# Inefficient random list generator

The following works but is terribly inefficient.
I suspect it is my use of list concatenation that is the cause.

``````import Control.Parallel.Strategies   (runEval, rpar)
import Data.Text                     (Text)
import qualified Data.Text.IO as T   (writeFile)
import Text.InterpolatedString.Perl6 (qq)
-- random data imports
import Crypto.Random.AESCtr          (makeSystem)
import System.Random                 (split, randomR, randomRs)

-- |This function picks a random element from a list
-- choose :: RandomGen g => g      -- ^ random generator
--                       -> [a]    -- ^ list to be taken from
--                       -> (a, g) -- ^ random pick
choose g lst = let ra = randomR (0::Int, length lst -1) g
in  (lst !! fst ra, snd ra)
``````

and

``````-- |This function generates a set of french SSN numbers
-- http://mon-convertisseur.fr/calculateur-cle-numero-securite-sociale.php
-- sans check digits
-- genFrSSN :: RandomGen g => g      -- ^ random generator
--                         -> [Text] -- ^ list of data
where
(sex, g1)    = choose g [1..2]
(yBirth, g2) = choose g1 [70..99]
(mBirth, g3) = choose g2 [10..12]
(depart, g4) = choose g3 [21..95]
commune      = 999
(numOrd, g5) = randomR (100::Int, 300) g4
-- using interpolatedstring-perl6
-- because for some other generator I may have not have only Int data
fin          = [qq|\$sex\$yBirth\$mBirth\$depart\$commune\$numOrd|] :: Text
``````

which I rewrote in

``````genFrSSN g = runEval \$ do
a <- rpar [fin]
b <- rpar \$ genFrSSN (snd sx)
return (a ++ b)
where
sx           = split g
(sex, g1)    = choose (fst sx) [1..2]
(yBirth, g2) = choose g1 [70..99]
(mBirth, g3) = choose g2 [10..12]
(depart, g4) = choose g3 [21..95]
commune      = 999
(numOrd, _) = randomR (100::Int, 300) g4
fin          = [qq|\$sex\$yBirth\$mBirth\$depart\$commune\$numOrd|] :: Text
``````

But then instead of being low I simply run out of memory and cpu is overused. The generator is supposed to give me an infinite list out of which I will take variable number of elements.
I use lists because of [Char] which is convenient when having multiple data input

Fistly, how do I get rid of (++)? And secondly please criticize.

-
You can omit the `++` by constructing the reversed list and then call `reverse`. But I don't think that this causes your performance problem. – Boldizsár Németh Sep 5 '13 at 9:02
If performance matters then use one of the MT implementations, not the `random` package. – Thomas M. DuBuisson Sep 5 '13 at 13:46
I searched on hoogle but did not find any MT packages. Maybe the mersenne-pure94? – rakwatt Sep 6 '13 at 14:10

1

The `++` is not a problem. It looks like you only ever use it to prepend single element lists anyway.

2

Why not just `randomR (70,99)` instead of `choose g [70..99]`? That's just useless inefficiency. You can do so whenever you want to pick from a range of values in an `Enum` type. But in the general case, you can only improve the efficiency of `choose` (when you really need it) by making it work on a data structure with O(1) `length` and `(!!)` instead of lists.

3

The problem lies with the parallel evaluation. I am not familiar enough with that stuff to help you out there, but when I try compiling your program without the `-threaded` option, it runs quickly and with low, constant memory. Using `-threaded`, I get an out of memory error. I don't know why that is, but I don't think you should parallelize this stuff in the first place. The task is not inherently parallel.

-
Yeah, I had a punctual need for choose (not ranged list) and I ended up I don't know why using it anywhere. – rakwatt Sep 5 '13 at 10:31
Perf have improved a little bit but I is not the up to its counterparts in perl (I had to do one generator in perl due to convenience) – rakwatt Sep 5 '13 at 10:33
If you want to get performance up to par with Perl, you should post both source codes for comparison. This could justify a new question. – Mike Hartl Sep 5 '13 at 11:53
It is not mandatory to have perf corelation. But since one is compiled and the other interpreted, I did not expect a gap. Both algorithms being naive. Will post some benchmark when I have some time. – rakwatt Sep 6 '13 at 14:13