module Language.Javascript.JMacro.QQ(jmacro,jmacroE,parseJM,parseJME) where
import Prelude hiding (tail, init, head, last, minimum, maximum, foldr1, foldl1, (!!), read)
import Control.Applicative hiding ((<|>),many,optional)
import Control.Arrow(first)
import Control.Monad.State.Strict
import Data.Char(digitToInt, toLower, isUpper)
import Data.List(isPrefixOf, sort)
import Data.Generics(extQ,Data)
import Data.Maybe(fromMaybe)
import Data.Monoid
import qualified Data.Map as M
import qualified Language.Haskell.TH as TH
import Language.Haskell.TH(mkName)
import Language.Haskell.TH.Quote
import Text.ParserCombinators.Parsec
import Text.ParserCombinators.Parsec.Expr
import Text.ParserCombinators.Parsec.Error
import qualified Text.ParserCombinators.Parsec.Token as P
import Text.ParserCombinators.Parsec.Language(javaStyle)
import Text.Regex.Posix.String
import Language.Javascript.JMacro.Base
import Language.Javascript.JMacro.Types
import Language.Javascript.JMacro.ParseTH
import System.IO.Unsafe
import Numeric(readHex)
jmacro :: QuasiQuoter
jmacro = QuasiQuoter {quoteExp = quoteJMExp, quotePat = quoteJMPat}
jmacroE :: QuasiQuoter
jmacroE = QuasiQuoter {quoteExp = quoteJMExpE, quotePat = quoteJMPatE}
quoteJMPat :: String -> TH.PatQ
quoteJMPat s = case parseJM s of
Right x -> dataToPatQ (const Nothing) x
Left err -> fail (show err)
quoteJMExp :: String -> TH.ExpQ
quoteJMExp s = case parseJM s of
Right x -> jm2th x
Left err -> do
(line,_) <- TH.loc_start <$> TH.location
let pos = errorPos err
let newPos = setSourceLine pos $ line + sourceLine pos 1
fail (show $ setErrorPos newPos err)
quoteJMPatE :: String -> TH.PatQ
quoteJMPatE s = case parseJME s of
Right x -> dataToPatQ (const Nothing) x
Left err -> fail (show err)
quoteJMExpE :: String -> TH.ExpQ
quoteJMExpE s = case parseJME s of
Right x -> jm2th x
Left err -> do
(line,_) <- TH.loc_start <$> TH.location
let pos = errorPos err
let newPos = setSourceLine pos $ line + sourceLine pos 1
fail (show $ setErrorPos newPos err)
antiIdent :: JMacro a => String -> a -> a
antiIdent s e = jfromGADT $ go (jtoGADT e)
where go :: forall a. JMGadt a -> JMGadt a
go (JMGExpr (ValExpr (JVar (StrI s'))))
| s == s' = JMGExpr (AntiExpr $ fixIdent s)
go (JMGExpr (SelExpr x i)) =
JMGExpr (SelExpr (antiIdent s x) i)
go x = composOp go x
antiIdents :: JMacro a => [String] -> a -> a
antiIdents ss x = foldr antiIdent x ss
fixIdent :: String -> String
fixIdent "_" = "_x_"
fixIdent css@(c:_)
| isUpper c = '_' : escapeDollar css
| otherwise = escapeDollar css
where
escapeDollar = map (\x -> if x =='$' then 'dž' else x)
fixIdent _ = "_x_"
