{-# LANGUAGE CPP #-}
{-# LANGUAGE DeriveAnyClass #-}
{-# LANGUAGE MultiParamTypeClasses #-}
{-# LANGUAGE OverloadedStrings #-}
module Dhall.Parser.Combinators where
import Control.Applicative (Alternative (..), liftA2)
import Control.Exception (Exception)
import Control.Monad (MonadPlus (..))
import Data.Semigroup (Semigroup (..))
import Data.Sequence (ViewL (..))
import Data.String (IsString (..))
import Data.Text (Text)
import Data.Text.Prettyprint.Doc (Pretty (..))
import Data.Void (Void)
import Dhall.Map (Map)
import Dhall.Set (Set)
import Dhall.Src (Src(..))
import Prelude hiding (const, pi)
import Text.Parser.Combinators (try, (<?>))
import Text.Parser.Token (TokenParsing (..))
import qualified Control.Monad.Fail
import qualified Data.Char
import qualified Data.Sequence
import qualified Data.Set
import qualified Data.Text
import qualified Data.Text.Prettyprint.Doc as Pretty
import qualified Data.Text.Prettyprint.Doc.Render.String as Pretty
import qualified Dhall.Map
import qualified Dhall.Pretty
import qualified Dhall.Set
import qualified Text.Megaparsec
#if !MIN_VERSION_megaparsec(7, 0, 0)
import qualified Text.Megaparsec.Char as Text.Megaparsec (satisfy)
#endif
import qualified Text.Megaparsec.Char
import qualified Text.Parser.Char
import qualified Text.Parser.Combinators
import qualified Text.Parser.Token.Style
data SourcedException e = SourcedException Src e
instance Exception e => Exception (SourcedException e)
instance Show e => Show (SourcedException e) where
show (SourcedException source exception) =
show exception
<> "\n"
<> "\n"
<> Pretty.renderString
(Pretty.layoutPretty Dhall.Pretty.layoutOpts (pretty source))
laxSrcEq :: Src -> Src -> Bool
laxSrcEq (Src p q _) (Src p' q' _) = eq p p' && eq q q'
where
eq :: Text.Megaparsec.SourcePos -> Text.Megaparsec.SourcePos -> Bool
eq (Text.Megaparsec.SourcePos _ a b) (Text.Megaparsec.SourcePos _ a' b') =
a == a' && b == b'
{-# INLINE laxSrcEq #-}
newtype Parser a = Parser { unParser :: Text.Megaparsec.Parsec Void Text a }
instance Functor Parser where
fmap f (Parser x) = Parser (fmap f x)
{-# INLINE fmap #-}
f <$ Parser x = Parser (f <$ x)
{-# INLINE (<$) #-}
instance Applicative Parser where
pure = Parser . pure
{-# INLINE pure #-}
Parser f <*> Parser x = Parser (f <*> x)
{-# INLINE (<*>) #-}
Parser a <* Parser b = Parser (a <* b)
{-# INLINE (<*) #-}
Parser a *> Parser b = Parser (a *> b)
{-# INLINE (*>) #-}
instance Monad Parser where
return = pure
{-# INLINE return #-}
(>>) = (*>)
{-# INLINE (>>) #-}
Parser n >>= k = Parser (n >>= unParser . k)
{-# INLINE (>>=) #-}
#if !(MIN_VERSION_base(4,13,0))
fail = Control.Monad.Fail.fail
{-# INLINE fail #-}
#endif
instance Control.Monad.Fail.MonadFail Parser where
fail = Parser . Control.Monad.Fail.fail
{-# INLINE fail #-}
instance Alternative Parser where
empty = Parser empty
Parser a <|> Parser b = Parser (a <|> b)
some (Parser a) = Parser (some a)
many (Parser a) = Parser (many a)
instance MonadPlus Parser where
mzero = empty
mplus = (<|>)
instance Text.Megaparsec.MonadParsec Void Text Parser where
failure u e = Parser (Text.Megaparsec.failure u e)
fancyFailure e = Parser (Text.Megaparsec.fancyFailure e)
label l (Parser p) = Parser (Text.Megaparsec.label l p)
hidden (Parser p) = Parser (Text.Megaparsec.hidden p)
try (Parser p) = Parser (Text.Megaparsec.try p)
lookAhead (Parser p) = Parser (Text.Megaparsec.lookAhead p)
notFollowedBy (Parser p) = Parser (Text.Megaparsec.notFollowedBy p)
withRecovery e (Parser p) = Parser (Text.Megaparsec.withRecovery (unParser . e) p)
