module Text.Hastache (
hastacheStr
, hastacheFile
, hastacheStrBuilder
, hastacheFileBuilder
, MuContext
, MuType(..)
, MuConfig(..)
, MuVar(..)
, htmlEscape
, emptyEscape
, defaultConfig
, encodeStr
, encodeStrLT
, decodeStr
, decodeStrLT
) where
import Control.Monad (guard, mplus, mzero, liftM )
import Control.Monad.Reader (ask, runReaderT, MonadReader, ReaderT)
import Control.Monad.Trans (lift, liftIO, MonadIO)
import Control.Monad.Trans.Maybe (MaybeT(MaybeT), runMaybeT)
import Data.AEq (AEq,(~==))
import Data.Functor ((<$>))
import Data.Int
import Data.IORef
import Data.Maybe (isJust)
import Data.Monoid (mappend, mempty)
import Data.Text hiding (map, foldl1)
import Data.Text.IO
import Data.Word
import Prelude hiding (putStrLn, readFile, length, drop, tail, dropWhile, elem,
head, last, reverse, take, span, null)
import System.Directory (doesFileExist)
import System.FilePath (combine)
import qualified Data.ByteString as BS
import qualified Data.ByteString.Lazy as LZ
import qualified Data.List as List
import qualified Data.Text as T
import qualified Data.Text.Read as T
import qualified Data.Text.Encoding as T
import qualified Data.Text.Lazy as TL
import qualified Data.Text.Lazy.Builder as TLB
import qualified Data.Text.Lazy.Encoding as TL
import qualified Data.Foldable as F
import qualified Prelude
(~>) :: a -> (a -> b) -> b
x ~> f = f x
infixl 9 ~>
type MuContext m =
Text
-> m (MuType m)
class Show a => MuVar a where
toLText :: a -> TL.Text
isEmpty :: a -> Bool
isEmpty _ = False
instance MuVar Text where
toLText = TL.fromStrict
isEmpty = T.null
instance MuVar TL.Text where
toLText = id
isEmpty a = TL.length a == 0
instance MuVar BS.ByteString where
toLText = TL.fromStrict . T.decodeUtf8
isEmpty a = BS.length a == 0
instance MuVar LZ.ByteString where
toLText = TL.decodeUtf8
isEmpty a = LZ.length a == 0
withShowToText :: Show a => a -> TL.Text
withShowToText a = show a ~> TL.pack
numEmpty :: (Num a,AEq a) => a -> Bool
numEmpty a = a ~== 0
instance MuVar Integer where {toLText = withShowToText; isEmpty = numEmpty}
instance MuVar Int where {toLText = withShowToText; isEmpty = numEmpty}
instance MuVar Float where {toLText = withShowToText; isEmpty = numEmpty}
instance MuVar Double where {toLText = withShowToText; isEmpty = numEmpty}
instance MuVar Int8 where {toLText = withShowToText; isEmpty = numEmpty}
instance MuVar Int16 where {toLText = withShowToText; isEmpty = numEmpty}
instance MuVar Int32 where {toLText = withShowToText; isEmpty = numEmpty}
instance MuVar Int64 where {toLText = withShowToText; isEmpty = numEmpty}
instance MuVar Word where {toLText = withShowToText; isEmpty = numEmpty}
instance MuVar Word8 where {toLText = withShowToText; isEmpty = numEmpty}
instance MuVar Word16 where {toLText = withShowToText; isEmpty = numEmpty}
instance MuVar Word32 where {toLText = withShowToText; isEmpty = numEmpty}
instance MuVar Word64 where {toLText = withShowToText; isEmpty = numEmpty}
instance MuVar () where {toLText = withShowToText}
instance MuVar Char where
toLText = TL.singleton
instance MuVar a => MuVar [a] where
toLText a = toLText '[' <+> cnvLst <+> toLText ']'
where
cnvLst = map toLText a ~>
TL.intercalate (toLText ',')
(<+>) = TL.append
instance MuVar a => MuVar (Maybe a) where
toLText (Just a) = toLText a
toLText Nothing = ""
isEmpty Nothing = True
isEmpty (Just a) = isEmpty a
instance (MuVar a, MuVar b) => MuVar (Either a b) where
toLText (Left a) = toLText a
toLText (Right b) = toLText b
isEmpty (Left a) = isEmpty a
isEmpty (Right b) = isEmpty b
instance MuVar [Char] where
toLText = TL.pack
isEmpty a = Prelude.length a == 0
data MuType m =
forall a. MuVar a => MuVariable a |
MuList [MuContext m] |
MuBool Bool |
forall a. MuVar a => MuLambda (Text -> a) |
forall a. MuVar a => MuLambdaM (Text -> m a) |
MuNothing
instance Show (MuType m) where
show (MuVariable a) = "MuVariable " ++ show a
show (MuList _) = "MuList [..]"