jm2th :: Data a => a -> TH.ExpQ
jm2th v = dataToExpQ (const Nothing
`extQ` handleStat
`extQ` handleExpr
`extQ` handleVal
`extQ` handleStr
`extQ` handleTyp
) v
where handleStat :: JStat -> Maybe (TH.ExpQ)
handleStat (BlockStat ss) = Just $
appConstr "BlockStat" $
TH.listE (blocks ss)
where blocks :: [JStat] -> [TH.ExpQ]
blocks [] = []
blocks (DeclStat (StrI i) t:xs) = case i of
('!':'!':i') -> jm2th (DeclStat (StrI i') t) : blocks xs
('!':i') ->
[TH.appE (TH.lamE [TH.varP . mkName . fixIdent $ i'] $
appConstr "BlockStat"
(TH.listE . (ds:) . blocks $ xs)) (TH.appE (TH.varE $ mkName "jsv")
(TH.litE $ TH.StringL i'))]
where ds =
TH.appE
(TH.appE (TH.conE $ mkName "DeclStat")
(TH.appE (TH.conE $ mkName "StrI")
(TH.litE $ TH.StringL i')))
(jm2th t)
_ ->
[TH.appE
(TH.appE (TH.varE $ mkName "jVarTy")
(TH.lamE [TH.varP . mkName . fixIdent $ i] $
appConstr "BlockStat"
(TH.listE $ blocks $ map (antiIdent i) xs)))
(jm2th t)
]
blocks (x:xs) = jm2th x : blocks xs
handleStat (ForInStat b (StrI i) e s) = Just $
appFun (TH.varE $ forFunc)
[jm2th e,
TH.lamE [TH.varP $ mkName i]
(jm2th $ antiIdent i s)
]
where forFunc
| b = mkName "jForEachIn"
| otherwise = mkName "jForIn"
handleStat (TryStat s (StrI i) s1 s2)
| s1 == BlockStat [] = Nothing
| otherwise = Just $
appFun (TH.varE $ mkName "jTryCatchFinally")
[jm2th s,
TH.lamE [TH.varP $ mkName i]
(jm2th $ antiIdent i s1),
jm2th s2
]
handleStat (AntiStat s) = case parseHSExp s of
Right ans -> Just $ TH.appE (TH.varE (mkName "toStat"))
(return ans)
Left err -> Just $ fail err
handleStat _ = Nothing
handleExpr :: JExpr -> Maybe (TH.ExpQ)
handleExpr (AntiExpr s) = case parseHSExp s of
Right ans -> Just $ TH.appE (TH.varE (mkName "toJExpr")) (return ans)
Left err -> Just $ fail err
handleExpr (ValExpr (JFunc is' s)) = Just $
TH.appE (TH.varE $ mkName "jLam")
(TH.lamE (map (TH.varP . mkName . fixIdent) is)
(jm2th $ antiIdents is s))
where is = map (\(StrI i) -> i) is'
handleExpr _ = Nothing
handleVal :: JVal -> Maybe (TH.ExpQ)
handleVal (JHash m) = Just $
TH.appE (TH.varE $ mkName "jhFromList") $
jm2th (M.toList m)
handleVal _ = Nothing
handleStr :: String -> Maybe (TH.ExpQ)
handleStr x = Just $ TH.litE $ TH.StringL x
handleTyp :: JType -> Maybe (TH.ExpQ)
handleTyp (JTRecord t mp) = Just $
TH.appE (TH.appE (TH.varE $ mkName "jtFromList") (jm2th t))
(jm2th $ M.toList mp)
handleTyp _ = Nothing
appFun x = foldl (TH.appE) x
appConstr n = TH.appE (TH.conE $ mkName n)
type JMParser a = CharParser () a
lexer :: P.TokenParser ()
symbol :: String -> JMParser String
parens, braces :: JMParser a -> JMParser a
dot, colon, semi, identifier, identifierWithBang :: JMParser String
