{-# LANGUAGE CPP #-} {-# LANGUAGE DeriveDataTypeable #-} {-# LANGUAGE OverloadedStrings #-} #if __GLASGOW_HASKELL__ >= 708 {-# LANGUAGE StandaloneDeriving #-} #endif {-| Module: TextShow.Classes Copyright: (C) 2014-2015 Ryan Scott License: BSD-style (see the file LICENSE) Maintainer: Ryan Scott Stability: Provisional Portability: GHC The 'TextShow', 'TextShow1', and 'TextShow2' typeclasses. -} module TextShow.Classes where #if __GLASGOW_HASKELL__ >= 708 import Data.Data (Typeable) #endif import Data.Monoid.Compat ((<>)) import Data.Text as TS (Text) import qualified Data.Text.IO as TS (putStrLn, hPutStrLn) import qualified Data.Text.Lazy as TL (Text) import qualified Data.Text.Lazy.IO as TL (putStrLn, hPutStrLn) import Data.Text.Lazy (toStrict) import Data.Text.Lazy.Builder (Builder, fromString, singleton, toLazyText) import GHC.Show (appPrec, appPrec1) import System.IO (Handle) import TextShow.Utils (toString) ------------------------------------------------------------------------------- -- | Conversion of values to @Text@. Because there are both strict and lazy @Text@ -- variants, the 'TextShow' class deliberately avoids using @Text@ in its functions. -- Instead, 'showbPrec', 'showb', and 'showbList' all return 'Builder', an -- efficient intermediate form that can be converted to either kind of @Text@. -- -- 'Builder' is a 'Monoid', so it is useful to use the 'mappend' (or '<>') function -- to combine 'Builder's when creating 'TextShow' instances. As an example: -- -- @ -- import Data.Monoid -- import TextShow -- -- data Example = Example Int Int -- instance TextShow Example where -- showb (Example i1 i2) = showb i1 <> showbSpace <> showb i2 -- @ -- -- If you do not want to create 'TextShow' instances manually, you can alternatively -- use the "TextShow.TH" module to automatically generate default 'TextShow' -- instances using Template Haskell, or the "TextShow.Generic" module to -- quickly define 'TextShow' instances using 'genericShowbPrec'. -- -- /Since: 2/ class TextShow a where -- | Convert a value to a 'Builder' with the given predence. -- -- /Since: 2/ showbPrec :: Int -- ^ The operator precedence of the enclosing context (a number -- from @0@ to @11@). Function application has precedence @10@. -> a -- ^ The value to be converted to a 'String'. -> Builder showbPrec _ = showb -- | A specialized variant of 'showbPrec' using precedence context zero. -- -- /Since: 2/ showb :: a -> Builder showb = showbPrec 0 -- | Allows for specialized display of lists. This is used, for example, when -- showing lists of 'Char's. -- -- /Since: 2/ showbList :: [a] -> Builder showbList = showbListWith showb #if __GLASGOW_HASKELL__ >= 708 {-# MINIMAL showbPrec | showb #-} deriving instance Typeable TextShow #endif -- | Constructs a strict 'TS.Text' from a single value. -- -- /Since: 2/ showt :: TextShow a => a -> TS.Text showt = toStrict . showtl {-# INLINE showt #-} -- | Constructs a lazy 'TL.Text' from a single value. -- -- /Since: 2/ showtl :: TextShow a => a -> TL.Text showtl = toLazyText . showb {-# INLINE showtl #-} -- | Constructs a strict 'TS.Text' from a single value with the given precedence. -- -- /Since: 2/ showtPrec :: TextShow a => Int -> a -> TS.Text showtPrec p = toStrict . showtlPrec p {-# INLINE showtPrec #-} -- | Constructs a lazy 'TL.Text' from a single value with the given precedence. -- -- /Since: 2/ showtlPrec :: TextShow a => Int -> a -> TL.Text showtlPrec p = toLazyText . showbPrec p {-# INLINE showtlPrec #-} -- | Construct a strict 'TS.Text' from a list of values. -- -- /Since: 2/ showtList :: TextShow a => [a] -> TS.Text showtList = toStrict . showtlList {-# INLINE showtList #-} -- | Construct a lazy 'TL.Text' from a list of values. -- -- /Since: 2/ showtlList :: TextShow a => [a] -> TL.Text showtlList = toLazyText . showbList {-# INLINE showtlList #-} -- | Surrounds 'Builder' output with parentheses if the 'Bool' parameter is 'True'. -- -- /Since: 2/ showbParen :: Bool -> Builder -> Builder showbParen p builder | p = singleton '(' <> builder <> singleton ')' | otherwise = builder {-# INLINE showbParen #-} -- | Construct a 'Builder' containing a single space character. -- -- /Since: 2/ showbSpace :: Builder showbSpace = singleton ' ' -- | Converts a list of values into a 'Builder' in which the values are surrounded -- by square brackets and each value is separated by a comma. The function argument -- controls how each element is shown. -- @'showbListWith' 'showb'@ is the default implementation of 'showbList' save for -- a few special cases (e.g., 'String'). -- -- /Since: 2/ showbListWith :: (a -> Builder) -> [a] -> Builder showbListWith _ [] = "[]" showbListWith showbx (x:xs) = singleton '[' <> showbx x <> go xs -- "[.. where go (y:ys) = singleton ',' <> showbx y <> go ys -- ..,.. go [] = singleton ']' -- ..]" {-# INLINE showbListWith #-} -- | Writes a value's strict 'TS.Text' representation to the standard output, followed -- by a newline. -- -- /Since: 2/ printT :: TextShow a => a -> IO () printT = TS.putStrLn . showt {-# INLINE printT #-} -- | Writes a value's lazy 'TL.Text' representation to the standard output, followed -- by a newline. -- -- /Since: 2/ printTL :: TextShow a => a -> IO () printTL = TL.putStrLn . showtl {-# INLINE printTL #-} -- | Writes a value's strict 'TS.Text' representation to a file handle, followed -- by a newline. -- -- /Since: 2/ hPrintT :: TextShow a => Handle -> a -> IO () hPrintT h = TS.hPutStrLn h . showt {-# INLINE hPrintT #-} -- | Writes a value's lazy 'TL.Text' representation to a file handle, followed -- by a newline. -- -- /Since: 2/ hPrintTL :: TextShow a => Handle -> a -> IO () hPrintTL h = TL.hPutStrLn h . showtl {-# INLINE hPrintTL #-} -- | Convert a @ShowS@-based show function to a @Builder@-based one. -- -- /Since: 2.1/ showsToShowb :: (Int -> a -> ShowS) -> Int -> a -> Builder showsToShowb sp p x = fromString $ sp p x "" {-# INLINE showsToShowb #-} -- | Convert a @Builder@-based show function to a @ShowS@-based one. -- -- /Since: 2.1/ showbToShows :: (Int -> a -> Builder) -> Int -> a -> ShowS showbToShows sp p = showString . toString . sp p {-# INLINE showbToShows #-} ------------------------------------------------------------------------------- -- | Lifting of the 'TextShow' class to unary type constructors. -- -- /Since: 2/ class TextShow1 f where -- | Lifts a 'showbPrec' function through the type constructor. -- -- /Since: 2/ showbPrecWith :: (Int -> a -> Builder) -> Int -> f a -> Builder #if __GLASGOW_HASKELL__ >= 708 deriving instance Typeable TextShow1 #endif -- | Lift the standard 'showbPrec' function through the type constructor. -- -- /Since: 2/ showbPrec1 :: (TextShow1 f, TextShow a) => Int -> f a -> Builder showbPrec1 = showbPrecWith showbPrec {-# INLINE showbPrec1 #-} -- | @'showbUnaryWith' sp n p x@ produces the 'Builder' representation of a unary data -- constructor with name @n@ and argument @x@, in precedence context @p@, using the -- function @sp@ to show occurrences of the type argument. -- -- /Since: 2/ showbUnaryWith :: (Int -> a -> Builder) -> Builder -> Int -> a -> Builder showbUnaryWith sp nameB p x = showbParen (p > appPrec) $ nameB <> showbSpace <> sp appPrec1 x {-# INLINE showbUnaryWith #-} ------------------------------------------------------------------------------- -- | Lifting of the 'TextShow' class to binary type constructors. -- -- /Since: 2/ class TextShow2 f where -- | Lifts 'showbPrec' functions through the type constructor. -- -- /Since: 2/ showbPrecWith2 :: (Int -> a -> Builder) -> (Int -> b -> Builder) -> Int -> f a b -> Builder #if __GLASGOW_HASKELL__ >= 708 deriving instance Typeable TextShow2 #endif -- | Lift two 'showbPrec' functions through the type constructor. -- -- /Since: 2/ showbPrec2 :: (TextShow2 f, TextShow a, TextShow b) => Int -> f a b -> Builder showbPrec2 = showbPrecWith2 showbPrec showbPrec {-# INLINE showbPrec2 #-} -- | @'showbBinaryWith' sp n p x y@ produces the 'Builder' representation of a binary -- data constructor with name @n@ and arguments @x@ and @y@, in precedence context -- @p@, using the functions @sp1@ and @sp2@ to show occurrences of the type arguments. -- -- /Since: 2/ showbBinaryWith :: (Int -> a -> Builder) -> (Int -> b -> Builder) -> Builder -> Int -> a -> b -> Builder showbBinaryWith sp1 sp2 nameB p x y = showbParen (p > appPrec) $ nameB <> showbSpace <> sp1 appPrec1 x <> showbSpace <> sp2 appPrec1 y {-# INLINE showbBinaryWith #-}