Recently I was trying to determine the time needed to calculate a waveform using the vector storage type.
I wanted to do so without requiring to print the length or something like that. Finally I came up with the following two definitions. It seems simple enough, and from what I can tell it prints a non-zero computation time as expected the first time I run the function, but I'm wondering if there are any laziness caveats here that I've missed.
import System.IO import System.CPUTime import qualified Data.Vector.Storable as V timerIO f = do start <- getCPUTime x <- f let !y = x end <- getCPUTime let diff = (fromIntegral (end - start)) / (10^12) print $ "Computation time: " ++ show diff ++ " sec\n" timer f = timerIO $ do return f main :: IO () main = do let sr = 1000.0 time = V.map (/ sr) $ V.enumFromN 0 120000 :: V.Vector Float wave = V.map (\x -> sin $ x * 2 * pi * 10) time :: V.Vector Float timer wave timer wave
Computation time: 0.16001 sec Computation time: 0.0 sec
Are there any hidden bugs here? I'm really not sure that the
let with strictness flag is really the best way to go here. Is there a more concise way to write this? Are there any standard functions that already do this that I should know about?
Edit: I should mention that I had read about criterion but in this case I was not looking for a robust way to calculate average timing for profiling-only purposes; rather I was looking for a simple / low-overhead way to integrate single timers into my program for tracing the timing of some computations during normal running of the application. Criterion is cool, but this was a slightly different use case.