whiteSpace :: JMParser ()
reserved, reservedOp :: String -> JMParser ()
commaSep, commaSep1 :: JMParser a -> JMParser [a]
lexer = P.makeTokenParser jsLang
jsLang :: P.LanguageDef ()
jsLang = javaStyle {
P.reservedNames = ["var","return","if","else","while","for","in","break","continue","new","function","switch","case","default","fun","try","catch","finally","foreign","do"],
P.reservedOpNames = ["|>","<|","+=","-=","*=","/=","%=","<<=", ">>=", ">>>=", "&=", "^=", "|=", "--","*","/","+","-",".","%","?","=","==","!=","<",">","&&","||","&", "^", "|", "++","===","!==", ">=","<=","!", "~", "<<", ">>", ">>>", "->","::","::!",":|","@"],
P.identLetter = alphaNum <|> oneOf "_$",
P.identStart = letter <|> oneOf "_$",
P.opStart = oneOf "|+-/*%<>&^.?=!~:@",
P.opLetter = oneOf "|+-/*%<>&^.?=!~:@",
P.commentLine = "//",
P.commentStart = "/*",
P.commentEnd = "*/"}
identifierWithBang = P.identifier $ P.makeTokenParser $ jsLang {P.identStart = letter <|> oneOf "_$!"}
whiteSpace= P.whiteSpace lexer
symbol = P.symbol lexer
parens = P.parens lexer
braces = P.braces lexer
dot = P.dot lexer
colon = P.colon lexer
semi = P.semi lexer
identifier= P.identifier lexer
reserved = P.reserved lexer
reservedOp= P.reservedOp lexer
commaSep1 = P.commaSep1 lexer
commaSep = P.commaSep lexer
lexeme :: JMParser a -> JMParser a
lexeme = P.lexeme lexer
(<<*) :: Monad m => m b -> m a -> m b
x <<* y = do
xr <- x
_ <- y
return xr
parseJM :: String -> Either ParseError JStat
parseJM s = BlockStat <$> runParser jmacroParser () "" s
where jmacroParser = do
ans <- statblock
eof
return ans
parseJME :: String -> Either ParseError JExpr
parseJME s = runParser jmacroParserE () "" s
where jmacroParserE = do
ans <- whiteSpace >> expr
eof
return ans
getType :: JMParser (Bool, JLocalType)
getType = do
isForce <- (reservedOp "::!" >> return True) <|> (reservedOp "::" >> return False)
t <- runTypeParser
return (isForce, t)
addForcedType :: Maybe (Bool, JLocalType) -> JExpr -> JExpr
addForcedType (Just (True,t)) e = TypeExpr True e t
addForcedType _ e = e
varidentdecl :: JMParser (Ident, Maybe (Bool, JLocalType))
varidentdecl = do
i <- identifierWithBang
when ("jmId_" `isPrefixOf` i || "!jmId_" `isPrefixOf` i) $ fail "Illegal use of reserved jmId_ prefix in variable name."
when (i=="this" || i=="!this") $ fail "Illegal attempt to name variable 'this'."
t <- optionMaybe getType
return (StrI i, t)
identdecl :: JMParser Ident
identdecl = do
i <- identifier
when ("jmId_" `isPrefixOf` i) $ fail "Illegal use of reserved jmId_ prefix in variable name."
when (i=="this") $ fail "Illegal attempt to name variable 'this'."
