# How to combine parsers up to n times in Haskell?

I'm trying to combine parsers in Haskell in such a way that I could parse certain patterns up to n times. To illustrate, imagine I want to parse up to eight digits from the input. I know I can use `count` from `Text.Parser.Combinators` to parse exactly n occurrences, e.g.:

``````import Text.Parser.Char        (digit)
import Text.Parser.Combinators (count)

eightDigits :: Parser [Char]
eightDigits = count 8 digit
``````

This, however, fails if it doesn't find exactly 8 digits. I could also use `some` to parse one or more digits:

``````import Text.Parser.Char        (digit)
import Text.Parser.Combinators (some)

someDigits :: Parser [Char]
someDigits = some digit
``````

The problem with the above is that it may consume more digits than I want. Finally, I could use `try`, which combine parsers that may consume input and, on failure, go back to where it started:

``````import Text.Parser.Char        (digit)
import Text.Parser.Combinators (count, try)
import Control.Applicative     ((<|>))

twoOrThreeDigits :: Parser [Char]
twoOrThreeDigits = try (count 3 digit) <|> count 2 digit
``````

While this could be extended to up to 8 repetitions, it's not scalable nor elegant, so the question is how can I combine parsers to parse a pattern anywhere between 1 and up to n times?

You could construct a `many`-like combinator with an upper limit:

``````upto :: Int -> Parser a -> Parser [a]
upto n p | n > 0 = (:) <\$> try p <*> upto (n-1) p <|> return []
upto _ _ = return []
``````

And for 1 up to n, a `many1`-like combinator:

``````upto1 :: Int -> Parser a -> Parser [a]
upto1 n p | n > 0 = (:) <\$> p <*> upto (n-1) p
upto1 _ _ = return []
``````

A short demo:

``````> map (parse (upto 8 digitChar) "") ["", "123", "1234567890"]
[Right "",Right "123",Right "12345678"]
``````