The following program terminates correctly:
import System.Random randomList = mapM (\_->getStdRandom (randomR (0, 50000::Int))) [0..5000] main = do randomInts <- randomList print $ take 5 randomInts
$ runhaskell test.hs [26156,7258,29057,40002,26339]
However, feeding it with an infinite list, the program never terminates, and when compiled, eventually gives a stack overflow error!
import System.Random randomList = mapM (\_->getStdRandom (randomR (0, 50000::Int))) [0..] main = do randomInts <- randomList print $ take 5 randomInts
$ ./test Stack space overflow: current size 8388608 bytes. Use `+RTS -Ksize -RTS' to increase it.
I expected the program to lazily evaluate
getStdRandom each time I pick an item off the list, finishing after doing so 5 times. Why is it trying to evaluate the whole list?
Is there a better way to get an infinite list of random numbers? I want to pass this list into a pure function.
EDIT: Some more reading revealed that the function
randomList r = do g <- getStdGen return $ randomRs r g
is what I was looking for.
EDIT2: after reading camccann's answer, I realized that
getStdGen is getting a new seed on every call. Instead, better to use this function as a simple one-shot random list generator:
import System.Random randomList :: Random a => a -> a -> IO [a] randomList r g = do s <- newStdGen return $ randomRs (r,g) s main = do r <- randomList 0 (50::Int) print $ take 5 r
But I still don't understand why my
mapM call did not terminate. Evidently not related to random numbers, but something to do with
For example, I found that the following also does not terminate:
randomList = mapM (\_->return 0) [0..] main = do randomInts <- randomList print $ take 50000 randomInts
What gives? By the way, IMHO, the above
randomInts function should be in
System.Random. It's extremely convenient to be able to very simply generate a random list in the IO monad and pass it into a pure function when needed, I don't see why this should not be in the standard library.