{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE ExplicitForAll #-}
module Language.GraphQL.AST.Encoder
( Formatter
, definition
, directive
, document
, minified
, pretty
, type'
, value
) where
import Data.Char (ord)
import Data.Foldable (fold)
import qualified Data.List.NonEmpty as NonEmpty
import Data.Text (Text)
import qualified Data.Text as Text
import qualified Data.Text.Lazy as Lazy (Text)
import qualified Data.Text.Lazy as Lazy.Text
import Data.Text.Lazy.Builder (Builder)
import qualified Data.Text.Lazy.Builder as Builder
import Data.Text.Lazy.Builder.Int (decimal, hexadecimal)
import Data.Text.Lazy.Builder.RealFloat (realFloat)
import Language.GraphQL.AST.Document
data Formatter
= Minified
| Pretty Word
pretty :: Formatter
pretty = Pretty 0
minified :: Formatter
minified = Minified
document :: Formatter -> Document -> Lazy.Text
document formatter defs
| Pretty _ <- formatter = Lazy.Text.intercalate "\n" encodeDocument
| Minified <-formatter = Lazy.Text.snoc (mconcat encodeDocument) '\n'
where
encodeDocument = foldr executableDefinition [] defs
executableDefinition (ExecutableDefinition x) acc = definition formatter x : acc
executableDefinition _ acc = acc
definition :: Formatter -> ExecutableDefinition -> Lazy.Text
definition formatter x
| Pretty _ <- formatter = Lazy.Text.snoc (encodeDefinition x) '\n'
| Minified <- formatter = encodeDefinition x
where
encodeDefinition (DefinitionOperation operation)
= operationDefinition formatter operation
encodeDefinition (DefinitionFragment fragment)
= fragmentDefinition formatter fragment
operationDefinition :: Formatter -> OperationDefinition -> Lazy.Text
operationDefinition formatter (SelectionSet sels)
= selectionSet formatter sels
operationDefinition formatter (OperationDefinition Query name vars dirs sels)
= "query " <> node formatter name vars dirs sels
operationDefinition formatter (OperationDefinition Mutation name vars dirs sels)
= "mutation " <> node formatter name vars dirs sels
node :: Formatter ->
Maybe Name ->
[VariableDefinition] ->
[Directive] ->
SelectionSet ->
Lazy.Text
node formatter name vars dirs sels
= Lazy.Text.fromStrict (fold name)
<> optempty (variableDefinitions formatter) vars
<> optempty (directives formatter) dirs
<> eitherFormat formatter " " mempty
<> selectionSet formatter sels
variableDefinitions :: Formatter -> [VariableDefinition] -> Lazy.Text
variableDefinitions formatter
= parensCommas formatter $ variableDefinition formatter
variableDefinition :: Formatter -> VariableDefinition -> Lazy.Text
variableDefinition formatter (VariableDefinition var ty defaultValue')
= variable var
<> eitherFormat formatter ": " ":"
<> type' ty
<> maybe mempty (defaultValue formatter) defaultValue'
defaultValue :: Formatter -> ConstValue -> Lazy.Text
defaultValue formatter val
= eitherFormat formatter " = " "="
<> value formatter (fromConstValue val)
variable :: Name -> Lazy.Text
variable var = "$" <> Lazy.Text.fromStrict var
selectionSet :: Formatter -> SelectionSet -> Lazy.Text
selectionSet formatter
= bracesList formatter (selection formatter)
. NonEmpty.toList
selectionSetOpt :: Formatter -> SelectionSetOpt -> Lazy.Text
selectionSetOpt formatter = bracesList formatter $ selection formatter
indentSymbol :: Lazy.Text
indentSymbol = " "
indent :: (Integral a) => a -> Lazy.Text
indent indentation = Lazy.Text.replicate (fromIntegral indentation) indentSymbol
selection :: Formatter -> Selection -> Lazy.Text
selection formatter = Lazy.Text.append indent' . encodeSelection
where
encodeSelection (Field alias name args directives' selections) =
field incrementIndent alias name args directives' selections
encodeSelection (InlineFragment typeCondition directives' selections) =
