-- | This module generates code in the core imperative representation from -- elaborated PureScript code. module Language.PureScript.CodeGen.JS ( module AST , module Common , moduleToJs ) where import Prelude.Compat import Protolude (ordNub) import Control.Applicative (liftA2) import Control.Monad (forM, replicateM, void) import Control.Monad.Except (MonadError, throwError) import Control.Monad.Reader (MonadReader, asks) import Control.Monad.Supply.Class import Control.Monad.Writer (MonadWriter, runWriterT, writer) import Data.Bifunctor (first) import Data.List ((\\), intersect) import qualified Data.List.NonEmpty as NEL (nonEmpty) import qualified Data.Foldable as F import qualified Data.Map as M import qualified Data.Set as S import Data.Maybe (fromMaybe, mapMaybe, maybeToList) import Data.Monoid (Any(..)) import Data.String (fromString) import Data.Text (Text) import qualified Data.Text as T import Language.PureScript.AST.SourcePos import Language.PureScript.CodeGen.JS.Common as Common import Language.PureScript.CoreImp.AST (AST, InitializerEffects(..), everywhere, everywhereTopDownM, withSourceSpan) import qualified Language.PureScript.CoreImp.AST as AST import qualified Language.PureScript.CoreImp.Module as AST import Language.PureScript.CoreImp.Optimizer import Language.PureScript.CoreFn import Language.PureScript.CoreFn.Laziness (applyLazinessTransform) import Language.PureScript.Crash import Language.PureScript.Errors (ErrorMessageHint(..), SimpleErrorMessage(..), MultipleErrors(..), rethrow, errorMessage, errorMessage', rethrowWithPosition, addHint) import Language.PureScript.Names import Language.PureScript.Options import Language.PureScript.PSString (PSString, mkString) import Language.PureScript.Traversals (sndM) import qualified Language.PureScript.Constants.Prim as C import System.FilePath.Posix (()) -- | Generate code in the simplified JavaScript intermediate representation for all declarations in a -- module. moduleToJs :: forall m . (Monad m, MonadReader Options m, MonadSupply m, MonadError MultipleErrors m) => Module Ann -> Maybe PSString -> m AST.Module moduleToJs (Module _ coms mn _ imps exps reExps foreigns decls) foreignInclude = rethrow (addHint (ErrorInModule mn)) $ do let usedNames = concatMap getNames decls let imps' = ordNub $ map snd imps let mnLookup = renameImports usedNames imps' (jsDecls, Any needRuntimeLazy) <- runWriterT $ mapM (moduleBindToJs mn) decls optimized <- fmap (fmap (fmap annotatePure)) . optimize (map identToJs exps) $ if needRuntimeLazy then [runtimeLazy] : jsDecls else jsDecls F.traverse_ (F.traverse_ checkIntegers) optimized comments <- not <$> asks optionsNoComments let header = if comments then coms else [] let foreign' = maybe [] (pure . AST.Import FFINamespace) $ if null foreigns then Nothing else foreignInclude let moduleBody = concat optimized let (S.union (M.keysSet reExps) -> usedModuleNames, renamedModuleBody) = traverse (replaceModuleAccessors mnLookup) moduleBody let jsImports = map (importToJs mnLookup) . filter (flip S.member usedModuleNames) $ (\\ (mn : C.primModules)) imps' let foreignExps = exps `intersect` foreigns let standardExps = exps \\ foreignExps let reExps' = M.toList (M.withoutKeys reExps (S.fromList C.primModules)) let jsExports = (maybeToList . exportsToJs foreignInclude $ foreignExps) ++ (maybeToList . exportsToJs Nothing $ standardExps) ++ mapMaybe reExportsToJs reExps' return $ AST.Module header (foreign' ++ jsImports) renamedModuleBody jsExports where -- | Adds purity annotations to top-level values for bundlers. -- The semantics here derive from treating top-level module evaluation as pure, which lets -- us remove any unreferenced top-level declarations. To