module Data.Text.ParagraphLayout.Internal.ResolvedSpan
(ResolvedSpan(..)
,WithSpan(WithSpan)
,splitBySpanIndex
)
where
import Data.Text (Text)
import Data.Text.Glyphize (Font)
import qualified Data.Text.ICU as BreakStatus (Line)
import Data.Text.ParagraphLayout.Internal.LineHeight
import Data.Text.ParagraphLayout.Internal.TextContainer
-- | Internal structure containing resolved values that may be shared with
-- other spans across the paragraph.
data ResolvedSpan = ResolvedSpan
{ spanIndex :: Int
, spanOffsetInParagraph :: Int
, spanText :: Text
, spanFont :: Font
, spanLineHeight :: LineHeight
, spanLanguage :: String
, spanLineBreaks :: [(Int, BreakStatus.Line)]
-- TODO: Can be optimised by starting with the shortest line break.
, spanCharacterBreaks :: [(Int, ())]
}
deriving (Show)
instance Eq ResolvedSpan where
a == b = spanIndex a == spanIndex b
instance TextContainer ResolvedSpan where
getText = spanText
-- | Wrapper for temporarily mapping the relationship to a `Span`.
data WithSpan a = WithSpan ResolvedSpan a
instance Functor WithSpan where
fmap f (WithSpan s a) = WithSpan s (f a)
instance TextContainer a => TextContainer (WithSpan a) where
getText (WithSpan _ c) = getText c
instance SeparableTextContainer a => SeparableTextContainer (WithSpan a) where
splitTextAt8 n (WithSpan rs c) = (WithSpan rs c1, WithSpan rs c2)
where (c1, c2) = splitTextAt8 n c
dropWhileStart p (WithSpan rs c) = WithSpan rs (dropWhileStart p c)
dropWhileEnd p (WithSpan rs c) = WithSpan rs (dropWhileEnd p c)
splitBySpanIndex :: [WithSpan a] -> [[a]]
splitBySpanIndex xs = [getBySpanIndex i xs | i <- [0..]]
getBySpanIndex :: Int -> [WithSpan a] -> [a]
getBySpanIndex idx xs = map contents $ filter matchingIndex $ xs
where
matchingIndex (WithSpan rs _) = (spanIndex rs) == idx
contents (WithSpan _ x) = x