{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE TupleSections #-}
module Data.Morpheus.Parsing.Internal.Terms
( token
, qualifier
, variable
, spaceAndComments
, spaceAndComments1
, pipeLiteral
, setOf
, onType
, spreadLiteral
, parseNonNull
, parseMaybeTuple
, parseAssignment
, parseWrappedType
, litEquals
) where
import Data.Functor (($>))
import Data.Morpheus.Parsing.Internal.Internal (Parser, Position, getLocation)
import Data.Morpheus.Types.Internal.Data (DataTypeWrapper (..))
import Data.Morpheus.Types.Internal.Value (convertToHaskellName)
import Data.Text (Text, pack)
import Text.Megaparsec (between, label, many, sepBy, sepEndBy, skipMany, skipManyTill,
(<?>), (<|>))
import Text.Megaparsec.Char (char, digitChar, letterChar, newline, printChar, space,
space1, string)
setLiteral :: Parser [a] -> Parser [a]
setLiteral = between (char '{' *> spaceAndComments) (char '}' *> spaceAndComments)
pipeLiteral :: Parser ()
pipeLiteral = char '|' *> spaceAndComments
litEquals :: Parser ()
litEquals = char '=' *> spaceAndComments
token :: Parser Text
token =
label "token" $ do
firstChar <- letterChar <|> char '_'
restToken <- many $ letterChar <|> char '_' <|> digitChar
spaceAndComments
return $ convertToHaskellName $ pack $ firstChar : restToken
qualifier :: Parser (Text, Position)
qualifier =
label "qualifier" $ do
position <- getLocation
value <- token
return (value, position)
variable :: Parser (Text, Position)
variable =
label "variable" $ do
position' <- getLocation
_ <- char '$'
varName' <- token
return (varName', position')
spaceAndComments1 :: Parser ()
spaceAndComments1 = space1 *> spaceAndComments
spaceAndComments :: Parser ()
spaceAndComments = space *> skipMany (inlineComment <|> multilineComment) *> space
where
inlineComment = char '#' *> skipManyTill printChar newline *> space
multilineComment = multilineIndicator *> skipManyTill (printChar *> space <|> space) multilineIndicator *> space
multilineIndicator = string "\"\"\""
setOf :: Parser a -> Parser [a]
setOf entry = setLiteral (entry `sepEndBy` many (char ',' *> spaceAndComments))
parseNonNull :: Parser [DataTypeWrapper]
parseNonNull = do
wrapper <- (char '!' $> [NonNullType]) <|> pure []
spaceAndComments
return wrapper
parseMaybeTuple :: Parser a -> Parser [a]
parseMaybeTuple parser = parseTuple parser <|> pure []
parseTuple :: Parser a -> Parser [a]
parseTuple parser =
label "Tuple" $
between
(char '(' *> spaceAndComments)
(char ')' *> spaceAndComments)
(parser `sepBy` (many (char ',') *> spaceAndComments) <?> "empty Tuple value!")
parseAssignment :: (Show a, Show b) => Parser a -> Parser b -> Parser (a, b)
parseAssignment nameParser valueParser =
label "assignment" $ do
name' <- nameParser
char ':' *> spaceAndComments
value' <- valueParser
pure (name', value')
onType :: Parser Text
onType = do
_ <- string "on"
space1
token
spreadLiteral :: Parser Position
spreadLiteral = do
index <- getLocation
_ <- string "..."
space
return index
parseWrappedType :: Parser ([DataTypeWrapper], Text)
parseWrappedType = (unwrapped <|> wrapped) <* spaceAndComments
where
unwrapped :: Parser ([DataTypeWrapper], Text)
unwrapped = ([], ) <$> token <* spaceAndComments
wrapped :: Parser ([DataTypeWrapper], Text)
wrapped =
between
(char '[' *> spaceAndComments)
(char ']' *> spaceAndComments)
(do (wrappers, name) <- unwrapped <|> wrapped
nonNull' <- parseNonNull
return ((ListType : nonNull') ++ wrappers, name))