achieve this, we wrap any non-trivial -- top-level values in an IIFE marked with a pure annotation. annotatePure :: AST -> AST annotatePure = annotateOrWrap where annotateOrWrap = liftA2 fromMaybe pureIife maybePure -- | If the JS is potentially effectful (in the eyes of a bundler that -- doesn't know about PureScript), return Nothing. Otherwise, return Just -- the JS with any needed pure annotations added, and, in the case of a -- variable declaration, an IIFE to be annotated. maybePure :: AST -> Maybe AST maybePure = maybePureGen False -- | Like maybePure, but doesn't add a pure annotation to App. This exists -- to prevent from doubling up on annotation comments on curried -- applications; from experimentation, it turns out that a comment on the -- outermost App is sufficient for the entire curried chain to be -- considered effect-free. maybePure' :: AST -> Maybe AST maybePure' = maybePureGen True maybePureGen alreadyAnnotated = \case AST.VariableIntroduction ss name j -> Just (AST.VariableIntroduction ss name (fmap annotateOrWrap <$> j)) AST.App ss f args -> (if alreadyAnnotated then AST.App else pureApp) ss <$> maybePure' f <*> traverse maybePure args AST.ArrayLiteral ss jss -> AST.ArrayLiteral ss <$> traverse maybePure jss AST.ObjectLiteral ss props -> AST.ObjectLiteral ss <$> traverse (traverse maybePure) props AST.Comment c js -> AST.Comment c <$> maybePure js js@(AST.Indexer _ _ (AST.Var _ FFINamespace)) -> Just js js@AST.NumericLiteral{} -> Just js js@AST.StringLiteral{} -> Just js js@AST.BooleanLiteral{} -> Just js js@AST.Function{} -> Just js js@AST.Var{} -> Just js js@AST.ModuleAccessor{} -> Just js _ -> Nothing pureIife :: AST -> AST pureIife val = pureApp Nothing (AST.Function Nothing Nothing [] (AST.Block Nothing [AST.Return Nothing val])) [] pureApp :: Maybe SourceSpan -> AST -> [AST] -> AST pureApp ss f = AST.Comment AST.PureAnnotation . AST.App ss f -- | Extracts all declaration names from a binding group. getNames :: Bind Ann -> [Ident] getNames (NonRec _ ident _) = [ident] getNames (Rec vals) = map (snd . fst) vals -- | Creates alternative names for each module to ensure they don't collide -- with declaration names. renameImports :: [Ident] -> [ModuleName] -> M.Map ModuleName Text renameImports = go M.empty where go :: M.Map ModuleName Text -> [Ident] -> [ModuleName] -> M.Map ModuleName Text go acc used (mn' : mns') = let mnj = moduleNameToJs mn' in if mn' /= mn && Ident mnj `elem` used then let newName = freshModuleName 1 mnj used in go (M.insert mn' newName acc) (Ident newName : used) mns' else go (M.insert mn' mnj acc) used mns' go acc _ [] = acc freshModuleName :: Integer -> Text -> [Ident] -> Text freshModuleName i mn' used = let newName = mn' <> "_" <> T.pack (show i) in if Ident newName `elem` used then freshModuleName (i + 1) mn' used else newName -- | Generates JavaScript code for a module import, binding the required module -- to the alternative importToJs :: M.Map ModuleName Text -> ModuleName -> AST.Import importToJs mnLookup mn' = let mnSafe = fromMaybe (internalError "Missing value in mnLookup") $ M.lookup mn' mnLookup in AST.Import mnSafe (moduleImportPath mn') -- | Generates JavaScript code for exporting at least one identifier, -- eventually from another module. exportsToJs :: Maybe PSString -> [Ident] -> Maybe AST.Export exportsToJs from = fmap (flip AST.Export from) . NEL.nonEmpty . fmap runIdent -- | Generates JavaScript code for re-exporting at least one identifier from -- from another module. reExportsToJs :: (ModuleName, [Ident]) -> Maybe AST.Export reExportsToJs = uncurry exportsToJs . first (Just . moduleImportPath) moduleImportPath :: ModuleName -> PSString moduleImportPath mn' = fromString (".." T.unpack (runModuleName mn') "index.js") -- | Replaces the `ModuleAccessor`s in the AST with `Indexer`s, ensuring that -- the generated code refers to the collision-avoiding renamed module -- imports. Also returns set of used module names. replaceModuleAccessors :: M.Map ModuleName Text -> AST -> (S.Set ModuleName, AST) replaceModuleAccessors mnLookup = everywhereTopDownM $ \case AST.ModuleAccessor _ mn' name -> let mnSafe = fromMaybe (internalError "Missing value in mnLookup") $ M.lookup mn' mnLookup in (S.singleton mn', accessorString name $ AST.Var Nothing mnSafe) other -> pure other -- Check that all integers fall within the valid int range for JavaScript. checkIntegers :: AST -> m () checkIntegers = void . everywhereTopDownM go where go :: AST -> m AST go (AST.Unary _ AST.Negate (AST.NumericLiteral ss (Left i))) = -- Move the negation inside the literal; since this is a top-down -- traversal doing this replacement will stop the next case from raising -- the error when attempting to use -2147483648, as if left unrewritten -- the value is `Unary Negate (NumericLiteral (Left 2147483648))`, and -- 2147483648 is larger than the maximum allowed int. return $ AST.NumericLiteral ss (Left (-i)) go js@(AST.NumericLiteral ss (Left i)) = let minInt = -2147483648 maxInt = 2147483647 in if i < minInt || i > maxInt then throwError . maybe errorMessage errorMessage' ss $ IntOutOfRange i "JavaScript" minInt maxInt else return js go other = return other runtimeLazy :: AST runtimeLazy = AST.VariableIntroduction Nothing "$runtime_lazy" . Just . (UnknownEffects, ) . AST.Function Nothing Nothing ["name", "moduleName", "init"] . AST.Block Nothing $ [ AST.VariableIntroduction Nothing "state" . Just . (UnknownEffects, ) . AST.NumericLiteral Nothing $ Left 0 , AST.VariableIntroduction Nothing "val" Nothing , AST.Return Nothing . AST.Function Nothing Nothing ["lineNumber"] . AST.Block Nothing $ [ AST.IfElse Nothing (AST.Binary Nothing AST.EqualTo (AST.Var Nothing "state") (AST.NumericLiteral Nothing (Left 2))) (AST.Return Nothing $ AST.Var Nothing "val") Nothing , AST.IfElse Nothing (AST.Binary Nothing AST.EqualTo (AST.Var Nothing "state") (AST.NumericLiteral Nothing (Left 1))) (AST.Throw Nothing $ AST.Unary Nothing AST.New (AST.App Nothing (AST.Var Nothing "ReferenceError") [foldl1 (AST.Binary Nothing AST.Add) [ AST.Var Nothing "name" , AST.StringLiteral Nothing " was needed before it finished initializing (module " , AST.Var Nothing "moduleName" , AST.StringLiteral Nothing ", line " , AST.Var Nothing "lineNumber" , AST.StringLiteral Nothing ")" ], AST.Var Nothing "moduleName", AST.Var Nothing "lineNumber"])) Nothing , AST.Assignment Nothing (AST.Var Nothing "state") . AST.NumericLiteral Nothing $ Left 1 , AST.Assignment Nothing (AST.Var Nothing "val") $ AST.App Nothing (AST.Var Nothing "init") [] , AST.Assignment Nothing (AST.Var Nothing "state") . AST.NumericLiteral Nothing $ Left 2 , AST.Return Nothing $ AST.Var Nothing "val" ] ] moduleBindToJs :: forall m . (Monad m, MonadReader Options m, MonadSupply m, MonadWriter Any m, MonadError MultipleErrors m) => ModuleName -> Bind Ann -> m [AST] moduleBindToJs mn = bindToJs where -- | -- Generate code in the simplified JavaScript intermediate representation for a declaration -- bindToJs :: Bind Ann -> m [AST] bindToJs (NonRec (_, _, _, Just IsTypeClassConstructor) _ _) = pure [] -- Unlike other newtype constructors, type class constructors are only -- ever applied; it's not possible to use them as values. So it's safe to -- erase them. bindToJs (NonRec ann ident val) = return <$> nonRecToJS ann ident val bindToJs (Rec vals) = writer (applyLazinessTransform mn vals) >>= traverse (uncurry . uncurry $ nonRecToJS) -- | Generate code in the simplified JavaScript intermediate representation for a single non-recursive -- declaration. -- -- The main purpose of this function is to handle code generation for comments. nonRecToJS :: Ann -> Ident -> Expr Ann -> m AST nonRecToJS a i e@(extractAnn -> (_, com, _, _)) | not (null com) = do withoutComment <- asks optionsNoComments if withoutComment then nonRecToJS a i (modifyAnn removeComments e) else AST.Comment (AST.SourceComments com) <$> nonRecToJS a i (modifyAnn removeComments e) nonRecToJS (ss, _, _, _) ident val = do js <- valueToJs val withPos ss $ AST.VariableIntroduction Nothing (identToJs ident) (Just (guessEffects val, js)) guessEffects :: Expr Ann -> AST.InitializerEffects guessEffects = \case Var _ (Qualified (BySourcePos _) _) -> NoEffects App (_, _, _, Just IsSyntheticApp) _ _ -> NoEffects _ -> UnknownEffects withPos :: SourceSpan -> AST -> m AST withPos ss js = do withSM <- asks (elem JSSourceMap . optionsCodegenTargets) return $ if withSM then withSourceSpan ss js else js -- | Generate code in the simplified JavaScript intermediate representation for a variable based on a -- PureScript identifier. var :: Ident -> AST var = AST.Var Nothing . identToJs -- | Generate code in the simplified JavaScript intermediate representation for a value or expression. valueToJs :: Expr Ann -> m AST valueToJs e = let (ss, _, _, _) = extractAnn e in withPos ss =<< valueToJs' e valueToJs' :: Expr Ann -> m AST valueToJs' (Literal (pos, _, _, _) l) = rethrowWithPosition pos $ literalToValueJS pos l valueToJs' (Var (_, _, _, Just (IsConstructor _ [])) name) = return $ accessorString "value" $ qualifiedToJS id name valueToJs' (Var (_, _, _, Just (IsConstructor _ _)) name) = return $ accessorString "create" $ qualifiedToJS id name valueToJs' (Accessor _ prop val) = accessorString prop <$> valueToJs val valueToJs' (ObjectUpdate _ o ps) = do obj <- valueToJs o sts <- mapM (sndM valueToJs) ps extendObj obj sts valueToJs' (Abs _ arg val) = do ret <- valueToJs val let jsArg = case arg of UnusedIdent -> [] _ -> [identToJs arg] return $ AST.Function Nothing Nothing jsArg (AST.Block Nothing [AST.Return Nothing ret]) valueToJs' e@App{} = do let (f, args) = unApp e [] args' <- mapM valueToJs args case f of Var (_, _, _, Just IsNewtype) _ -> return (head args') Var (_, _, _, Just (IsConstructor _ fields)) name | length args == length fields -> return $ AST.Unary Nothing AST.New $ AST.App Nothing (qualifiedToJS id name) args' _ -> flip (foldl (\fn a -> AST.App Nothing fn [a])) args' <$> valueToJs f where unApp :: Expr Ann -> [Expr Ann] -> (Expr Ann, [Expr Ann]) unApp (App _ val arg) args = unApp val (arg : args) unApp other args = (other, args) valueToJs' (Var (_, _, _, Just IsForeign) qi@(Qualified (ByModuleName mn') ident)) = return $ if mn' == mn then foreignIdent ident else varToJs qi valueToJs' (Var (_, _, _, Just IsForeign) ident) = internalError $ "Encountered an unqualified reference to a foreign ident " ++ T.unpack (showQualified showIdent ident) valueToJs' (Var _ ident) = return $ varToJs ident valueToJs' (Case (ss, _, _, _) values binders) = do vals <- mapM valueToJs values bindersToJs ss binders vals valueToJs' (Let _ ds val) = do ds' <- concat <$> mapM bindToJs ds ret <- valueToJs val return $ AST.App Nothing (AST.Function Nothing Nothing [] (AST.Block Nothing (ds' ++ [AST.Return Nothing ret]))) [] valueToJs' (Constructor (_, _, _, Just IsNewtype) _ ctor _) = return $ AST.VariableIntroduction Nothing (properToJs ctor) (Just . (UnknownEffects, ) $ AST.ObjectLiteral Nothing [("create", AST.Function Nothing Nothing ["value"] (AST.Block Nothing [AST.Return Nothing $ AST.Var Nothing "value"]))]) valueToJs' (Constructor _ _ ctor []) = return $ iife (properToJs ctor) [ AST.Function Nothing (Just (properToJs ctor)) [] (AST.Block Nothing []) , AST.Assignment Nothing (accessorString "value" (AST.Var Nothing (properToJs ctor))) (AST.Unary Nothing AST.New $ AST.App Nothing (AST.Var Nothing (properToJs ctor)) []) ] valueToJs' (Constructor _ _ ctor fields) = let constructor = let body = [ AST.Assignment Nothing ((accessorString $ mkString $ identToJs f) (AST.Var Nothing "this")) (var f) | f <- fields ] in AST.Function Nothing (Just (properToJs ctor)) (identToJs `map` fields) (AST.Block Nothing body) createFn = let body = AST.Unary Nothing AST.New $ AST.App Nothing (AST.Var Nothing (properToJs ctor)) (var `map` fields) in foldr (\f inner -> AST.Function Nothing Nothing [identToJs f] (AST.Block Nothing [AST.Return Nothing inner])) body fields in return $ iife (properToJs ctor) [ constructor , AST.Assignment Nothing (accessorString "create" (AST.Var Nothing (properToJs ctor))) createFn ] iife :: Text -> [AST] -> AST iife v exprs = AST.App Nothing (AST.Function Nothing Nothing [] (AST.Block Nothing $ exprs ++ [AST.Return Nothing $ AST.Var Nothing v])) [] literalToValueJS :: SourceSpan -> Literal (Expr Ann) -> m AST literalToValueJS ss (NumericLiteral (Left i)) = return $ AST.NumericLiteral (Just ss) (Left i) literalToValueJS ss (NumericLiteral (Right n)) = return $ AST.NumericLiteral (Just ss) (Right n) literalToValueJS ss (StringLiteral s) = return $ AST.StringLiteral (Just ss) s literalToValueJS ss (CharLiteral c) = return $ AST.StringLiteral (Just ss) (fromString [c]) literalToValueJS ss (BooleanLiteral b) = return $ AST.BooleanLiteral (Just ss) b literalToValueJS ss (ArrayLiteral xs) = AST.ArrayLiteral (Just ss) <$> mapM valueToJs xs literalToValueJS ss (ObjectLiteral ps) = AST.ObjectLiteral (Just ss) <$> mapM (sndM valueToJs) ps -- | Shallow copy an object. extendObj :: AST -> [(PSString, AST)] -> m AST extendObj obj sts = do newObj <- freshName key <- freshName evaluatedObj <- freshName let jsKey = AST.Var Nothing key jsNewObj = AST.Var Nothing newObj jsEvaluatedObj = AST.Var Nothing evaluatedObj block = AST.Block Nothing (evaluate:objAssign:copy:extend ++ [AST.Return Nothing jsNewObj]) evaluate = AST.VariableIntroduction Nothing evaluatedObj (Just (UnknownEffects, obj)) objAssign = AST.VariableIntroduction Nothing newObj (Just (NoEffects, AST.ObjectLiteral Nothing [])) copy = AST.ForIn Nothing key jsEvaluatedObj $ AST.Block Nothing [AST.IfElse Nothing cond assign Nothing] cond = AST.App Nothing (accessorString "call" (accessorString "hasOwnProperty" (AST.ObjectLiteral Nothing []))) [jsEvaluatedObj, jsKey] assign = AST.Block Nothing [AST.Assignment Nothing (AST.Indexer Nothing jsKey jsNewObj) (AST.Indexer Nothing jsKey jsEvaluatedObj)] stToAssign (s, js) = AST.Assignment Nothing (accessorString s jsNewObj) js extend = map stToAssign sts return $ AST.App Nothing (AST.Function Nothing Nothing [] block) [] -- | Generate code in the simplified JavaScript intermediate representation for a reference to a -- variable. varToJs :: Qualified Ident -> AST varToJs (Qualified (BySourcePos _) ident) = var ident varToJs qual = qualifiedToJS id qual -- | Generate code in the simplified JavaScript intermediate representation for a reference to a -- variable that may have a qualified name. qualifiedToJS :: (a -> Ident) -> Qualified a -> AST qualifiedToJS f (Qualified (ByModuleName C.Prim) a) = AST.Var Nothing . runIdent $ f a qualifiedToJS f (Qualified (ByModuleName mn') a) | mn /= mn' = AST.ModuleAccessor Nothing mn' . mkString . T.concatMap identCharToText . runIdent $ f a qualifiedToJS f (Qualified _ a) = AST.Var Nothing $ identToJs (f a) foreignIdent :: Ident -> AST foreignIdent