module Database.Sql.Hive.Scanner where
import Prelude hiding ((&&), (||), not)
import Data.Int (Int64)
import Data.Text.Lazy (Text)
import qualified Data.Text.Lazy as TL
import qualified Data.Text.Lazy.Encoding as TL
import Data.ByteString.Lazy (ByteString)
import Data.List (sortBy)
import Data.Foldable (asum)
import Data.Char (isAlphaNum, isAlpha, isSpace, isDigit)
import Control.Monad.State
import Database.Sql.Position
import Database.Sql.Hive.Token
import Data.Predicate.Class
isWordBody :: Char -> Bool
isWordBody = isAlphaNum || (== '_') || (== '$')
isHSpace :: Char -> Bool
isHSpace = isSpace && not (== '\n')
operators :: [Text]
operators = sortBy (flip compare)
[ "+", "-", "*", "/", "%"
, "||"
, "&", "|", "^", "~"
, "!"
, ":"
, "!=", "<>", ">", "<", ">=", "<=", "<=>", "=", "=="
, "(", ")", "[", "]", ",", ";"
]
isOperator :: Char -> Bool
isOperator c = elem c $ map TL.head operators
isPlusOrMinus :: Text -> Bool
isPlusOrMinus s = elem s ["+", "-"]
parseNumber :: Text -> ((Token, Int64), Text)
parseNumber = runState $ do
ipart <- state $ TL.span isDigit
gets (TL.take 1) >>= \case
"" -> pure (TokNumber ipart, TL.length ipart)
"." -> do
modify $ TL.drop 1
fpart <- state $ TL.span isDigit
gets (TL.take 1) >>= \case
"e" -> do
modify $ TL.drop 1
sign <- gets (TL.take 1) >>= \case
s | isPlusOrMinus s -> modify (TL.drop 1) >> pure s
_ -> pure ""
state (TL.span isDigit) >>= \ epart ->
let number = TL.concat [ipart, ".", fpart, "e", sign, epart]
in pure ( if TL.null epart
then TokError "..."
else TokNumber number
, TL.length number
)
_ ->
let number = TL.concat [ipart, ".", fpart]
in pure ( TokNumber number, TL.length number )
"e" -> do
modify $ TL.drop 1
sign <- gets (TL.take 1) >>= \case
s | isPlusOrMinus s -> modify (TL.drop 1) >> pure s
_ -> pure ""
epart <- state $ TL.span isDigit
gets (TL.take 1) >>= \case
c | (not . TL.null && isWordBody . TL.head) c || TL.null epart -> do
rest <- state $ TL.span isWordBody
let word = TL.concat [ipart, "e", sign, epart, rest]
pure (TokWord False word, TL.length word)
| otherwise ->
let number = TL.concat [ipart, "e", sign, epart]
in pure (TokNumber number, TL.length number)
c | (isAlpha || (== '_')) (TL.head c) -> do
rest <- state $ TL.span (isAlpha || (== '_'))
let word = TL.concat [ipart, rest]
pure (TokWord False word, TL.length word)
_ -> pure (TokNumber ipart, TL.length ipart)
tokenize :: Text -> [(Token, Position, Position)]
tokenize = go (Position 1 0 0)
where
go :: Position -> Text -> [(Token, Position, Position)]
go _ "" = []
go p t = case TL.head t of
c | isAlpha c ->
case tokUnquotedWord p t of
(name, rest, p') -> (TokWord False name, p, p') : go p' rest
c | isDigit c ->
let ((token, len), rest) = parseNumber t
p' = advanceHorizontal len p
in (token, p, p') : go p' rest
'$' | "${" `TL.isPrefixOf` t ->
let ((token, len), rest) = parseVariable t
p' = advanceHorizontal len p
in (token, p, p') : go p' rest
'`' ->
case tokQuotedWord p t of
Left p' -> [(TokError "end of input inside name", p, p')]
Right (name, rest, p') -> (TokWord True name, p, p') : go p' rest
c | (== '\n') c -> let (newlines, rest) = TL.span (== '\n') t
p' = advanceVertical (TL.length newlines) p
in go p' rest
c | isHSpace c -> let (spaces, rest) = TL.span isHSpace t
p' = advanceHorizontal (TL.length spaces) p
in go p' rest
'-' | "--" `TL.isPrefixOf` t ->
let (comment, rest) = TL.span (/= '\n') t
p' = advanceVertical 1
(advanceHorizontal (TL.length comment) p)
in go p' (TL.drop 1 rest)
'/' | "/*+" `TL.isPrefixOf` t ->
case TL.breakOn "*/" t of
(comment, "") ->
let p' = advance comment p
in [(TokError "unterminated join hint", p, p')]
(comment, rest) ->
let p' = advance (TL.append comment "*/") p
in go p' $ TL.drop 2 rest
c | c == '\'' || c == '"' ->
case tokString c p t of
Left (tok, p') -> [(tok, p, p')]
Right (string, rest, p') -> (TokString string, p, p') : go p' rest
'.' ->
let p' = advanceHorizontal 1 p
in (TokSymbol ".", p, p') : go p' (TL.tail t)
c | isOperator c -> case readOperator t of
Just (sym, rest) -> let p' = advanceHorizontal (TL.length sym) p
in (TokSymbol sym, p, p') : go p' rest
Nothing ->
let opchars = TL.take 5 t
p' = advance opchars p
message = unwords
[ "unrecognized operator starting with"
, show opchars
]
in [(TokError message, p, p')]
c ->
let message = unwords
[ "unmatched character ('" ++ show c ++ "') at position"
, show p
]
in [(TokError message, p, advanceHorizontal 1 p)]
readOperator t = asum
$ map (\ op -> (op,) <$> TL.stripPrefix op t) operators
