From what I understand, modifications to
IORefs are very quick, all they involve is updating a thunk pointer. Of course, the reader (i.e. someone who wants to see the value on their webpage) will then need to take time to evaluate these thunks (which may build up if writers are not reading back the results).
I was thinking it would be good to start actually evaluating the modification thunks on the
IORef in parallel, since in many circumstances they'll probably have to be evaluated at some point anyway (obviously, this will break with infinite data structures).
So I've wrote the following function, with a similar signature to
atomicModifyIORefPar :: (NFData a) => IORef a -> (a -> (a, b)) -> IO b atomicModifyIORefPar ioref f = let g olddata = let (newdata, result) = f olddata in (newdata, (result, newdata)) in do (result, newdata) <- atomicModifyIORef ioref g force newdata `par` return result
This seems to work (test code here). Is there anything I've done wrong here? Or is there a better way to do this?
Edit: Second attempt
Inspired by Carl's answer below. We actually store
force newdata into the
IORef. This is the same as
newdata anyway, but shows the runtime that we want to keep
force newdata for later, so it doesn't garbage collect the spark.
atomicModifyIORefPar :: (NFData a) => IORef a -> (a -> (a, b)) -> IO b atomicModifyIORefPar ioref f = let g olddata = let (newdata, result) = f olddata newdata_forced = force newdata in (newdata_forced, (result, newdata_forced)) in do (result, newdata_forced) <- atomicModifyIORef ioref g newdata_forced `par` return result