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It is a common knowledge that one does not use [Char] to read large amounts of data in Haskell. One uses ByteStrings to do the job. The usual explanation for this is that Chars are large and lists add their overhead.

However, this does not seem to cause any problems with the output.

For example the following program:

main = interact $ const $ unwords $ map show $ replicate 500000 38000000

takes just 131 ms to run on my computer, while the following one:

import Data.List

sum' :: [Int] -> Int
sum' = foldl' (+) 0

main = interact $ show . sum' . map read . words

takes 3.38 seconds if fed the output of the first program as an input!

What is the reason for such a disparity between the input and output performance using Strings?

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My quick profiling shows that the input program allocates 13 times more memory than the output program. This surely contributes to the disparity. –  n.m. Sep 22 '11 at 8:25
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1 Answer

up vote 10 down vote accepted

I don't think that this issue necessarily has to do with I/O. Rather, it demonstrates that the Read instance for Int is pretty inefficient.

First, consider the following program which just processes a lazy list. It takes 4.1s on my machine (compiled with -O2):

main = print $ sum' $ map read $ words
        $ unwords $ map show $ replicate 500000 38000000

Replacing the read function with length drops the time down to 0.48s:

main = print $ sum' $ map length $ words
        $ unwords $ map show $ replicate 500000 38000000

Furthermore, replacing the read function with a handwritten version results in a time of 0.52s:

main = print $ sum' $ map myread $ words
        $ unwords $ map show $ replicate 500000 38000000

myread :: String -> Int
myread = loop 0
    loop n [] = n
    loop n (d:ds) = let d' = fromEnum d  - fromEnum '0' :: Int
                        n' = 10 * n + d'
                    in loop n' ds

My guess as to why read is so inefficient is that its implementation uses the Text.ParserCombinators.ReadP module, which may not be the fastest choice for the simple case of reading a single integer.

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Oh, so the main reason not to use Strings doesn't have anything to do with Strings. This is so unfair. –  Rotsor Sep 22 '11 at 13:16
To be fair, read does a few things that myread doesn't: error checking, whitespace skipping, negative numbers, hexadecimals, octals, and even (surprise!) exponential notation. –  Daniel Wagner Sep 22 '11 at 13:17
How does one write octals for read? I hope it's not prefix a number with 0. –  Rotsor Sep 22 '11 at 13:20
@Rotsor Octals for read are the same as octals in literal Haskell syntax: 0o32 = 26. –  Daniel Wagner Sep 22 '11 at 13:21
@Daniel, it turns out read "((((8))))" works too! :) –  Rotsor Sep 23 '11 at 0:08
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