return (StrI i)
cleanIdent :: Ident -> Ident
cleanIdent (StrI ('!':x)) = StrI x
cleanIdent x = x
data PatternTree = PTAs Ident PatternTree
| PTCons PatternTree PatternTree
| PTList [PatternTree]
| PTObj [(String,PatternTree)]
| PTVar Ident
deriving Show
patternTree :: JMParser PatternTree
patternTree = toCons <$> (parens patternTree <|> ptList <|> ptObj <|> varOrAs) `sepBy1` reservedOp ":|"
where
toCons [] = PTVar (StrI "_")
toCons [x] = x
toCons (x:xs) = PTCons x (toCons xs)
ptList = lexeme $ PTList <$> brackets' (commaSep patternTree)
ptObj = lexeme $ PTObj <$> oxfordBraces (commaSep $ liftM2 (,) myIdent (colon >> patternTree))
varOrAs = do
i <- fst <$> varidentdecl
isAs <- option False (reservedOp "@" >> return True)
if isAs
then PTAs i <$> patternTree
else return $ PTVar i
patternBinding :: JMParser (Either (Ident -> [JStat]) (Ident,[JStat]))
patternBinding = do
ptree <- patternTree
let go path (PTAs asIdent pt) = [DeclStat asIdent Nothing, AssignStat (ValExpr (JVar (cleanIdent asIdent))) path] ++ go path pt
go path (PTVar i)
| i == (StrI "_") = []
| otherwise = [DeclStat i Nothing, AssignStat (ValExpr (JVar (cleanIdent i))) (path)]
go path (PTList pts) = concatMap (uncurry go) $ zip (map addIntToPath [0..]) pts
where addIntToPath i = IdxExpr path (ValExpr $ JInt i)
go path (PTObj xs) = concatMap (uncurry go) $ map (first fixPath) xs
where fixPath lbl = IdxExpr path (ValExpr $ JStr lbl)
go path (PTCons x xs) = concat [go (IdxExpr path (ValExpr $ JInt 0)) x,
go (ApplExpr (SelExpr path (StrI "slice")) [ValExpr $ JInt 1]) xs]
case ptree of
PTVar i -> return $ Right (i,[])
PTAs i pt -> return $ Right (i, go (ValExpr $ JVar i) pt)
_ -> return $ Left $ \i -> go (ValExpr $ JVar i) ptree
patternBlocks :: JMParser ([Ident],[JStat])
patternBlocks = fmap concat . unzip . zipWith (\i efr -> either (\f -> (i, f i)) id efr) (map (StrI . ("jmId_match_" ++) . show) [(1::Int)..]) <$> many patternBinding
destructuringDecl :: JMParser [JStat]
destructuringDecl = do
(i,patDecls) <- either (\f -> (matchVar, f matchVar)) id <$> patternBinding
optAssignStat <- optionMaybe $ do
reservedOp "="
e <- expr
return $ AssignStat (ValExpr (JVar (cleanIdent i))) e : patDecls
return $ DeclStat i Nothing : fromMaybe [] optAssignStat
where matchVar = StrI "jmId_match_var"
statblock :: JMParser [JStat]
statblock = concat <$> (sepEndBy1 (whiteSpace >> statement) (semi <|> return ""))
statblock0 :: JMParser [JStat]
statblock0 = try statblock <|> (whiteSpace >> return [])
l2s :: [JStat] -> JStat
l2s xs = BlockStat xs
statementOrEmpty :: JMParser [JStat]
statementOrEmpty = try emptyStat <|> statement
where emptyStat = braces (whiteSpace >> return [])
statement :: JMParser [JStat]
statement = declStat
<|> funDecl
<|> functionDecl
<|> foreignStat
<|> returnStat
<|> labelStat
<|> ifStat
<|> whileStat
<|> switchStat
<|> forStat
<|> doWhileStat
<|> braces statblock
<|> assignOpStat
<|> tryStat
<|> applStat
<|> breakStat
<|> continueStat
<|> antiStat
<|> antiStatSimple
<?> "statement"
where
declStat = do
reserved "var"
res <- concat <$> commaSep1 destructuringDecl
_ <- semi
return res
functionDecl = do
reserved "function"
(i,mbTyp) <- varidentdecl