observing (Parser p) = Parser (Text.Megaparsec.observing p)
eof = Parser Text.Megaparsec.eof
token f e = Parser (Text.Megaparsec.token f e)
tokens f ts = Parser (Text.Megaparsec.tokens f ts)
takeWhileP s f = Parser (Text.Megaparsec.takeWhileP s f)
takeWhile1P s f = Parser (Text.Megaparsec.takeWhile1P s f)
takeP s n = Parser (Text.Megaparsec.takeP s n)
getParserState = Parser Text.Megaparsec.getParserState
{-# INLINE getParserState #-}
updateParserState f = Parser (Text.Megaparsec.updateParserState f)
instance Data.Semigroup.Semigroup a => Data.Semigroup.Semigroup (Parser a) where
(<>) = liftA2 (<>)
instance (Data.Semigroup.Semigroup a, Monoid a) => Monoid (Parser a) where
mempty = pure mempty
#if !(MIN_VERSION_base(4,11,0))
mappend = (<>)
#endif
instance IsString a => IsString (Parser a) where
fromString x = fromString x <$ Text.Megaparsec.Char.string (fromString x)
instance Text.Parser.Combinators.Parsing Parser where
try = Text.Megaparsec.try
(<?>) = (Text.Megaparsec.<?>)
skipMany = Text.Megaparsec.skipMany
skipSome = Text.Megaparsec.skipSome
unexpected = fail
eof = Parser Text.Megaparsec.eof
notFollowedBy = Text.Megaparsec.notFollowedBy
instance Text.Parser.Char.CharParsing Parser where
satisfy = Parser . Text.Megaparsec.satisfy
char = Text.Megaparsec.Char.char
notChar = Text.Megaparsec.Char.char
#if MIN_VERSION_megaparsec(7, 0, 0)
anyChar = Text.Megaparsec.anySingle
#else
anyChar = Text.Megaparsec.Char.anyChar
#endif
string = fmap Data.Text.unpack . Text.Megaparsec.Char.string . fromString
text = Text.Megaparsec.Char.string
instance TokenParsing Parser where
someSpace =
Text.Parser.Token.Style.buildSomeSpaceParser
(Parser (Text.Megaparsec.skipSome (Text.Megaparsec.satisfy Data.Char.isSpace)))
Text.Parser.Token.Style.haskellCommentStyle
highlight _ = id
semi = token (Text.Megaparsec.Char.char ';' <?> ";")
count :: (Semigroup a, Monoid a) => Int -> Parser a -> Parser a
count n parser = mconcat (replicate n parser)
range :: (Semigroup a, Monoid a) => Int -> Int -> Parser a -> Parser a
range minimumBound maximumMatches parser =
count minimumBound parser <> loop maximumMatches
where
loop 0 = mempty
loop n = (parser <> loop (n - 1)) <|> mempty
option :: (Alternative f, Monoid a) => f a -> f a
option p = p <|> pure mempty
star :: (Alternative f, Monoid a) => f a -> f a
star p = plus p <|> pure mempty
plus :: (Alternative f, Monoid a) => f a -> f a
plus p = mappend <$> p <*> star p
satisfy :: (Char -> Bool) -> Parser Text
satisfy = fmap Data.Text.singleton . Text.Parser.Char.satisfy
takeWhile :: (Char -> Bool) -> Parser Text
takeWhile predicate = Parser (Text.Megaparsec.takeWhileP Nothing predicate)
takeWhile1 :: (Char -> Bool) -> Parser Text
takeWhile1 predicate = Parser (Text.Megaparsec.takeWhile1P Nothing predicate)
noDuplicates :: Ord a => [a] -> Parser (Set a)
noDuplicates = go Dhall.Set.empty
where
go found [] = return found
go found (x:xs) =
if Data.Set.member x (Dhall.Set.toSet found)
then fail "Duplicate key"
else go (Dhall.Set.append x found) xs
toMap :: [(Text, a)] -> Parser (Map Text a)
toMap kvs = do
let adapt (k, v) = (k, pure v)
let m = fromListWith (<|>) (fmap adapt kvs)
let action k vs = case Data.Sequence.viewl vs of
EmptyL -> empty
v :< vs' ->
if null vs'
then pure v
else
Text.Parser.Combinators.unexpected
("duplicate field: " ++ Data.Text.unpack k)
Dhall.Map.traverseWithKey action m
where
fromListWith combine = foldr cons mempty
where
cons (k, v) = Dhall.Map.insertWith combine k v