show (MuBool v) = "MuBool " ++ show v
show (MuLambda _) = "MuLambda <..>"
show (MuLambdaM _) = "MuLambdaM <..>"
show MuNothing = "MuNothing"
data MuConfig m = MuConfig {
muEscapeFunc :: TL.Text -> TL.Text,
muTemplateFileDir :: Maybe FilePath,
muTemplateFileExt :: Maybe String,
muTemplateRead :: FilePath -> m (Maybe Text)
}
encodeStr :: String -> Text
encodeStr = T.pack
encodeStrLT :: String -> TL.Text
encodeStrLT = TL.pack
decodeStr :: Text -> String
decodeStr = T.unpack
decodeStrLT :: TL.Text -> String
decodeStrLT = TL.unpack
isMuNothing :: MuType t -> Bool
isMuNothing MuNothing = True
isMuNothing _ = False
htmlEscape :: TL.Text -> TL.Text
htmlEscape = TL.concatMap proc
where
proc '&' = "&"
proc '\\' = "\"
proc '"' = """
proc '\'' = "'"
proc '<' = "<"
proc '>' = ">"
proc h = TL.singleton h
emptyEscape :: TL.Text -> TL.Text
emptyEscape = id
defaultConfig :: MonadIO m => MuConfig m
defaultConfig = MuConfig {
muEscapeFunc = htmlEscape,
muTemplateFileDir = Nothing,
muTemplateFileExt = Nothing,
muTemplateRead = liftIO . defaultTemplateRead
}
defaultTemplateRead :: FilePath -> IO (Maybe Text)
defaultTemplateRead fullFileName = do
fe <- doesFileExist fullFileName
if fe
then Just <$> readFile fullFileName
else return Nothing
defOTag = "{{" :: Text
defCTag = "}}" :: Text
unquoteCTag = "}}}" :: Text
findBlock ::
Text
-> Text
-> Text
-> Maybe (Text, Char, Text, Text)
findBlock str otag ctag = do
guard (length fnd > length otag)
Just (pre, symb, inTag, afterClose)
where
(pre, fnd) = breakOn otag str
symb = index fnd (length otag)
(inTag, afterClose)
| symb == '{' && ctag == defCTag =
breakOn unquoteCTag fnd ~> \(a,b) ->
(drop (length otag) a, drop 3 b)
| otherwise = breakOn ctag fnd ~> \(a,b) ->
(drop (length otag) a, drop (length ctag) b)
readVar :: MonadIO m => [MuContext m] -> Text -> m TL.Text
readVar [] _ = return TL.empty
readVar (context:parentCtx) name = do
muType <- context name
case muType of
MuVariable a -> return $ toLText a
MuBool a -> return . withShowToText $ a
MuNothing -> do
mb <- runMaybeT $ tryFindArrayItem context name
case mb of
Just (nctx,nn) -> readVar [nctx] nn
_ -> readVar parentCtx name
_ -> return TL.empty
readInt :: Text -> Maybe (Int,Text)
readInt t = eitherMaybe $ T.decimal t
where
eitherMaybe (Left _) = Nothing
eitherMaybe (Right x) = Just x
tryFindArrayItem :: MonadIO m =>
MuContext m
-> Text
-> MaybeT m (MuContext m, Text)
tryFindArrayItem context name = do
guard $ length idx > 1
(idx,nxt) <- MaybeT $ return $ readInt $ tail idx
guard $ idx >= 0
guard $ (null nxt) || (head nxt == '.')
muType <- lift $ context nm
case muType of
MuList l -> do
guard $ idx < (List.length l)
let ncxt = l !! idx
if null nxt
then return (ncxt, dotStr)
else return (ncxt, tail nxt)
_ -> mzero
where
(nm,idx) = breakOn dotStr name
dotStr = "."