(as,patDecls) <- fmap (\x -> (x,[])) (try $ parens (commaSep identdecl)) <|> patternBlocks
b' <- try (ReturnStat <$> braces expr) <|> (l2s <$> statement)
let b = BlockStat patDecls `mappend` b'
return $ [DeclStat i (fmap snd mbTyp),
AssignStat (ValExpr $ JVar (cleanIdent i)) (addForcedType mbTyp $ ValExpr $ JFunc as b)]
funDecl = do
reserved "fun"
n <- identdecl
mbTyp <- optionMaybe getType
(as, patDecls) <- patternBlocks
b' <- try (ReturnStat <$> braces expr) <|> (l2s <$> statement) <|> (symbol "->" >> ReturnStat <$> expr)
let b = BlockStat patDecls `mappend` b'
return $ [DeclStat (addBang n) (fmap snd mbTyp),
AssignStat (ValExpr $ JVar n) (addForcedType mbTyp $ ValExpr $ JFunc as b)]
where addBang (StrI x) = StrI ('!':'!':x)
foreignStat = do
reserved "foreign"
i <- try $ identdecl <<* reservedOp "::"
t <- runTypeParser
return [ForeignStat i t]
returnStat =
reserved "return" >> (:[]) . ReturnStat <$> option (ValExpr $ JVar $ StrI "undefined") expr
ifStat = do
reserved "if"
p <- parens expr
b <- l2s <$> statementOrEmpty
isElse <- (lookAhead (reserved "else") >> return True)
<|> return False
if isElse
then do
reserved "else"
return . IfStat p b . l2s <$> statementOrEmpty
else return $ [IfStat p b nullStat]
whileStat =
reserved "while" >> liftM2 (\e b -> [WhileStat False e (l2s b)])
(parens expr) statementOrEmpty
doWhileStat = reserved "do" >> liftM2 (\b e -> [WhileStat True e (l2s b)])
statementOrEmpty (reserved "while" *> parens expr)
switchStat = do
reserved "switch"
e <- parens $ expr
(l,d) <- braces (liftM2 (,) (many caseStat) (option ([]) dfltStat))
return $ [SwitchStat e l (l2s d)]
caseStat =
reserved "case" >> liftM2 (,) expr (char ':' >> l2s <$> statblock)
tryStat = do
reserved "try"
s <- statement
isCatch <- (lookAhead (reserved "catch") >> return True)
<|> return False
(i,s1) <- if isCatch
then do
reserved "catch"
liftM2 (,) (parens identdecl) statement
else return $ (StrI "", [])
isFinally <- (lookAhead (reserved "finally") >> return True)
<|> return False
s2 <- if isFinally
then reserved "finally" >> statement
else return $ []
return [TryStat (BlockStat s) i (BlockStat s1) (BlockStat s2)]
dfltStat =
reserved "default" >> char ':' >> whiteSpace >> statblock
forStat =
reserved "for" >> ((reserved "each" >> inBlock True)
<|> try (inBlock False)
<|> simpleForStat)
inBlock isEach = do
char '(' >> whiteSpace >> optional (reserved "var")
i <- identdecl
reserved "in"
e <- expr
char ')' >> whiteSpace
s <- l2s <$> statement
return $ [ForInStat isEach i e s]
simpleForStat = do
(before,after,p) <- parens threeStat
b <- statement
return $ jFor' before after p b
where threeStat =
liftM3 (,,) (option [] statement <<* optional semi)
(optionMaybe expr <<* semi)
(option [] statement)
jFor' :: [JStat] -> Maybe JExpr -> [JStat]-> [JStat] -> [JStat]
jFor' before p after bs = before ++ [WhileStat False (fromMaybe (jsv "true") p) b']
where b' = BlockStat $ bs ++ after
assignOpStat = do
let rop x = reservedOp x >> return x
(e1,op) <- try $ liftM2 (,) dotExpr (fmap (take 1) $
rop "="
<|> rop "+="
<|> rop "-="
<|> rop "*="
<|> rop "/="
<|> rop "%="
<|> rop "<<="
<|> rop ">>="
<|> rop ">>>="
<|> rop "&="
<|> rop "^="
<|> rop "|="
)
let gofail = fail ("Invalid assignment.")
