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I have multiple threads processing events. I want to assign a nanosecond timestamp to each event. It must be a unique id, though. So, in the odd case that two events arrive such that they would be assigned the same timestamp, I want one of them to be incremented by one nanosecond. Given that the real precision is not at the nanosecond level, that's ok as far as the time stamp nature of the system.

In one thread, this is a trivial problem. But across multiple threads, it gets more challenging. Performance is absolutely critical so the idea of naively synchronizing on a typical id generator type of thing seems like it would block far too much.

Is there some approach that solves this with minimal or no locking?

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5 Answers

up vote 1 down vote accepted

You can use atomicModifyIORef to implement an atomic counter. With GHC, it's implemented using atomic operations, not locks.

import Data.IORef
import System.IO.Unsafe

counter :: IO Int
counter = unsafePerformIO $ newIORef 0

getUnique :: IO Int
getUnique = atomicModifyIORef counter $ \x -> let y = x + 1 in (y, y)
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@ehird: Please do not make nontrivial changes to my post, post a comment instead if you have something to add. –  Dietrich Epp Jan 29 '12 at 12:20
    
Sorry, I felt the change I was making was trivial enough but then saw an additional two errors before saving. Currently, getUnique always returns , and counter could be inlined into other expressions, duplicating the variable and breaking the code. Additionally, if both these were fixed, then getUnique would have a space leak caused by thunks building up on successive executions. (BTW, the standard Data.Unique module actually provides this API already.) –  ehird Jan 29 '12 at 12:24
    
@ehird: That's exactly the kind of information I wanted to know, thanks. –  Dietrich Epp Jan 29 '12 at 12:26
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Why not separate the concerns of timestamping and unique ID generation? For example, there's the standard module Data.Unique, which provides a global supply of unique values in IO and should be fast enough for most purposes. Or, if you need something fancier, the concurrent-supply package offers a high-performance, concurrent unique ID supply with a pure interface.

That said, you could probably use the POSIX monotonic clock for this purpose, using e.g. the clock package:

import Control.Monad
import qualified System.Posix.Clock as Clock

main :: IO ()
main = replicateM_ 100 $ do
  time <- Clock.getTime Clock.Monotonic
  print (Clock.sec time, Clock.nsec time)
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Does it high enough performance? –  augustss Jan 29 '12 at 8:34
    
@augustss: The POSIX monotonic clock? I'm not sure. If it isn't fast enough, that's another good reason to decouple timestamping and ID generation. –  ehird Jan 29 '12 at 8:44
    
@ehird will a Unique ID in the was created at time b in all cases have a higher value than a Unique ID that was created at time a (earlier)? –  J Fritsch Jan 29 '12 at 12:11
    
@JFritsch: Unique is based on an Integer increased atomically, so yes. (Although technically you can only get an Int out of that, so only the Eq and Ord instances can distinguish pre- and post-wrap-around values, but on a 64-bit machine that won't be a problem.) –  ehird Jan 29 '12 at 12:20
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Could you use two pieces of information as the unique id? If so, give each thread a unique id and record for each event the nanosecond timestamp and the id of the thread that assigns the timestamp. Then the problem reduces to whatever you would have done in the single threaded case to guarantee the uniqueness of the timestamps. And with no synchronisation at all after initialisation.

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In C based languages, we'd normally accomplish this using an atomic counter -- no lock is required. If you want a timestamp too, that would be a separate value. I'm not sure about Haskell because I don't write with it (as interesting as it sounds).

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Welcome to Stack Overflow! Whilst this may theoretically answer the question, it would be preferable to include the essential parts of the answer here, and provide the link for reference. –  oers Jan 30 '12 at 12:12
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