{-# LANGUAGE CPP #-} {-# LANGUAGE TemplateHaskell #-} {-# LANGUAGE TypeFamilies #-} {-# LANGUAGE MultiParamTypeClasses #-} {-# LANGUAGE FlexibleInstances #-} {-# LANGUAGE TypeSynonymInstances #-} {-# LANGUAGE ExistentialQuantification #-} ----------------------------------------------------------------------------- -- | -- Module : Text.Shakespeare.I18N -- Copyright : 2012 Michael Snoyman , Jeremy Shaw -- License : BSD-style (see the LICENSE file in the distribution) -- -- Maintainer : Michael Snoyman -- Stability : experimental -- Portability : portable -- -- This module provides a type-based system for providing translations -- for text strings. -- -- It is similar in purpose to gettext or Java message bundles. -- -- The core idea is to create simple data type where each constructor -- represents a phrase, sentence, paragraph, etc. For example: -- -- > data AppMessages = Hello | Goodbye -- -- The 'RenderMessage' class is used to retrieve the appropriate -- translation for a message value: -- -- > class RenderMessage master message where -- > renderMessage :: master -- ^ type that specifies which set of translations to use -- > -> [Lang] -- ^ acceptable languages in descending order of preference -- > -> message -- ^ message to translate -- > -> Text -- -- Defining the translation type and providing the 'RenderMessage' -- instance in Haskell is not very translator friendly. Instead, -- translations are generally provided in external translations -- files. Then the 'mkMessage' Template Haskell function is used to -- read the external translation files and automatically create the -- translation type and the @RenderMessage@ instance. -- -- A full description of using this module to create translations for @Hamlet@ can be found here: -- -- -- -- A full description of using the module to create translations for @HSP@ can be found here: -- -- -- -- You can also adapt those instructions for use with other systems. module Text.Shakespeare.I18N ( mkMessage , mkMessageFor , mkMessageVariant , RenderMessage (..) , ToMessage (..) , SomeMessage (..) , Lang ) where import Language.Haskell.TH.Syntax hiding (makeRelativeToProject) import Control.Applicative ((<$>)) import Control.Monad (filterM, forM) import Data.Text (Text, pack, unpack) import System.Directory import Data.FileEmbed (makeRelativeToProject) import Data.Maybe (catMaybes) import Data.List (isSuffixOf, sortBy, foldl') import qualified Data.Map as Map import qualified Data.ByteString as S import Data.Text.Encoding (decodeUtf8) import Data.Char (isSpace, toLower, toUpper) import Data.Ord (comparing) import Text.Shakespeare.Base (Deref (..), Ident (..), parseHash, derefToExp) import Text.ParserCombinators.Parsec (parse, many, eof, many1, noneOf, (<|>)) import Control.Arrow ((***)) import Data.Monoid (mempty, mappend) import qualified Data.Text as T import Data.String (IsString (fromString)) -- | 'ToMessage' is used to convert the value inside #{ } to 'Text' -- -- The primary purpose of this class is to allow the value in #{ } to -- be a 'String' or 'Text' rather than forcing it to always be 'Text'. class ToMessage a where toMessage :: a -> Text instance ToMessage Text where toMessage = id instance ToMessage String where toMessage = Data.Text.pack -- | the 'RenderMessage' is used to provide translations for a message types -- -- The 'master' argument exists so that it is possible to provide more -- than one set of translations for a 'message' type. This is useful -- if a library provides a default set of translations, but the user -- of the library wants to provide a different set of translations. class RenderMessage master message where renderMessage :: master -- ^ type that specifies which set of translations to use -> [Lang] -- ^ acceptable languages in descending order of preference -> message -- ^ message to translate -> Text instance RenderMessage master Text where renderMessage _ _ = id -- | an RFC1766 / ISO 639-1 language code (eg, @fr@, @en-GB@, etc). type Lang = Text -- |generate translations from translation files -- -- This function will: -- -- 1. look in the supplied subdirectory for files ending in @.msg@ -- -- 2. generate a type based on the constructors found -- -- 3. create a 'RenderMessage' instance -- mkMessage :: String -- ^ base name to use for translation type -> FilePath -- ^ subdirectory which contains the translation files -> Lang -- ^ default translation language -> Q [Dec] mkMessage dt folder lang = mkMessageCommon True "Msg" "Message" dt dt folder lang -- | create 'RenderMessage' instance for an existing data-type mkMessageFor :: String -- ^ master translation data type -> String -- ^ existing type to add translations for -> FilePath -- ^ path to translation folder -> Lang -- ^ default language -> Q [Dec] mkMessageFor master dt folder lang = mkMessageCommon False "" "" master dt folder lang -- | create an additional set of translations for a type created by `mkMessage` mkMessageVariant :: String -- ^ master translation data type -> String -- ^ existing type to add translations for -> FilePath -- ^ path to translation folder -> Lang -- ^ default language -> Q [Dec] mkMessageVariant master dt folder lang = mkMessageCommon False "Msg" "Message" master dt folder lang -- |used by 'mkMessage' and 'mkMessageFor' to generate a 'RenderMessage' and possibly a message data type mkMessageCommon :: Bool -- ^ generate a new datatype from the constructors found in the .msg files -> String -- ^ string to append to constructor names -> String -- ^ string to append to datatype name -> String -- ^ base name of master datatype -> String -- ^ base name of translation datatype -> FilePath -- ^ path to translation folder -> Lang -- ^ default lang -> Q [Dec] mkMessageCommon genType prefix postfix master dt rawFolder lang = do folder <- makeRelativeToProject rawFolder files <- qRunIO $ getDirectoryContents folder let files' = filter (`notElem` [".", ".."]) files (filess, contents) <- qRunIO $ fmap (unzip . catMaybes) $ mapM (loadLang folder) files' (mapM_.mapM_) addDependentFile filess let contents' = Map.toList $ Map.fromListWith (++) contents sdef <- case lookup lang contents' of Nothing -> error $ "Did not find main language file: " ++ unpack lang Just def -> toSDefs def mapM_ (checkDef sdef) $ map snd contents' let mname = mkName $ dt ++ postfix c1 <- fmap concat $ mapM (toClauses prefix dt) contents' c2 <- mapM (sToClause prefix dt) sdef c3 <- defClause return $ ( if genType then ((DataD [] mname [] Nothing (map (toCon dt) sdef) []) :) else id) [ instanceD [] (ConT ''RenderMessage `AppT` (ConT $ mkName master) `AppT` ConT mname) [ FunD (mkName "renderMessage") $ c1 ++ c2 ++ [c3] ] ] toClauses :: String -> String -> (Lang, [Def]) -> Q [Clause] toClauses prefix dt (lang, defs) = mapM go defs where go def = do a <- newName "lang" (pat, bod) <- mkBody dt (prefix ++ constr def) (map fst $ vars def) (content def) guard <- fmap NormalG [|$(return $ VarE a) == pack $(lift $ unpack lang)|] return $ Clause [WildP, conP (mkName ":") [VarP a, WildP], pat] (GuardedB [(guard, bod)]) [] mkBody :: String -- ^ datatype -> String -- ^ constructor -> [String] -- ^ variable names -> [Content] -> Q (Pat, Exp) mkBody dt cs vs ct = do vp <- mapM go vs let pat = RecP (mkName cs) (map (varName dt *** VarP) vp) let ct' = map (fixVars vp) ct pack' <- [|Data.Text.pack|] tomsg <- [|toMessage|] let ct'' = map (toH pack' tomsg) ct' mapp <- [|mappend|] let app a b = InfixE (Just a) mapp (Just b) e <- case ct'' of [] -> [|mempty|] [x] -> return x (x:xs) -> return $ foldl' app x xs return (pat, e) where toH pack' _ (Raw s) = pack' `AppE` SigE (LitE (StringL s)) (ConT ''String) toH _ tomsg (Var d) = tomsg `AppE` derefToExp [] d go x = do let y = mkName $ '_' : x return (x, y) fixVars vp (Var d) = Var $ fixDeref vp d fixVars _ (Raw s) = Raw s fixDeref vp (DerefIdent (Ident i)) = DerefIdent $ Ident $ fixIdent vp i fixDeref vp (DerefBranch a b) = DerefBranch (fixDeref vp a) (fixDeref vp b) fixDeref _ d = d fixIdent vp i = case lookup i vp of Nothing -> i Just y -> nameBase y sToClause :: String -> String -> SDef -> Q Clause sToClause prefix dt sdef = do (pat, bod) <- mkBody dt (prefix ++ sconstr sdef) (map fst $ svars sdef) (scontent sdef) return $ Clause [WildP, conP (mkName "[]") [], pat] (NormalB bod) [] defClause :: Q Clause defClause = do a <- newName "sub" c <- newName "langs" d <- newName "msg" rm <- [|renderMessage|] return $ Clause [VarP a, conP (mkName ":") [WildP, VarP c], VarP d] (NormalB $ rm `AppE` VarE a `AppE` VarE c `AppE` VarE d) [] conP :: Name -> [Pat] -> Pat #if MIN_VERSION_template_haskell(2,18,0) conP name = ConP name [] #else conP = ConP #endif toCon :: String -> SDef -> Con toCon dt (SDef c vs _) = RecC (mkName $ "Msg" ++ c) $ map go vs where go (n, t) = (varName dt n, notStrict, ConT $ mkName t) varName :: String -> String -> Name varName a y = mkName $ concat [lower a, "Message", upper y] where lower (x:xs) = toLower x : xs lower [] = [] upper (x:xs) = toUpper x : xs upper [] = [] checkDef :: [SDef] -> [Def] -> Q () checkDef x y = go (sortBy (comparing sconstr) x) (sortBy (comparing constr) y) where go _ [] = return () go [] (b:_) = error $ "Extra message constructor: " ++ constr b go (a:as) (b:bs) | sconstr a < constr b = go as (b:bs) | sconstr a > constr b = error $ "Extra message constructor: " ++ constr b | otherwise = do go' (svars a) (vars b) go as bs go' ((an, at):as) ((bn, mbt):bs) | an /= bn = error "Mismatched variable names" | otherwise = case mbt of Nothing -> go' as bs Just bt | at == bt -> go' as bs | otherwise -> error "Mismatched variable types" go' [] [] = return () go' _ _ = error "Mistmached variable count" toSDefs :: [Def] -> Q [SDef] toSDefs = mapM toSDef toSDef :: Def -> Q SDef toSDef d = do vars' <- mapM go $ vars d return $ SDef (constr d) vars' (content d) where go (a, Just b) = return (a, b) go (a, Nothing) = error $ "Main language missing type for " ++ show (constr d, a) data SDef = SDef { sconstr :: String , svars :: [(String, String)] , scontent :: [Content] } data Def = Def { constr :: String , vars :: [(String, Maybe String)] , content :: [Content] } () :: FilePath -> FilePath -> FilePath path file = path ++ '/' : file loadLang :: FilePath -> FilePath -> IO (Maybe ([FilePath], (Lang, [Def]))) loadLang folder file = do let file' = folder file isFile <- doesFileExist file' if isFile && ".msg" `isSuffixOf` file then do let lang = pack $ reverse $ drop 4 $ reverse file defs <- loadLangFile file' return $ Just ([file'], (lang, defs)) else do isDir <- doesDirectoryExist file' if isDir then do let lang = pack file (files, defs) <- unzip <$> loadLangDir file' return $ Just (files, (lang, concat defs)) else return Nothing loadLangDir :: FilePath -> IO [(FilePath, [Def])] loadLangDir folder = do paths <- map (folder ) . filter (`notElem` [".", ".."]) <$> getDirectoryContents folder files <- filterM doesFileExist paths dirs <- filterM doesDirectoryExist paths langFiles <- forM files $ \file -> do if ".msg" `isSuffixOf` file then do defs <- loadLangFile file return $ Just (file, defs) else do return Nothing langDirs <- mapM loadLangDir dirs return $ catMaybes langFiles ++ concat langDirs loadLangFile :: FilePath -> IO [Def] loadLangFile file = do bs <- S.readFile file let s = unpack $ decodeUtf8 bs defs <- fmap catMaybes $ mapM (parseDef . T.unpack . T.strip . T.pack) $ lines s return defs parseDef :: String -> IO (Maybe Def) parseDef "" = return Nothing parseDef ('#':_) = return Nothing parseDef s = case end of ':':end' -> do content' <- fmap compress $ parseContent $ dropWhile isSpace end' case words begin of [] -> error $ "Missing constructor: " ++ s (w:ws) -> return $ Just Def { constr = w , vars = map parseVar ws , content = content' } _ -> error $ "Missing colon: " ++ s where (begin, end) = break (== ':') s data Content = Var Deref | Raw String compress :: [Content] -> [Content] compress [] = [] compress (Raw a:Raw b:rest) = compress $ Raw (a ++ b) : rest compress (x:y) = x : compress y parseContent :: String -> IO [Content] parseContent s = either (error . show) return $ parse go s s where go = do x <- many go' eof return x go' = (Raw `fmap` many1 (noneOf "#")) <|> (fmap (either Raw Var) parseHash) parseVar :: String -> (String, Maybe String) parseVar s = case break (== '@') s of (x, '@':y) -> (x, Just y) _ -> (s, Nothing) data SomeMessage master = forall msg. RenderMessage master msg => SomeMessage msg instance IsString (SomeMessage master) where fromString = SomeMessage . T.pack instance master ~ master' => RenderMessage master (SomeMessage master') where renderMessage a b (SomeMessage msg) = renderMessage a b msg notStrict :: Bang notStrict = Bang NoSourceUnpackedness NoSourceStrictness instanceD :: Cxt -> Type -> [Dec] -> Dec instanceD = InstanceD Nothing