1

I'm very new to Haskell. I'd like to be able to find some color expressions in a string. So let's say I have this list of expressions: 

colorWords = ["blue", "green", "blue green"]

And I want to be able to get the locations of all of those, anywhere in a string, even if it's broken up by a linebreak, or if a hyphen separates it instead. So given a string like: 

First there was blue     
and then there was Green,     
and then blue    
green all of a sudden, and not to mention blue-green

It should give the character offsets for "blue" (line one), "green" (line two), and "blue green" (lines 3-4) and "blue-green" (line 4), something like: 

[("blue", [20]), ("green", [40]), ("blue green", [50, 65])]

I can do this with regexes, but I've been trying to do it with a parser just as an exercise. I'm guessing it's something like: 

import Text.ParserCombinators.Parsec

separator = spaces <|> "-" <|> "\n"

colorExp colorString = if (length (words colorString))>1 then 
  multiWordColorExp colorString
  else colorString

multiWordColorExp :: Parser -> String
multiWordColorExp colorString = do
  intercalate separator (words colorString)

But I have no idea what I'm doing, and I'm not really getting anywhere with this.

Improve this question
5
  • 1
    String search algorithms don't require a parser - is there a reason you're looking to solve this using parsec? Look up Boyer-Moore, for example, or Knuth Morris Pratt. If performance doesn't matter then you can just do the naive thing and check isPrefixOf, then drop a character and repeat.
    – Thomas M. DuBuisson
    Aug 27, 2019 at 8:21
  • @ThomasM.DuBuisson The OP does say: ‘I’ve been trying to do it with a parser just as an exercise’.
    – bradrn
    Aug 27, 2019 at 9:11
  • 2
    Parsers are most suitable when you can make sense of all the input data. They're not as great at extracting a little signal from a lot of noise. Certainly it's still possible, but it's not really their strong suit.
    – amalloy
    Aug 27, 2019 at 16:11
  • For turning a list of strings into a parser, you might like this question. It isn't hard to turn it case-insensitive and spaces-or-hyphens-insensitive; then just use sepBy or similar to iterate it.
    – Daniel Wagner
    Aug 27, 2019 at 17:05
  • This is a good question and should not be downvoted. It is totally natural to want to do pattern-matching search with parsers, and good answers exist.
    – James Brock
    Sep 2, 2019 at 3:41

1 Answer 1

Reset to default
1

We can find substring locations with a parser by using the sepCap combinator from replace-megaparsec.

Here's a solution to your example problem. Requires packages megaparsec, replace-megaparsec, containers. References: string' choice getOffset try from Megaparsec.

import Replace.Megaparsec
import Text.Megaparsec
import Text.Megaparsec.Char
import Data.Maybe
import Data.Either
import Data.Map.Strict as Map

let colorWords :: Parsec Void String (String, [Int])
    colorWords = do
            i <- getOffset
            c <- choice
                [ try $ string' "blue" >>
                        anySingle >>
                        string' "green" >>
                        pure "blue green"
                , try $ string' "blue" >> pure "blue"
                , try $ string' "green" >> pure "green"
                ]
            return (c,[i])

input = "First there was blue\nand then there was Green,\nand then blue\ngreen all of a sudden, and not to mention blue-green"

Map.toList $ Map.fromListWith mappend $ rights $ fromJust
    $ parseMaybe (sepCap colorWords) input

[("blue",[16]),("blue green",[103,56]),("green",[40])]
Improve this answer

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge that you have read and understand our privacy policy and code of conduct.

Not the answer you're looking for? Browse other questions tagged or ask your own question.