I want to write a function that takes a time limit (in seconds) and a list, and computes as many elements of the list as possible within the time limit.
My first attempt was to first write the following function, which times a pure computation and returns the time elapsed along with the result:
import Control.DeepSeq import System.CPUTime type Time = Double timed :: (NFData a) => a -> IO (a, Time) timed x = do t1 <- getCPUTime r <- return $!! x t2 <- getCPUTime let diff = fromIntegral (t2 - t1) / 10^12 return (r, diff)
I can then define the function I want in terms of this:
timeLimited :: (NFData a) => Time -> [a] -> IO [a] timeLimited remaining  = return  timeLimited remaining (x:xs) = if remaining < 0 then return  else do (y,t) <- timed x ys <- timeLimited (remaining - t) xs return (y:ys)
This isn't quite right though. Even ignoring timing errors and floating point errors, this approach never stops the computation of an element of the list once it has started, which means that it can (and in fact, normally will) overrun its time limit.
If instead I had a function that could short-circuit evaluation if it had taken too long:
timeOut :: Time -> a -> IO (Maybe (a,t)) timeOut = undefined
then I could write the function that I really want:
timeLimited' :: Time -> [a] -> IO [a] timeLimited' remaining  = return  timeLimited' remaining (x:xs) = do result <- timeOut remaining x case result of Nothing -> return  Just (y,t) -> do ys <- timeLimited' (remaining - t) xs return (y:ys)
My questions are:
- How do I write
- Is there a better way to write the function
timeLimited, for example, one that doesn't suffer from accumulated floating point error from adding up time differences multiple times?