{-# LANGUAGE OverloadedStrings #-} {-# LANGUAGE ExplicitForAll #-} -- | This module defines a minifier and a printer for the @GraphQL@ language. module Language.GraphQL.AST.Encoder ( Formatter , definition , directive , document , minified , pretty , type' , value ) where import Data.Char (ord) import Data.Foldable (fold) import Data.Monoid ((<>)) 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 qualified Language.GraphQL.AST as Full -- | Instructs the encoder whether the GraphQL document should be minified or -- pretty printed. -- -- Use 'pretty' or 'minified' to construct the formatter. data Formatter = Minified | Pretty Word -- | Constructs a formatter for pretty printing. pretty :: Formatter pretty = Pretty 0 -- | Constructs a formatter for minifying. minified :: Formatter minified = Minified -- | Converts a 'Full.Document' into a string. document :: Formatter -> Full.Document -> Lazy.Text document formatter defs | Pretty _ <- formatter = Lazy.Text.intercalate "\n" encodeDocument | Minified <-formatter = Lazy.Text.snoc (mconcat encodeDocument) '\n' where encodeDocument = NonEmpty.toList $ definition formatter <$> defs -- | Converts a 'Full.Definition' into a string. definition :: Formatter -> Full.Definition -> Lazy.Text definition formatter x | Pretty _ <- formatter = Lazy.Text.snoc (encodeDefinition x) '\n' | Minified <- formatter = encodeDefinition x where encodeDefinition (Full.DefinitionOperation operation) = operationDefinition formatter operation encodeDefinition (Full.DefinitionFragment fragment) = fragmentDefinition formatter fragment operationDefinition :: Formatter -> Full.OperationDefinition -> Lazy.Text operationDefinition formatter (Full.OperationSelectionSet sels) = selectionSet formatter sels operationDefinition formatter (Full.OperationDefinition Full.Query name vars dirs sels) = "query " <> node formatter name vars dirs sels operationDefinition formatter (Full.OperationDefinition Full.Mutation name vars dirs sels) = "mutation " <> node formatter name vars dirs sels node :: Formatter -> Maybe Full.Name -> [Full.VariableDefinition] -> [Full.Directive] -> Full.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 -> [Full.VariableDefinition] -> Lazy.Text variableDefinitions formatter = parensCommas formatter $ variableDefinition formatter variableDefinition :: Formatter -> Full.VariableDefinition -> Lazy.Text variableDefinition formatter (Full.VariableDefinition var ty dv) = variable var <> eitherFormat formatter ": " ":" <> type' ty <> maybe mempty (defaultValue formatter) dv defaultValue :: Formatter -> Full.Value -> Lazy.Text defaultValue formatter val = eitherFormat formatter " = " "=" <> value formatter val variable :: Full.Name -> Lazy.Text variable var = "$" <> Lazy.Text.fromStrict var selectionSet :: Formatter -> Full.SelectionSet -> Lazy.Text selectionSet formatter = bracesList formatter (selection formatter) . NonEmpty.toList selectionSetOpt :: Formatter -> Full.SelectionSetOpt -> Lazy.Text selectionSetOpt formatter = bracesList formatter $ selection formatter indent :: (Integral a) => a -> Lazy.Text indent indentation = Lazy.Text.replicate (fromIntegral indentation) " " selection :: Formatter -> Full.Selection -> Lazy.Text selection formatter = Lazy.Text.append indent' . encodeSelection where encodeSelection (Full.SelectionField field') = field incrementIndent field' encodeSelection (Full.SelectionInlineFragment fragment) = inlineFragment incrementIndent fragment encodeSelection (Full.SelectionFragmentSpread spread) = fragmentSpread incrementIndent spread 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 -> Full.Field -> Lazy.Text field formatter (Full.Field 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 -> [Full.Argument] -> Lazy.Text arguments formatter = parensCommas formatter $ argument formatter argument :: Formatter -> Full.Argument -> Lazy.Text argument formatter (Full.Argument name value') = Lazy.Text.fromStrict name <> colon formatter <> value formatter value' -- * Fragments fragmentSpread :: Formatter -> Full.FragmentSpread -> Lazy.Text fragmentSpread formatter (Full.FragmentSpread name ds) = "..." <> Lazy.Text.fromStrict name <> optempty (directives formatter) ds inlineFragment :: Formatter -> Full.InlineFragment -> Lazy.Text inlineFragment formatter (Full.InlineFragment tc dirs sels) = "... on " <> Lazy.Text.fromStrict (fold tc) <> directives formatter dirs <> eitherFormat formatter " " mempty <> selectionSet formatter sels fragmentDefinition :: Formatter -> Full.FragmentDefinition -> Lazy.Text fragmentDefinition formatter (Full.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 -- * Miscellaneous -- | Converts a 'Full.Directive' into a string. directive :: Formatter -> Full.Directive -> Lazy.Text directive formatter (Full.Directive name args) = "@" <> Lazy.Text.fromStrict name <> optempty (arguments formatter) args directives :: Formatter -> [Full.Directive] -> Lazy.Text directives Minified = spaces (directive Minified) directives formatter = Lazy.Text.cons ' ' . spaces (directive formatter) -- | Converts a 'Full.Value' into a string. value :: Formatter -> Full.Value -> Lazy.Text value _ (Full.Variable x) = variable x value _ (Full.Int x) = Builder.toLazyText $ decimal x value _ (Full.Float x) = Builder.toLazyText $ realFloat x value _ (Full.Boolean x) = booleanValue x value _ Full.Null = mempty value formatter (Full.String string) = stringValue formatter string value _ (Full.Enum x) = Lazy.Text.fromStrict x value formatter (Full.List x) = listValue formatter x value formatter (Full.Object x) = objectValue formatter x booleanValue :: Bool -> Lazy.Text booleanValue True = "true" booleanValue False = "false" stringValue :: Formatter -> Text -> Lazy.Text stringValue Minified string = Builder.toLazyText $ quote <> Text.foldr (mappend . escape') quote string where quote = Builder.singleton '\"' escape' '\n' = Builder.fromString "\\n" escape' char = escape char stringValue (Pretty indentation) string = byStringType $ Text.lines string where byStringType [] = "\"\"" byStringType [line] = Builder.toLazyText $ quote <> Text.foldr (mappend . escape) quote line byStringType lines' = "\"\"\"\n" <> Lazy.Text.unlines (transformLine <$> lines') <> indent indentation <> "\"\"\"" transformLine = (indent (indentation + 1) <>) . Lazy.Text.fromStrict . Text.replace "\"\"\"" "\\\"\"\"" quote = Builder.singleton '\"' escape :: Char -> Builder escape char' | char' == '\\' = Builder.fromString "\\\\" | char' == '\"' = Builder.fromString "\\\"" | char' == '\b' = Builder.fromString "\\b" | char' == '\f' = Builder.fromString "\\f" | char' == '\r' = Builder.fromString "\\r" | 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 -> [Full.Value] -> Lazy.Text listValue formatter = bracketsCommas formatter $ value formatter objectValue :: Formatter -> [Full.ObjectField] -> Lazy.Text objectValue formatter = intercalate $ objectField formatter where intercalate f = braces . Lazy.Text.intercalate (eitherFormat formatter ", " ",") . fmap f objectField :: Formatter -> Full.ObjectField -> Lazy.Text objectField formatter (Full.ObjectField name value') = Lazy.Text.fromStrict name <> colon formatter <> value formatter value' -- | Converts a 'Full.Type' a type into a string. type' :: Full.Type -> Lazy.Text type' (Full.TypeNamed x) = Lazy.Text.fromStrict x type' (Full.TypeList x) = listType x type' (Full.TypeNonNull x) = nonNullType x listType :: Full.Type -> Lazy.Text listType x = brackets (type' x) nonNullType :: Full.NonNullType -> Lazy.Text nonNullType (Full.NonNullTypeNamed x) = Lazy.Text.fromStrict x <> "!" nonNullType (Full.NonNullTypeList x) = listType x <> "!" -- * Internal 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