-- | Splitting paragraph layouts between lines. module Data.Text.ParagraphLayout.Internal.ParagraphLine ( cutLines , mergeLines ) where import Data.Int (Int32) import qualified Data.List.NonEmpty as NonEmpty import Data.Text.ParagraphLayout.Internal.Fragment import qualified Data.Text.ParagraphLayout.Internal.Plain.ParagraphLayout as P import qualified Data.Text.ParagraphLayout.Internal.Rich.ParagraphLayout as R import Data.Text.ParagraphLayout.Internal.Rect class GenericLayout pl where -- | A layout with no content, to be used as an identity for appending. empty :: pl -- | Rectangle surrounding the layout, to be used for appending. rect :: pl -> Rect Int32 -- | Actual distance between the paragraph origin and the nearest fragment. topDistance :: pl -> Int32 -- | A list of all unique line numbers that have laid out content. lineNumbers :: pl -> [Int] -- | Keep only fragments with the given line number. limitFragments :: Int -> pl -> pl -- | Add @dy@ to each fragment's `y_origin`. shiftFragments :: Int32 -> pl -> pl -- | Combine fragments from two layouts into one, -- without any adjustment of coordinates. appendFragments :: pl -> pl -> pl instance GenericLayout (P.ParagraphLayout d) where empty = P.emptyParagraphLayout rect = P.paragraphRect topDistance pl = topFragmentOrigin $ P.paragraphFragments pl lineNumbers pl = uniqueFragmentLines $ P.paragraphFragments pl limitFragments n = P.filterFragments (fragmentIsOnLine n) shiftFragments dy = P.mapFragments (shiftFragment dy) appendFragments = P.appendFragments instance GenericLayout (R.ParagraphLayout d) where empty = R.emptyParagraphLayout rect = R.paragraphRect topDistance pl = topFragmentOrigin $ R.paragraphFragments pl lineNumbers pl = uniqueFragmentLines $ R.paragraphFragments pl limitFragments n = R.filterFragments (fragmentIsOnLine n) shiftFragments dy = R.mapFragments (shiftFragment dy) appendFragments = R.appendFragments -- | Split the given `ParagraphLayout` into single-line layouts. cutLines :: GenericLayout pl => pl -> [pl] cutLines pl = map (\ n -> cutLine n pl) (lineNumbers pl) -- | Reduce the given `ParagraphLayout` to fragments with the given line number. cutLine :: GenericLayout pl => Int -> pl -> pl cutLine n pl = trimTop $ limitFragments n pl -- | Add a constant to each fragment's `y_origin` so that their maximum is zero. trimTop :: GenericLayout pl => pl -> pl trimTop pl = shiftFragments (-topDistance pl) pl topFragmentOrigin :: [Fragment d] -> Int32 topFragmentOrigin frags = maximum $ map (y_origin . fragmentRect) frags uniqueFragmentLines :: [Fragment d] -> [Int] uniqueFragmentLines frags = dedupe $ map fragmentLine frags -- | Remove duplicates from a sorted list. dedupe :: Eq a => [a] -> [a] dedupe xs = map NonEmpty.head $ NonEmpty.group xs -- | Put the given `ParagraphLayout`s together as a vertically contiguous -- sequence. mergeLines :: GenericLayout pl => [pl] -> pl mergeLines lls = foldl mergeLine empty lls mergeLine :: GenericLayout pl => pl -> pl -> pl mergeLine pl nextLine = pl' where -- Quadratic time complexity. TODO: Consider optimising. pl' = appendFragments pl $ shiftFragments y nextLine y = y_terminus $ rect pl shiftFragment :: Int32 -> Fragment d -> Fragment d shiftFragment dy f = f' where f' = f { fragmentRect = r' } r' = r { y_origin = y_origin r + dy } r = fragmentRect f fragmentIsOnLine :: Int -> Fragment d -> Bool fragmentIsOnLine n frag = n == fragmentLine frag