I've been trying to learn functional parsing in Haskell, and as an exercise I want to write a simple tuple parser, using the functions
Text.ParserCombinators.ReadP. Essentially I want
tupleAsIntPair :: ReadP (Int, Int), which when parsed using
ReadP_to_S takes a string such as
"(3,4)" and returns the pair of integers
(3,4) boxed in a
ReadS. Currently I have:
import Text.ParserCombinators.ReadP isNumericOrSep :: Char -> Bool isNumericOrSep = flip elem $ "0123456789-, " tuplify2 :: [Int] -> (Int, Int) tuplify2 [x,y] = (x,y) tupleAsIntPair :: ReadP (Int, Int) tupleAsIntPair = fmap tuplify2 parsedList where parsedList = fmap (map read) $ sepBy1 noparens sep noparens = between open close $ many1 (satisfy isNumericOrSep) open = char '(' close = char ')' sep = char ','
However, when I try to run
(readP_to_S tupleAsIntPair) "(3,4)", I get a no parse error. On the other hand, if I define
noparens globally and run
(readP_to_S noparens) "(3,4)", I get
[("3,4","")] and if I run
(readP_to_S $ sepBy1 (many1 $ satisfy isNumericOrSep) sep) "3,4", I get a list
[(["3"],",4"),(["3,"],"4"),(["3","4"],""),(["3,4"],"")], so at least the parser
sepBy1 is doing something, even though I only want the third parsing.
I think I'm composing the two parsers
sepBy1 incorrectly, or maybe
sepBy1 is not doing what I think it should. How do I actually implement this tuple parser? I would also appreciate any stylistic advice (e.g.,
tuplify2 bugs me a little).