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module Range where
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import qualified Data.Text as T
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import Control.Applicative ( ( <|> ) )
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import qualified Data.Char as Char
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import Data.Maybe ( fromMaybe )
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-- | A half-open interval of integers, defined by start & end indices.
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data Range = Range { start :: ! Int , end :: ! Int }
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deriving ( Eq , Show )
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rangeLength :: Range -> Int
rangeLength range = end range - start range
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substring :: Range -> T . Text -> T . Text
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substring range = T . take ( rangeLength range ) . T . drop ( start range )
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sublist :: Range -> [ a ] -> [ a ]
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sublist range = take ( rangeLength range ) . drop ( start range )
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totalRange :: T . Text -> Range
totalRange t = Range 0 $ T . length t
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offsetRange :: Int -> Range -> Range
offsetRange i ( Range start end ) = Range ( i + start ) ( i + end )
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rangesAndWordsFrom :: Int -> String -> [ ( Range , String ) ]
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rangesAndWordsFrom _ " " = []
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rangesAndWordsFrom startIndex string = fromMaybe [] $ takeAndContinue <$> ( word <|> punctuation ) <|> skipAndContinue <$> space
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where
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word = parse isWord string
punctuation = parse ( not . isWordOrSpace ) string
space = parse Char . isSpace string
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takeAndContinue ( parsed , rest ) = ( Range startIndex $ endFor parsed , parsed ) : rangesAndWordsFrom ( endFor parsed ) rest
skipAndContinue ( parsed , rest ) = rangesAndWordsFrom ( endFor parsed ) rest
endFor parsed = startIndex + length parsed
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parse predicate string = case span predicate string of
( [] , _ ) -> Nothing
( parsed , rest ) -> Just ( parsed , rest )
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isWordOrSpace c = Char . isSpace c || isWord c
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-- | Is this a word character?
-- | Word characters are defined as in [Ruby’ s `\p{Word}` syntax](http://ruby-doc.org/core-2.1.1/Regexp.html#class-Regexp-label-Character+Properties), i.e.:
-- | > A member of one of the following Unicode general category _Letter_, _Mark_, _Number_, _Connector_Punctuation_
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isWord c = Char . isLetter c || Char . isNumber c || Char . isMark c || Char . generalCategory c == Char . ConnectorPunctuation
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-- | Return Just the last index from a non-empty range, or if the range is empty, Nothing.
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maybeLastIndex :: Range -> Maybe Int
maybeLastIndex ( Range start end ) | start == end = Nothing
maybeLastIndex ( Range _ end ) = Just $ end - 1
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unionRanges :: ( Functor f , Foldable f ) => f Range -> Range
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unionRanges ranges = fromMaybe mempty . foldl mappend Nothing $ Just <$> ranges
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instance Ord Range where
a <= b = start a <= start b
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instance Monoid Range where
mempty = Range 0 0
mappend ( Range start1 end1 ) ( Range start2 end2 ) = Range ( min start1 start2 ) ( max end1 end2 )