inlineFragment incrementIndent typeCondition directives' selections
encodeSelection (FragmentSpread name directives') =
fragmentSpread incrementIndent name directives'
incrementIndent
| Pretty indentation <- formatter = Pretty $ indentation + 1
| otherwise = Minified
indent'
| Pretty indentation <- formatter = indent $ indentation + 1
| otherwise = ""
colon :: Formatter -> Lazy.Text
colon formatter = eitherFormat formatter ": " ":"
field :: Formatter ->
Maybe Name ->
Name ->
[Argument] ->
[Directive] ->
[Selection] ->
Lazy.Text
field formatter alias name args dirs set
= optempty prependAlias (fold alias)
<> Lazy.Text.fromStrict name
<> optempty (arguments formatter) args
<> optempty (directives formatter) dirs
<> optempty selectionSetOpt' set
where
prependAlias aliasName = Lazy.Text.fromStrict aliasName <> colon formatter
selectionSetOpt' = (eitherFormat formatter " " "" <>)
. selectionSetOpt formatter
arguments :: Formatter -> [Argument] -> Lazy.Text
arguments formatter = parensCommas formatter $ argument formatter
argument :: Formatter -> Argument -> Lazy.Text
argument formatter (Argument name value')
= Lazy.Text.fromStrict name
<> colon formatter
<> value formatter value'
fragmentSpread :: Formatter -> Name -> [Directive] -> Lazy.Text
fragmentSpread formatter name directives'
= "..." <> Lazy.Text.fromStrict name
<> optempty (directives formatter) directives'
inlineFragment ::
Formatter ->
Maybe TypeCondition ->
[Directive] ->
SelectionSet ->
Lazy.Text
inlineFragment formatter tc dirs sels = "... on "
<> Lazy.Text.fromStrict (fold tc)
<> directives formatter dirs
<> eitherFormat formatter " " mempty
<> selectionSet formatter sels
fragmentDefinition :: Formatter -> FragmentDefinition -> Lazy.Text
fragmentDefinition formatter (FragmentDefinition name tc dirs sels)
= "fragment " <> Lazy.Text.fromStrict name
<> " on " <> Lazy.Text.fromStrict tc
<> optempty (directives formatter) dirs
<> eitherFormat formatter " " mempty
<> selectionSet formatter sels
directive :: Formatter -> Directive -> Lazy.Text
directive formatter (Directive name args)
= "@" <> Lazy.Text.fromStrict name <> optempty (arguments formatter) args
directives :: Formatter -> [Directive] -> Lazy.Text
directives Minified = spaces (directive Minified)
directives formatter = Lazy.Text.cons ' ' . spaces (directive formatter)
value :: Formatter -> Value -> Lazy.Text
value _ (Variable x) = variable x
value _ (Int x) = Builder.toLazyText $ decimal x
value _ (Float x) = Builder.toLazyText $ realFloat x
value _ (Boolean x) = booleanValue x
value _ Null = "null"
value formatter (String string) = stringValue formatter string
value _ (Enum x) = Lazy.Text.fromStrict x
value formatter (List x) = listValue formatter x
value formatter (Object x) = objectValue formatter x
fromConstValue :: ConstValue -> Value
fromConstValue (ConstInt x) = Int x
fromConstValue (ConstFloat x) = Float x
fromConstValue (ConstBoolean x) = Boolean x
fromConstValue ConstNull = Null
fromConstValue (ConstString string) = String string
fromConstValue (ConstEnum x) = Enum x
fromConstValue (ConstList x) = List $ fromConstValue <$> x
fromConstValue (ConstObject x) = Object $ fromConstObjectField <$> x
where
fromConstObjectField (ObjectField key value') =
ObjectField key $ fromConstValue value'
booleanValue :: Bool -> Lazy.Text
booleanValue True = "true"
booleanValue False = "false"
quote :: Builder.Builder
quote = Builder.singleton '\"'
oneLine :: Text -> Builder
oneLine string = quote <> Text.foldr (mappend . escape) quote string
stringValue :: Formatter -> Text -> Lazy.Text
stringValue Minified string = Builder.toLazyText
$ quote <> Text.foldr (mappend . escape) quote string
stringValue (Pretty indentation) string =
if hasEscaped string
