Switching to ByteStrings

Question

EDIT: I followed Yuras and Dave4420's advices (Thanks). I still have some errors. Updated the question. Finally I will use meiersi's version (Thanks) but I still want to find my errors...

I have a simple script that goes like this:

import System.Environment

getRow :: Int -> String -> String
getRow n = (!!n) . lines

getField :: Int -> String -> String
getField n = (!!n) . words'

words' :: String -> [String]
words' str = case str of
                        [] -> []
                        _ -> (takeHead " ; " str) : (words' (takeTail " ; " str))

takeHead :: String -> String -> String
takeHead st1 st2 = case st2 of
                                [] -> []
                                _ -> if st1 == (nHead (length st1) st2) then [] else (head st2):(takeHead st1 (tail st2))

takeTail :: String -> String -> String
takeTail st1 st2 = case st2 of
                                [] -> []
                                _ -> if st1 == (nHead (length st1) st2) then nTail (length st1) st2 else takeTail st1 (tail st2)

nTail :: Int -> String -> String
nTail n str = let rec n str = if n == 0 then str else rec (n - 1) (tail str)
              in if (length str) < n then str else rec n str

nHead :: Int -> String -> String
nHead n str = let rec n str = if n == 0 then [] else (head str):(rec (n - 1) (tail str))
              in if (length str) < n then str else rec n str

getValue :: String -> String -> String -> String
getValue row field src = getField (read field) $ getRow (read row) src

main :: IO ()
main = do
    args <- getArgs
    case args of
        (path: opt1: opt2: _) -> do
            src <- readFile path
            putStrLn $ getValue opt1 opt2 src
        (path: _) -> do
            src <- readFile path
            putStrLn $ show $ length $ lines src

It compiles and works. Then I wanted to switch to ByteStrings. Here is my attempt:

import qualified Data.ByteString.Lazy as B
import qualified Data.ByteString.Lazy.Char8 as Bc (cons, empty,unpack)
import qualified Data.ByteString.Lazy.UTF8 as Bu (lines)
import qualified System.Posix.Env.ByteString as Bg (getArgs)

separator :: B.ByteString
separator = (Bc.cons ' ' (Bc.cons ';' (Bc.cons ' ' Bc.empty)))

getRow :: Int -> B.ByteString -> B.ByteString
getRow n = (`B.index` n) $ Bu.lines

getCol :: Int -> B.ByteString -> B.ByteString
getCol n = (`B.index` n) $ wordsWithSeparator

wordsWithSeparator :: B.ByteString -> [B.ByteString]
wordsWithSeparator str = if B.null str then [] else (takeHead separator str):(wordsWithSeparator (takeTail separator str))

takeHead :: B.ByteString -> B.ByteString -> B.ByteString
takeHead st1 st2 = if B.null st2 then B.empty else if st1 == (nHead (toInteger (B.length st1)) st2) then B.empty else B.cons (B.head st2) (takeHead st1 (B.tail st2))

takeTail :: B.ByteString -> B.ByteString -> B.ByteString
takeTail st1 st2 = if B.null st2 then B.empty else if st1 == (nHead (toInteger (B.length st1)) st2) then nTail (toInteger (B.length st1)) st2 else takeTail st1 (B.tail st2)

nTail :: Integer -> B.ByteString -> B.ByteString
nTail n str = let rec n str = if n == 0 then str else rec (n - 1) (B.tail str)
              in if (toInteger (B.length str)) < n then str else rec n str

nHead :: Integer -> B.ByteString -> B.ByteString
nHead n str = let rec n str = if n == 0 then B.empty else B.cons (B.head str)(rec (n - 1) (B.tail str))
              in if (toInteger (B.length str)) < n then str else rec n str

getValue :: B.ByteString -> B.ByteString -> B.ByteString -> B.ByteString
getValue row field = getCol (read (Bc.unpack field)) . getRow (read (Bc.unpack row))

main = do args <- Bg.getArgs
          case (map (B.fromChunks . return) args) of
                                                    (path:opt1:opt2:_) -> do src <- B.readFile (Bc.unpack path)
                                                                             B.putStrLn $ getValue opt1 opt2 src

                                                    (path:_)           -> do src <- B.readFile (Bc.unpack path)
                                                                             putStrLn $ show $ length $ Bu.lines src

It doesn't work. I could not debug it. Here is what GHC tells me:

BETA_getlow2.hs:10:23:
    Couldn't match expected type `GHC.Int.Int64' with actual type `Int'
    In the second argument of `B.index', namely `n'
    In the expression: (`B.index` n)
    In the expression: (`B.index` n) $ Bu.lines

BETA_getlow2.hs:13:23:
    Couldn't match expected type `GHC.Int.Int64' with actual type `Int'
    In the second argument of `B.index', namely `n'
    In the expression: (`B.index` n)
    In the expression: (`B.index` n) $ wordsWithSeparator

Any tips would be appreciated.

Answer 1

getRow n = (!!n) . lines

Compare with

getRow n = B.index . Bu.lines

In the second version you don't use n at all, so it is the same as

getRow _ = B.index . Bu.lines

In the fist example you use n as an argument to the (!!) operator. You need to do the same in the second version.

Looks like it is not the only issue in your code, but I hope it is a good point to start ;)

Answer 2

I'm taking the liberty to interpret the following two sub-questions into your original question.

1. What Haskell code would one typically write for a script like the one you posted.
2. What are the right data structures to efficiently perform the desired functionality.

The following code gives one answer to these two sub-questions. It uses the text library to represent sequences of Unicode characters. Moreover, it exploits the text library's high-level API to implement the desired functionality. This makes the code easier to grasp and thereby avoids potential mistakes in the implementation of low-level functions.

{-# LANGUAGE OverloadedStrings #-}

import qualified Data.Text    as T
import qualified Data.Text.IO as T

import System.Environment (getArgs)

type Table a = [[a]]

-- | Split a text value into a text table.
toTable :: T.Text -> Table T.Text
toTable = map (T.splitOn " ; ") . T.lines

-- | Retrieve a cell from a table.
cell :: Int -> Int -> Table a -> a
cell row col = (!! col) . (!! row)

main :: IO ()
main = do
    (path:rest) <- getArgs
    src <- T.readFile path
    case rest of
        row : col : _ -> T.putStrLn $ cell (read row) (read col) $ toTable src
        _             -> putStrLn $ show $ length $ T.lines src

Answer 3

The first two errors Yuras has resolved for you, I think.

---

Re the 3rd error:

words' :: B.ByteString -> [B.ByteString]
words' str = if B.null str then B.empty else ...

The B.empty should be []. B.empty :: B.ByteString, but the result is supposed to have type [B.ByteString].

---

Re the 4th-7th errors:

• length :: [a] -> Int
• B.length :: B.ByteString -> Int64

In this case I would change the type signatures of nTail and nHead to use Int64 instead of Int. If that didn't work, I'd use Integer on all Integral types, using toInteger to do the conversion.

---

Re the 8th error:

The input to read must be a String. There's no getting round that. You'll have to convert the B.ByteString to a String and pass that to read.

(Incidently, are you sure you want to switch to ByteString and not Text?)

---

Re the 9th (final) error:

args :: [Data.ByteString.ByteString] (n.b. a list of strict bytestrings, not the lazy bytestrings you use elsewhere) but in the pattern match you expect args :: B.ByteString for some reason.

You should pattern match on a [ByteString] the same way you pattern match on a [String]: they are both lists.

Convert args to something of type [B.ByteString] with map (B.fromChunks . return) args.