graphql/src/Language/GraphQL/AST/Parser.hs

189 lines
5.2 KiB
Haskell

{-# LANGUAGE LambdaCase #-}
{-# LANGUAGE OverloadedStrings #-}
-- | @GraphQL@ document parser.
module Language.GraphQL.AST.Parser
( document
) where
import Control.Applicative ( Alternative(..)
, optional
)
import Data.List.NonEmpty (NonEmpty(..))
import Language.GraphQL.AST
import Language.GraphQL.AST.Lexer
import Text.Megaparsec ( lookAhead
, option
, try
, (<?>)
)
-- | Parser for the GraphQL documents.
document :: Parser Document
document = unicodeBOM >> spaceConsumer >> lexeme (manyNE definition)
definition :: Parser Definition
definition = DefinitionOperation <$> operationDefinition
<|> DefinitionFragment <$> fragmentDefinition
<?> "definition error!"
operationDefinition :: Parser OperationDefinition
operationDefinition = OperationSelectionSet <$> selectionSet
<|> OperationDefinition <$> operationType
<*> optional name
<*> opt variableDefinitions
<*> opt directives
<*> selectionSet
<?> "operationDefinition error"
operationType :: Parser OperationType
operationType = Query <$ symbol "query"
<|> Mutation <$ symbol "mutation"
<?> "operationType error"
-- * SelectionSet
selectionSet :: Parser SelectionSet
selectionSet = braces $ manyNE selection
selectionSetOpt :: Parser SelectionSetOpt
selectionSetOpt = braces $ some selection
selection :: Parser Selection
selection = SelectionField <$> field
<|> try (SelectionFragmentSpread <$> fragmentSpread)
<|> SelectionInlineFragment <$> inlineFragment
<?> "selection error!"
-- * Field
field :: Parser Field
field = Field <$> optional alias
<*> name
<*> opt arguments
<*> opt directives
<*> opt selectionSetOpt
alias :: Parser Alias
alias = try $ name <* colon
-- * Arguments
arguments :: Parser [Argument]
arguments = parens $ some argument
argument :: Parser Argument
argument = Argument <$> name <* colon <*> value
-- * Fragments
fragmentSpread :: Parser FragmentSpread
fragmentSpread = FragmentSpread <$ spread
<*> fragmentName
<*> opt directives
inlineFragment :: Parser InlineFragment
inlineFragment = InlineFragment <$ spread
<*> optional typeCondition
<*> opt directives
<*> selectionSet
fragmentDefinition :: Parser FragmentDefinition
fragmentDefinition = FragmentDefinition
<$ symbol "fragment"
<*> name
<*> typeCondition
<*> opt directives
<*> selectionSet
fragmentName :: Parser Name
fragmentName = but (symbol "on") *> name
typeCondition :: Parser TypeCondition
typeCondition = symbol "on" *> name
-- * Input Values
value :: Parser Value
value = Variable <$> variable
<|> Float <$> try float
<|> Int <$> integer
<|> Boolean <$> booleanValue
<|> Null <$ symbol "null"
<|> String <$> blockString
<|> String <$> string
<|> Enum <$> try enumValue
<|> List <$> listValue
<|> Object <$> objectValue
<?> "value error!"
where
booleanValue :: Parser Bool
booleanValue = True <$ symbol "true"
<|> False <$ symbol "false"
enumValue :: Parser Name
enumValue = but (symbol "true") *> but (symbol "false") *> but (symbol "null") *> name
listValue :: Parser [Value]
listValue = brackets $ some value
objectValue :: Parser [ObjectField]
objectValue = braces $ some objectField
objectField :: Parser ObjectField
objectField = ObjectField <$> name <* symbol ":" <*> value
-- * Variables
variableDefinitions :: Parser [VariableDefinition]
variableDefinitions = parens $ some variableDefinition
variableDefinition :: Parser VariableDefinition
variableDefinition = VariableDefinition <$> variable
<* colon
<*> type_
<*> optional defaultValue
variable :: Parser Name
variable = dollar *> name
defaultValue :: Parser Value
defaultValue = equals *> value
-- * Input Types
type_ :: Parser Type
type_ = try (TypeNonNull <$> nonNullType)
<|> TypeList <$> brackets type_
<|> TypeNamed <$> name
<?> "type_ error!"
nonNullType :: Parser NonNullType
nonNullType = NonNullTypeNamed <$> name <* bang
<|> NonNullTypeList <$> brackets type_ <* bang
<?> "nonNullType error!"
-- * Directives
directives :: Parser [Directive]
directives = some directive
directive :: Parser Directive
directive = Directive
<$ at
<*> name
<*> opt arguments
-- * Internal
opt :: Monoid a => Parser a -> Parser a
opt = option mempty
-- Hack to reverse parser success
but :: Parser a -> Parser ()
but pn = False <$ lookAhead pn <|> pure True >>= \case
False -> empty
True -> pure ()
manyNE :: Alternative f => f a -> f (NonEmpty a)
manyNE p = (:|) <$> p <*> many p