badList = ["this","true","false","undefined","null"]
case e1 of
ValExpr (JVar (StrI s)) -> if s `elem` badList then gofail else return ()
ApplExpr _ _ -> gofail
ValExpr _ -> gofail
_ -> return ()
e2 <- expr
return [AssignStat e1 (if op == "=" then e2 else InfixExpr op e1 e2)]
applStat = expr2stat' =<< expr
expr2stat' e = case expr2stat e of
BlockStat [] -> pzero
x -> return [x]
breakStat = do
reserved "break"
l <- optionMaybe myIdent
return [BreakStat l]
continueStat = do
reserved "continue"
l <- optionMaybe myIdent
return [ContinueStat l]
labelStat = do
lbl <- try $ do
l <- myIdent <<* char ':'
guard (l /= "default")
return l
s <- l2s <$> statblock0
return [LabelStat lbl s]
antiStat = return . AntiStat <$> do
x <- (try (symbol "`(") >> anyChar `manyTill` try (symbol ")`"))
either (fail . ("Bad AntiQuotation: \n" ++))
(const (return x))
(parseHSExp x)
antiStatSimple = return . AntiStat <$> do
x <- (symbol "`" >> anyChar `manyTill` symbol "`")
either (fail . ("Bad AntiQuotation: \n" ++))
(const (return x))
(parseHSExp x)
compileRegex :: String -> Either WrapError Regex
compileRegex s = unsafePerformIO $ compile co eo s
where co = compExtended
eo = execBlank
expr :: JMParser JExpr
expr = do
e <- exprWithIf
addType e
where
addType e = do
optTyp <- optionMaybe getType
case optTyp of
(Just (b,t)) -> return $ TypeExpr b e t
Nothing -> return e
exprWithIf = do
e <- rawExpr
addIf e <|> return e
addIf e = do
reservedOp "?"
t <- exprWithIf
_ <- colon
el <- exprWithIf
let ans = (IfExpr e t el)
addIf ans <|> return ans
rawExpr = buildExpressionParser table dotExpr <?> "expression"
table = [[pop "~", pop "!", negop],
[iop "*", iop "/", iop "%"],
[pop "++", pop "--"],
[iop "++", iop "+", iop "-", iop "--"],
[iop "<<", iop ">>", iop ">>>"],
[consOp],
[iope "==", iope "!=", iope "<", iope ">",
iope ">=", iope "<=", iope "===", iope "!=="],
[iop "&"],
[iop "^"],
[iop "|"],
[iop "&&"],
[iop "||"],
[applOp, applOpRev]
]
pop s = Prefix (reservedOp s >> return (PPostExpr True s))
iop s = Infix (reservedOp s >> return (InfixExpr s)) AssocLeft
iope s = Infix (reservedOp s >> return (InfixExpr s)) AssocNone
applOp = Infix (reservedOp "<|" >> return (\x y -> ApplExpr x [y])) AssocRight
applOpRev = Infix (reservedOp "|>" >> return (\x y -> ApplExpr y [x])) AssocLeft
consOp = Infix (reservedOp ":|" >> return consAct) AssocRight
consAct x y = ApplExpr (ValExpr (JFunc [StrI "x",StrI "y"] (BlockStat [BlockStat [DeclStat (StrI "tmp") Nothing, AssignStat tmpVar (ApplExpr (SelExpr (ValExpr (JVar (StrI "x"))) (StrI "slice")) [ValExpr (JInt 0)]),ApplStat (SelExpr tmpVar (StrI "unshift")) [ValExpr (JVar (StrI "y"))],ReturnStat tmpVar]]))) [x,y]
where tmpVar = ValExpr (JVar (StrI "tmp"))
negop = Prefix (reservedOp "-" >> return negexp)
negexp (ValExpr (JDouble n)) = ValExpr (JDouble (n))
negexp (ValExpr (JInt n)) = ValExpr (JInt (n))
