{-# LANGUAGE BangPatterns #-} {-# LANGUAGE FlexibleInstances #-} {-# OPTIONS_GHC -Wno-orphans #-} module Data.Text.Prettyprint.Doc.Extra ( module Data.Text.Prettyprint.Doc.Extra , LayoutOptions (..) , PageWidth (..) , layoutCompact , layoutPretty , renderLazy ) where import Control.Applicative import Data.String (IsString (..)) import Data.Text.Lazy as T import qualified Data.Text.Prettyprint.Doc as PP import Data.Text.Prettyprint.Doc.Internal hiding (Doc) import Data.Text.Prettyprint.Doc.Render.Text type Doc = PP.Doc () layoutOneLine :: PP.Doc ann -> SimpleDocStream ann layoutOneLine doc = scan 0 [doc] where scan _ [] = SEmpty scan !col (d:ds) = case d of Fail -> SFail Empty -> scan col ds Char c -> SChar c (scan (col+1) ds) Text l t -> let !col' = col+l in SText l t (scan col' ds) FlatAlt x _ -> scan col (x:ds) Line -> scan col ds Cat x y -> scan col (x:y:ds) Nest _ x -> scan col (x:ds) Union _ y -> scan col (y:ds) Column f -> scan col (f col:ds) WithPageWidth f -> scan col (f Unbounded : ds) Nesting f -> scan col (f 0 : ds) Annotated _ x -> scan col (x:ds) renderOneLine :: PP.Doc ann -> Text renderOneLine = renderLazy . layoutOneLine int :: Applicative f => Int -> f Doc int = pure . PP.pretty integer :: Applicative f => Integer -> f Doc integer = pure . PP.pretty char :: Applicative f => Char -> f Doc char = pure . PP.pretty lbrace :: Applicative f => f Doc lbrace = pure PP.lbrace rbrace :: Applicative f => f Doc rbrace = pure PP.rbrace colon :: Applicative f => f Doc colon = pure PP.colon semi :: Applicative f => f Doc semi = pure PP.semi equals :: Applicative f => f Doc equals = pure PP.equals comma :: Applicative f => f Doc comma = pure PP.comma dot :: Applicative f => f Doc dot = pure PP.dot lparen :: Applicative f => f Doc lparen = pure PP.lparen rparen :: Applicative f => f Doc rparen = pure PP.rparen space :: Applicative f => f Doc space = pure PP.space brackets :: Functor f => f Doc -> f Doc brackets = fmap PP.brackets braces :: Functor f => f Doc -> f Doc braces = fmap PP.braces tupled :: Functor f => f [Doc] -> f Doc tupled = fmap PP.tupled (<+>) :: Applicative f => f Doc -> f Doc -> f Doc (<+>) = liftA2 (PP.<+>) infixr 6 <+> vcat :: Functor f => f [Doc] -> f Doc vcat = fmap PP.vcat hcat :: Functor f => f [Doc] -> f Doc hcat = fmap PP.hcat nest :: Functor f => Int -> f Doc -> f Doc nest i = fmap (PP.nest i) indent :: Functor f => Int -> f Doc -> f Doc indent i = fmap (PP.indent i) parens :: Functor f => f Doc -> f Doc parens = fmap PP.parens emptyDoc :: Applicative f => f Doc emptyDoc = pure PP.emptyDoc punctuate :: Applicative f => f Doc -> f [Doc] -> f [Doc] punctuate = liftA2 PP.punctuate encloseSep :: Applicative f => f Doc -> f Doc -> f Doc -> f [Doc] -> f Doc encloseSep l r s is = PP.encloseSep <$> l <*> r <*> s <*> is line :: Applicative f => f Doc line = pure PP.line line' :: Applicative f => f Doc line' = pure PP.line' softline :: Applicative f => f Doc softline = pure PP.softline softline' :: Applicative f => f Doc softline' = pure PP.softline' pretty :: (Applicative f, Pretty a) => a -> f Doc pretty = pure . PP.pretty string :: Applicative f => Text -> f Doc string = pure . PP.pretty squotes :: Applicative f => f Doc -> f Doc squotes = fmap PP.squotes dquotes :: Functor f => f Doc -> f Doc dquotes = fmap PP.dquotes align :: Functor f => f Doc -> f Doc align = fmap PP.align vsep :: Functor f => f [Doc] -> f Doc vsep = fmap PP.vsep isEmpty :: Doc -> Bool isEmpty Empty = True isEmpty _ = False fill :: Applicative f => Int -> f Doc -> f Doc fill = fmap . PP.fill column :: Functor f => f (Int -> Doc) -> f Doc column = fmap PP.column nesting :: Functor f => f (Int -> Doc) -> f Doc nesting = fmap PP.nesting instance Applicative f => IsString (f Doc) where fromString = string . fromString