then stringValue Minified string
else Builder.toLazyText $ encoded lines'
where
isWhiteSpace char = char == ' ' || char == '\t'
isNewline char = char == '\n' || char == '\r'
hasEscaped = Text.any (not . isAllowed)
isAllowed char =
char == '\t' || isNewline char || (char >= '\x0020' && char /= '\x007F')
tripleQuote = Builder.fromText "\"\"\""
start = tripleQuote <> Builder.singleton '\n'
end = Builder.fromLazyText (indent indentation) <> tripleQuote
strip = Text.dropWhile isWhiteSpace . Text.dropWhileEnd isWhiteSpace
lines' = map Builder.fromText $ Text.split isNewline (Text.replace "\r\n" "\n" $ strip string)
encoded [] = oneLine string
encoded [_] = oneLine string
encoded lines'' = start <> transformLines lines'' <> end
transformLines = foldr ((\line acc -> line <> Builder.singleton '\n' <> acc) . transformLine) mempty
transformLine line =
if Lazy.Text.null (Builder.toLazyText line)
then line
else Builder.fromLazyText (indent (indentation + 1)) <> line
escape :: Char -> Builder
escape char'
| char' == '\\' = Builder.fromString "\\\\"
| char' == '\"' = Builder.fromString "\\\""
| char' == '\b' = Builder.fromString "\\b"
| char' == '\f' = Builder.fromString "\\f"
| char' == '\n' = Builder.fromString "\\n"
| char' == '\r' = Builder.fromString "\\r"
| char' == '\t' = Builder.fromString "\\t"
| char' < '\x0010' = unicode "\\u000" char'
| char' < '\x0020' = unicode "\\u00" char'
| otherwise = Builder.singleton char'
where
unicode prefix = mappend (Builder.fromString prefix) . (hexadecimal . ord)
listValue :: Formatter -> [Value] -> Lazy.Text
listValue formatter = bracketsCommas formatter $ value formatter
objectValue :: Formatter -> [ObjectField Value] -> Lazy.Text
objectValue formatter = intercalate $ objectField formatter
where
intercalate f
= braces
. Lazy.Text.intercalate (eitherFormat formatter ", " ",")
. fmap f
objectField :: Formatter -> ObjectField Value -> Lazy.Text
objectField formatter (ObjectField name value') =
Lazy.Text.fromStrict name <> colon formatter <> value formatter value'
type' :: Type -> Lazy.Text
type' (TypeNamed x) = Lazy.Text.fromStrict x
type' (TypeList x) = listType x
type' (TypeNonNull x) = nonNullType x
listType :: Type -> Lazy.Text
listType x = brackets (type' x)
nonNullType :: NonNullType -> Lazy.Text
nonNullType (NonNullTypeNamed x) = Lazy.Text.fromStrict x <> "!"
nonNullType (NonNullTypeList x) = listType x <> "!"
between :: Char -> Char -> Lazy.Text -> Lazy.Text
between open close = Lazy.Text.cons open . (`Lazy.Text.snoc` close)
parens :: Lazy.Text -> Lazy.Text
parens = between '(' ')'
brackets :: Lazy.Text -> Lazy.Text
brackets = between '[' ']'
braces :: Lazy.Text -> Lazy.Text
braces = between '{' '}'
spaces :: forall a. (a -> Lazy.Text) -> [a] -> Lazy.Text
spaces f = Lazy.Text.intercalate "\SP" . fmap f
parensCommas :: forall a. Formatter -> (a -> Lazy.Text) -> [a] -> Lazy.Text
parensCommas formatter f
= parens
. Lazy.Text.intercalate (eitherFormat formatter ", " ",")
. fmap f
bracketsCommas :: Formatter -> (a -> Lazy.Text) -> [a] -> Lazy.Text
bracketsCommas formatter f
= brackets
. Lazy.Text.intercalate (eitherFormat formatter ", " ",")
. fmap f
bracesList :: forall a. Formatter -> (a -> Lazy.Text) -> [a] -> Lazy.Text
bracesList (Pretty intendation) f xs
= Lazy.Text.snoc (Lazy.Text.intercalate "\n" content) '\n'
<> (Lazy.Text.snoc $ Lazy.Text.replicate (fromIntegral intendation) " ") '}'
where
content = "{" : fmap f xs
bracesList Minified f xs = braces $ Lazy.Text.intercalate "," $ fmap f xs
optempty :: (Eq a, Monoid a, Monoid b) => (a -> b) -> a -> b
optempty f xs = if xs == mempty then mempty else f xs
eitherFormat :: forall a. Formatter -> a -> a -> a
eitherFormat (Pretty _) x _ = x
eitherFormat Minified _ x = x