negexp x = PPostExpr True "-" x
dotExpr :: JMParser JExpr
dotExpr = do
e <- many1 (lexeme dotExprOne) <?> "simple expression"
case e of
[e'] -> return e'
(e':es) -> return $ ApplExpr e' es
_ -> error "exprApp"
dotExprOne :: JMParser JExpr
dotExprOne = addNxt =<< valExpr <|> antiExpr <|> antiExprSimple <|> parens' expr <|> notExpr <|> newExpr
where
addNxt e = do
nxt <- (Just <$> lookAhead anyChar <|> return Nothing)
case nxt of
Just '.' -> addNxt =<< (dot >> (SelExpr e <$> (ident' <|> numIdent)))
Just '[' -> addNxt =<< (IdxExpr e <$> brackets' expr)
Just '(' -> addNxt =<< (ApplExpr e <$> parens' (commaSep expr))
Just '-' -> try (reservedOp "--" >> return (PPostExpr False "--" e)) <|> return e
Just '+' -> try (reservedOp "++" >> return (PPostExpr False "++" e)) <|> return e
_ -> return e
numIdent = StrI <$> many1 digit
notExpr = try (symbol "!" >> dotExpr) >>= \e ->
return (ApplExpr (ValExpr (JVar (StrI "!"))) [e])
newExpr = NewExpr <$> (reserved "new" >> dotExpr)
antiExpr = AntiExpr <$> do
x <- (try (symbol "`(") >> anyChar `manyTill` try (string ")`"))
either (fail . ("Bad AntiQuotation: \n" ++))
(const (return x))
(parseHSExp x)
antiExprSimple = AntiExpr <$> do
x <- (symbol "`" >> anyChar `manyTill` string "`")
either (fail . ("Bad AntiQuotation: \n" ++))
(const (return x))
(parseHSExp x)
valExpr = ValExpr <$> (num <|> str <|> try regex <|> list <|> hash <|> func <|> var) <?> "value"
where num = either JInt JDouble <$> try natFloat
str = JStr <$> (myStringLiteral '"' <|> myStringLiteral '\'')
regex = do
s <- regexLiteral
case compileRegex s of
Right _ -> return (JRegEx s)
Left err -> fail ("Parse error in regexp: " ++ show err)
list = JList <$> brackets' (commaSep expr)
hash = JHash . M.fromList <$> braces' (commaSep propPair)
var = JVar <$> ident'
func = do
(symbol "\\" >> return ()) <|> reserved "function"
(as,patDecls) <- fmap (\x -> (x,[])) (try $ parens (commaSep identdecl)) <|> patternBlocks
b' <- (braces' statOrEblock <|> (symbol "->" >> (ReturnStat <$> expr)))
return $ JFunc as (BlockStat patDecls `mappend` b')
statOrEblock = try (ReturnStat <$> expr `folBy` '}') <|> (l2s <$> statblock)
propPair = liftM2 (,) myIdent (colon >> expr)
folBy :: JMParser a -> Char -> JMParser a
folBy a b = a <<* (lookAhead (char b) >>= const (return ()))
braces', brackets', parens', oxfordBraces :: JMParser a -> JMParser a
brackets' = around' '[' ']'
braces' = around' '{' '}'
parens' = around' '(' ')'
oxfordBraces x = lexeme (reservedOp "{|") >> (lexeme x <<* reservedOp "|}")
around' :: Char -> Char -> JMParser a -> JMParser a
around' a b x = lexeme (char a) >> (lexeme x <<* char b)
myIdent :: JMParser String
myIdent = lexeme $ many1 (alphaNum <|> oneOf "_-!@#$%^&*()") <|> myStringLiteral '\''
ident' :: JMParser Ident
ident' = do
i <- identifier'
when ("jmId_" `isPrefixOf` i) $ fail "Illegal use of reserved jmId_ prefix in variable name."
