x = Interlocked.Exchange(a, b);
  Interlocked.Exchange(b, x);

Update 2
If synchronisation is not an option (as indicated in the comments), then I believe you're out of luck. As you're chasing some unmeasured efficiency, you may want to concentrate elsewhere. If the swapping of two integer values is a huge performance hog, you're probably using the wrong platform.

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@IanC: Why is a lock not appropriate? Perhaps if you're more forthcoming with ALL the details, you can get an answer. Trickling additional constraints as we go is not helpful. –  Jeff Yates Oct 4 '10 at 13:42
@IanC: How do you know it would be more efficient? Seems to me that you're clutching at straws. Please post evidence. –  Jeff Yates Oct 4 '10 at 13:47
@Jeff you are correct. .Net is not the best platform for this one requirement. But it's well suited for the rest of the project. For now, I will have to stick with my current code and see how that goes. –  IanC Oct 4 '10 at 14:21
@Matt: The Interlocked.Exchange is atomic but the assignment to b as well is not. –  Jeff Yates Oct 4 '10 at 14:59
Hm, I have problem with the lock here - it doesn't make the statement inside the code block atomic per-se - only atomicity for it would come from having that same lock elsewhere - access to the variables without it will break that atom just like that... –  Daniel Mošmondor Oct 4 '10 at 22:38

Interlocked.Exchange is really the only thing you can do:

  var x = Interlocked.Exchange(a, b);
  Interlocked.Exchange(b, x);

You are correct that this will not be atomic, but with a local variable used you are guaranteed that the values are consistent as long as both lines execute. Your other options are unsafe code (for using pointers), using p/invoke to a native library, or redesigning so that it's no longer required.

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It has to be atomic. Could you point me to a reference on how to do this with unsafe code? –  IanC Oct 4 '10 at 13:38
Interlocked.Exchange is an atomic operation, however, 2 in a row is not without synchronisation. As indicated in the MSDN documentation - msdn.microsoft.com/en-us/library/… –  Jeff Yates Oct 4 '10 at 13:38
@IanC unsafe c# will not make it any more atomic than that. If you really, really need XCHG, you'll have to write it yourself in c. Not sure transitioning will give you a huge performance edge over a slim lock, though. See something like this: codeproject.com/KB/cs/unmanage.aspx –  Philip Rieck Oct 4 '10 at 14:01
@Jeff Yates Indeed 2 in a row is not atomic - that was my point here. He wants the actual Swapping of two values, not just a change in one value, and I'm saying that this is as close as you can get to it in pure c# –  Philip Rieck Oct 4 '10 at 14:02

According to MSDN, Interlocked.Exchange is atomic.

If it is not suitable for you, you could implement XCHG in an unsafe section using C/C++.

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That would seem to be the only solution. Thanks. –  IanC Oct 4 '10 at 13:49
Without locks, I don't see how unsafe code will work either. Can't make it atomic without some sort of synchronisation. –  Jeff Yates Oct 4 '10 at 14:00
@Jeff Yates You're right on the atomic part. What I wanted to say was that, in the unsafe section, you could use inline assembler to do the XCHG. –  Rob Vermeulen Oct 5 '10 at 8:00

Interlocked.Exchange is best way to swap two int values in a thread safe manner in c#.

Use this class , even you have multiprocessor computer and you never know in which processor your thread is going to run.

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I think I just found the best solution. It is:

Interlocked.Exchange() Method (ref T, T)

All the "new" variables can be set in a class (Of T) and swapped with the current variables. This enables an atomic snapshot to take place, while effectively swapping any number of variables.

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Yes, the only issue I see with this approach is that suddenly you have to put your data in an immutable reference type, which may be overdoing it, depending on how often you're performing swaps. –  Dan Tao Oct 4 '10 at 19:14
@Dan, I don't see any issue with that. This is swapping the pointer only, obviously. It won't affect writing to the object speed. –  IanC Oct 4 '10 at 20:21
@IanC: I just mean that, if I understand you correctly, you would need to create a new object for every swap (like Interlocked.Exchange(pair, new Pair(pair.X, pair.Y))). Maybe that's fine; it just seemed a bit... heavy? Or perhaps I've misunderstood. –  Dan Tao Oct 4 '10 at 20:39
@Dan I would only need to create 2 objects and simply keep swapping the 2 pointers to them. Once the swap is done and the data read, the object could be zero'd and would then be reads to be swapped. You see what I mean? –  IanC Oct 7 '10 at 9:17
@IanC: I guess I assumed you were asking about an atomic swap because you're dealing with multiple threads. The problem with the idea you just described is that your "in-reserve" object could be modified by multiple threads concurrently, and then swapped having invalid values. You could possibly do this without continual object allocation using some sort of pool, but that might end up being overly complex for what should be a simple problem. –  Dan Tao Oct 7 '10 at 13:32

Outside of Interlocked.Exchange, I'm assuming the XCHG command is probably an implementation of the XOR Swap, so you could write your own.

C syntax: (from wikipedia link)

 void xorSwap (int *x, int *y) {
     if (x != y) {
         *x ^= *y;
         *y ^= *x;
         *x ^= *y;

Edit this is not atomic, you would have to synchronize it yourself

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That wouldn't be atomic as per the OP's requirments. –  Jeff Yates Oct 4 '10 at 13:43
XCHG is an x86 CPU instruction and it's atomic in the sense that it cannot be interrupted by another instruction. The XOR swap isn't atomic without adding extra locking on the parameters first. –  Rup Oct 4 '10 at 13:45
+1 for the XOR swap, although it is not an atomic routine. –  Rob Vermeulen Oct 4 '10 at 13:48
@Rup ah, I wasn't aware of the requirement of being atomic. –  Kenny Cason Oct 4 '10 at 13:48

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