tokUnquotedWord :: Position -> Text -> (Text, Text, Position)
tokUnquotedWord pos input =
case TL.span (isAlphaNum || (== '_')) input of
(word, rest) -> (TL.toLower word, rest, advanceHorizontal (TL.length word) pos)
tokQuotedWord :: Position -> Text -> Either Position (Text, Text, Position)
tokQuotedWord pos = go (advanceHorizontal 1 pos) [] . TL.tail
where
go p _ "" = Left p
go p ts input = case TL.head input of
c | c == '`' ->
let (quotes, rest) = TL.span (== '`') input
len = TL.length quotes
in if len `mod` 2 == 0
then go (advanceHorizontal len p)
(TL.take (len `div` 2) quotes :ts)
rest
else Right ( TL.concat $ reverse (TL.take (len `div` 2) quotes : ts)
, rest
, advanceHorizontal len p
)
_ -> let (t, rest) = TL.span (/= '`') input
in go (advance t p) (t:ts) rest
tokString :: Char -> Position -> Text -> Either (Token, Position) (ByteString, Text, Position)
tokString quote pos = go (advanceHorizontal 1 pos) [] . TL.drop 1
where
boring = not . (`elem` [quote, '\\'])
halve txt = TL.take (TL.length txt `div` 2) txt
go p ts input = case TL.span boring input of
(cs, "") -> Left (TokError "end of input inside string", advance cs p)
("", rest) -> handleSlashes p ts rest
(cs, rest) -> handleSlashes (advance cs p) (cs:ts) rest
handleSlashes p ts input = case TL.span (== '\\') input of
(cs, "") -> Left (TokError "end of input inside string", advance cs p)
("", _) -> handleQuote p ts input
(slashes, rest) ->
let len = TL.length slashes
in if len `mod` 2 == 0
then go (advanceHorizontal len p) (halve slashes:ts) rest
else case TL.splitAt 1 rest of
(c, rest')
| c == "a" -> go (advanceHorizontal (len + 1) p) ("\a":halve slashes:ts) rest'
| c == "b" -> go (advanceHorizontal (len + 1) p) ("\BS":halve slashes:ts) rest'
| c == "f" -> go (advanceHorizontal (len + 1) p) ("\FF":halve slashes:ts) rest'
| c == "n" -> go (advanceHorizontal (len + 1) p) ("\n":halve slashes:ts) rest'
| c == "r" -> go (advanceHorizontal (len + 1) p) ("\r":halve slashes:ts) rest'
| c == "t" -> go (advanceHorizontal (len + 1) p) ("\t":halve slashes:ts) rest'
| c == "v" -> go (advanceHorizontal (len + 1) p) ("\v":halve slashes:ts) rest'
| c == "'" -> go (advanceHorizontal (len + 1) p) ("'":halve slashes:ts) rest'
| c == "\"" -> go (advanceHorizontal (len + 1) p) ("\"":halve slashes:ts) rest'
| otherwise -> go (advanceHorizontal (len + 1) p) (c:"\\":halve slashes:ts) rest'
handleQuote p ts input = case TL.splitAt 1 input of
(c, rest) | c == TL.singleton quote ->
Right ( TL.encodeUtf8 $ TL.concat $ reverse ts
, rest
, advanceHorizontal 1 p
)
x -> error $ "this shouldn't happen: handleQuote splitInput got " ++ show x
parseVariable :: Text -> ((Token, Int64), Text)
parseVariable = runState $ do
let endOfInput = "end of input inside variable substitution"
missingNamespaceOrName = "variable substitutions must have a namespace and a name"
colon = (== ':')
closeCurly = (== '}')
modify $ TL.drop 2
namespace <- state (TL.break colon)
gets (TL.take 1) >>= \case
"" ->
let varLen = 2 + TL.length namespace
in if (not $ TL.null namespace) && (TL.last namespace == '}')
then pure (TokError missingNamespaceOrName, varLen)
else pure (TokError endOfInput, varLen)
_ -> do
modify $ TL.drop 1
gets (TL.take 2) >>= \case
"${" -> do
((subName, subLen), rest) <- gets parseVariable
_ <- put rest
gets (TL.take 1) >>= \case
"}" -> do
modify $ TL.drop 1
let varLen = 2 + TL.length namespace + 1 + subLen + 1
varName = TokVariable namespace $ DynamicName subName
pure $ liftInnerErrors $ enforceNamespaces $ (varName, varLen)
_ -> do
let varLen = 2 + TL.length namespace + 1 + subLen
pure (TokError endOfInput, varLen)
_ -> do
name <- state (TL.break closeCurly)
gets (TL.take 1) >>= \case
"" ->
let varLen = 2 + TL.length namespace + 1 + TL.length name
in pure (TokError endOfInput, varLen)
_ -> do
modify $ TL.drop 1
let varLen = 2 + TL.length namespace + 1 + TL.length name + 1
if TL.null name
then pure (TokError missingNamespaceOrName, varLen)
else pure $ enforceNamespaces $ (TokVariable namespace $ StaticName name, varLen)
where
enforceNamespaces tok@(TokVariable ns _, len) =
let allowedNamespaces = ["hiveconf", "system", "env", "define", "hivevar"]
permitted = (`elem` allowedNamespaces)
in if permitted ns
then tok
else (TokError $ "bad namespace in variable substitution: " ++ show ns, len)
enforceNamespaces x = x
liftInnerErrors (TokVariable _ (DynamicName (TokError msg)), len) = (TokError msg, len)
liftInnerErrors x = x