return (StrI i)
where
identifier' =
try $
do{ name <- ident''
; if isReservedName name
then unexpected ("reserved word " ++ show name)
else return name
}
ident''
= do{ c <- P.identStart jsLang
; cs <- many (P.identLetter jsLang)
; return (c:cs)
}
<?> "identifier"
isReservedName name
= isReserved theReservedNames caseName
where
caseName | P.caseSensitive jsLang = name
| otherwise = map toLower name
isReserved names name
= scan names
where
scan [] = False
scan (r:rs) = case (compare r name) of
LT -> scan rs
EQ -> True
GT -> False
theReservedNames
| P.caseSensitive jsLang = sortedNames
| otherwise = map (map toLower) sortedNames
where
sortedNames = sort (P.reservedNames jsLang)
natFloat :: Fractional a => JMParser (Either Integer a)
natFloat = (char '0' >> zeroNumFloat)
<|> decimalFloat <?> "number"
where
zeroNumFloat = (Left <$> (hexadecimal <|> octal))
<|> decimalFloat
<|> fractFloat 0
<|> return (Left 0)
decimalFloat = do n <- decimal
option (Left n)(fractFloat n)
fractFloat n = Right <$> fractExponent n
fractExponent n = (do fract <- fraction
expo <- option 1.0 exponent'
return ((fromInteger n + fract)*expo)
)
<|> ((fromInteger n *) <$> exponent')
fraction = char '.' >> (foldr op 0.0 <$> many1 digit <?> "fraction")
where
op d f = (f + fromIntegral (digitToInt d))/10.0
exponent' = do _ <- oneOf "eE"
f <- sign
power . f <$> decimal
where
power e | e < 0 = 1.0/power(e)
| otherwise = fromInteger (10^e)
sign = (char '-' >> return negate)
<|> (char '+' >> return id)
<|> return id
decimal = number 10 digit
hexadecimal = oneOf "xX" >> number 16 hexDigit
octal = oneOf "oO" >> number 8 octDigit
number base baseDig = foldl (\x d -> base*x + toInteger (digitToInt d)) 0 <$> many1 baseDig
myStringLiteral :: Char -> JMParser String
myStringLiteral t = do
_ <- char t
x <- concat <$> many myChar
_ <- char t
decodeJson x
where myChar = do
c <- noneOf [t]
case c of
'\\' -> do
c2 <- anyChar
return [c,c2]
_ -> return [c]
decodeJson :: String -> JMParser String
decodeJson x = parseIt [] x
where
parseIt rs cs =
case cs of
'\\' : c : ds -> esc rs c ds
c : ds
| c >= '\x20' && c <= '\xff' -> parseIt (c:rs) ds
| c < '\x20' -> fail $ "Illegal unescaped character in string: " ++ x
| i <= 0x10ffff -> parseIt (c:rs) ds
| otherwise -> fail $ "Illegal unescaped character in string: " ++ x
where
i = (fromIntegral (fromEnum c) :: Integer)
[] -> return $ reverse rs
esc rs c cs = case c of
'\\' -> parseIt ('\\' : rs) cs
'"' -> parseIt ('"' : rs) cs
'n' -> parseIt ('\n' : rs) cs
'r' -> parseIt ('\r' : rs) cs
't' -> parseIt ('\t' : rs) cs
'f' -> parseIt ('\f' : rs) cs
'b' -> parseIt ('\b' : rs) cs
'/' -> parseIt ('/' : rs) cs
'u' -> case cs of
d1 : d2 : d3 : d4 : cs' ->
case readHex [d1,d2,d3,d4] of
[(n,"")] -> parseIt (toEnum n : rs) cs'
badHex -> fail $ "Unable to parse JSON String: invalid hex: " ++ show badHex
_ -> fail $ "Unable to parse JSON String: invalid hex: " ++ cs
_ -> fail $ "Unable to parse JSON String: invalid escape char: " ++ [c]
regexLiteral :: JMParser String
regexLiteral = do
_ <- char '/'
x <- concat <$> many myChar
_ <- char '/'
b <- option False (char '/' >> return True)
if b
then mzero
else return x
where myChar = do
c <- noneOf ['/','\n']
case c of
'\\' -> do
c2 <- anyChar
return [c,c2]
_ -> return [c]