findCloseSection ::
Text
-> Text
-> Text
-> Text
-> Maybe (Text, Text)
findCloseSection str name otag ctag = do
guard (length after > 0)
Just (before, drop (length close) after)
where
close = foldl1 append [otag, "/", name, ctag]
(before, after) = breakOn close str
trimCharsTest :: Char -> Bool
trimCharsTest = (`Prelude.elem` " \t")
trimAll :: Text -> Text
trimAll = dropAround trimCharsTest
addRes :: MonadIO m => (Either T.Text TL.Text) -> ReaderT (IORef TLB.Builder) m ()
addRes str = do
rf <- ask
b <- readIORef rf ~> liftIO
let l = mappend b t
writeIORef rf l ~> liftIO
return ()
where
t = either TLB.fromText TLB.fromLazyText str
addResT :: MonadIO m => T.Text -> ReaderT (IORef TLB.Builder) m ()
addResT = addRes . Left
addResTL :: MonadIO m => TL.Text -> ReaderT (IORef TLB.Builder) m ()
addResTL = addRes . Right
processBlock :: MonadIO m =>
Text
-> [MuContext m]
-> Text
-> Text
-> MuConfig m
-> ReaderT (IORef TLB.Builder) m ()
processBlock str contexts otag ctag conf =
case findBlock str otag ctag of
Just (pre, symb, inTag, afterClose) -> do
addResT pre
renderBlock contexts symb inTag afterClose otag ctag conf
Nothing -> do
addResT str
return ()
elem :: Char -> Text -> Bool
elem c = isJust . find (==c)
renderBlock :: MonadIO m =>
[MuContext m]
-> Char
-> Text
-> Text
-> Text
-> Text
-> MuConfig m
-> ReaderT (IORef TLB.Builder) m ()
renderBlock contexts symb inTag afterClose otag ctag conf
| symb == '!' = next afterClose
| symb == '&' || (symb == '{' && otag == defOTag) = do
addResTL =<< lift (readVar contexts (tail inTag ~> trimAll))
next afterClose
| symb == '#' || symb == '^' =
case findCloseSection afterClose (tail inTag) otag ctag of
Nothing -> next afterClose
Just (sectionContent', afterSection') ->
let
dropNL str =
if length str > 0 && head str == '\n'
then tail str
else str
sectionContent = dropNL sectionContent'
afterSection =
if '\n' `elem` sectionContent
then dropNL afterSection'
else afterSection'
tlInTag = tail inTag
readContext' = MaybeT $ liftM (List.find (not . isMuNothing)) $
mapM ($ tlInTag) contexts
readContextWithIdx = do
(ctx,name) <- Prelude.foldr mplus mzero $
map (\c -> tryFindArrayItem c tlInTag) contexts
lift $ ctx name
readContext = readContext' `mplus` readContextWithIdx
processAndNext = do
processBlock sectionContent contexts otag ctag conf
next afterSection
in do
mbCtx <- lift $ runMaybeT readContext
if symb == '#'
then
case mbCtx of
Just (MuList []) -> next afterSection
Just (MuList b) -> do
mapM_ (\c -> processBlock sectionContent
(c:contexts) otag ctag conf) b
next afterSection
Just (MuVariable a) -> if isEmpty a
then next afterSection
else processAndNext
Just (MuBool True) -> processAndNext
Just (MuLambda func) -> do
func sectionContent ~> toLText ~> addResTL
next afterSection
Just (MuLambdaM func) -> do
res <- lift (func sectionContent)
res ~> toLText ~> addResTL
next afterSection
_ -> next afterSection
else case mbCtx of
Just (MuList []) -> processAndNext
Just (MuBool False) -> processAndNext
Just (MuVariable a) -> if isEmpty a
then processAndNext
else next afterSection
Nothing -> processAndNext
_ -> next afterSection
| symb == '=' =
let
lenInTag = length inTag
delimitersCommand = take (lenInTag 1) inTag ~> drop 1
getDelimiter = do
guard $ lenInTag > 4
guard $ index inTag (lenInTag 1) == '='
[newOTag,newCTag] <- Just $ splitOn (singleton ' ') delimitersCommand
Just (newOTag, newCTag)
in case getDelimiter of
Nothing -> next afterClose
Just (newOTag, newCTag) ->
processBlock (trim' afterClose) contexts
newOTag newCTag conf
| symb == '>' =
let
fileName' = tail inTag ~> trimAll
fileName'' = case muTemplateFileExt conf of
Nothing -> fileName'
Just ext -> fileName' `append` encodeStr ext
fileName = decodeStr fileName''
fullFileName = case muTemplateFileDir conf of
Nothing -> fileName
Just path -> combine path fileName
in do
F.mapM_ next =<< lift (muTemplateRead conf fullFileName)
next (trim' afterClose)
| otherwise = do
addResTL . muEscapeFunc conf =<<
lift (readVar contexts $ trimAll inTag)
next afterClose
where
next t = processBlock t contexts otag ctag conf
trim' content =
dropWhile trimCharsTest content
~> \t -> if length t > 0 && head t == '\n'
then tail t else content
hastacheStr :: (MonadIO m) =>
MuConfig m
-> Text
-> MuContext m
-> m TL.Text
hastacheStr conf str context =
hastacheStrBuilder conf str context >>= return . TLB.toLazyText
hastacheFile :: (MonadIO m) =>
MuConfig m
-> FilePath
-> MuContext m
-> m TL.Text
hastacheFile conf file_name context =
hastacheFileBuilder conf file_name context >>= return . TLB.toLazyText
hastacheStrBuilder :: (MonadIO m) =>
MuConfig m
-> Text
-> MuContext m
-> m TLB.Builder
hastacheStrBuilder conf str context = do
rf <- newIORef mempty ~> liftIO
runReaderT (processBlock str [context] defOTag defCTag conf) rf
readIORef rf ~> liftIO
hastacheFileBuilder :: (MonadIO m) =>
MuConfig m
-> FilePath
-> MuContext m
-> m TLB.Builder
hastacheFileBuilder conf file_name context = do
str <- readFile file_name ~> liftIO
hastacheStrBuilder conf str context