ident = accessorString (mkString $ runIdent ident) (AST.Var Nothing FFINamespace) -- | Generate code in the simplified JavaScript intermediate representation for pattern match binders -- and guards. bindersToJs :: SourceSpan -> [CaseAlternative Ann] -> [AST] -> m AST bindersToJs ss binders vals = do valNames <- replicateM (length vals) freshName let assignments = zipWith (AST.VariableIntroduction Nothing) valNames (map (Just . (UnknownEffects, )) vals) jss <- forM binders $ \(CaseAlternative bs result) -> do ret <- guardsToJs result go valNames ret bs return $ AST.App Nothing (AST.Function Nothing Nothing [] (AST.Block Nothing (assignments ++ concat jss ++ [AST.Throw Nothing $ failedPatternError valNames]))) [] where go :: [Text] -> [AST] -> [Binder Ann] -> m [AST] go _ done [] = return done go (v:vs) done' (b:bs) = do done'' <- go vs done' bs binderToJs v done'' b go _ _ _ = internalError "Invalid arguments to bindersToJs" failedPatternError :: [Text] -> AST failedPatternError names = AST.Unary Nothing AST.New $ AST.App Nothing (AST.Var Nothing "Error") [AST.Binary Nothing AST.Add (AST.StringLiteral Nothing $ mkString failedPatternMessage) (AST.ArrayLiteral Nothing $ zipWith valueError names vals)] failedPatternMessage :: Text failedPatternMessage = "Failed pattern match at " <> runModuleName mn <> " " <> displayStartEndPos ss <> ": " valueError :: Text -> AST -> AST valueError _ l@(AST.NumericLiteral _ _) = l valueError _ l@(AST.StringLiteral _ _) = l valueError _ l@(AST.BooleanLiteral _ _) = l valueError s _ = accessorString "name" . accessorString "constructor" $ AST.Var Nothing s guardsToJs :: Either [(Guard Ann, Expr Ann)] (Expr Ann) -> m [AST] guardsToJs (Left gs) = traverse genGuard gs where genGuard (cond, val) = do cond' <- valueToJs cond val' <- valueToJs val return (AST.IfElse Nothing cond' (AST.Block Nothing [AST.Return Nothing val']) Nothing) guardsToJs (Right v) = return . AST.Return Nothing <$> valueToJs v binderToJs :: Text -> [AST] -> Binder Ann -> m [AST] binderToJs s done binder = let (ss, _, _, _) = extractBinderAnn binder in traverse (withPos ss) =<< binderToJs' s done binder -- | Generate code in the simplified JavaScript intermediate representation for a pattern match -- binder. binderToJs' :: Text -> [AST] -> Binder Ann -> m [AST] binderToJs' _ done NullBinder{} = return done binderToJs' varName done (LiteralBinder _ l) = literalToBinderJS varName done l binderToJs' varName done (VarBinder _ ident) = return (AST.VariableIntroduction Nothing (identToJs ident) (Just (NoEffects, AST.Var Nothing varName)) : done) binderToJs' varName done (ConstructorBinder (_, _, _, Just IsNewtype) _ _ [b]) = binderToJs varName done b binderToJs' varName done (ConstructorBinder (_, _, _, Just (IsConstructor ctorType fields)) _ ctor bs) = do js <- go (zip fields bs) done return $ case ctorType of ProductType -> js SumType -> [AST.IfElse Nothing (AST.InstanceOf Nothing (AST.Var Nothing varName) (qualifiedToJS (Ident . runProperName) ctor)) (AST.Block Nothing js) Nothing] where go :: [(Ident, Binder Ann)] -> [AST] -> m [AST] go [] done' = return done' go ((field, binder) : remain) done' = do argVar <- freshName done'' <- go remain done' js <- binderToJs argVar done'' binder return (AST.VariableIntroduction Nothing argVar (Just (UnknownEffects, accessorString (mkString $ identToJs field) $ AST.Var Nothing varName)) : js) binderToJs' _ _ ConstructorBinder{} = internalError "binderToJs: Invalid ConstructorBinder in binderToJs" binderToJs' varName done (NamedBinder _ ident binder) = do js <- binderToJs varName done binder return (AST.VariableIntroduction Nothing (identToJs ident) (Just (NoEffects, AST.Var Nothing varName)) : js) literalToBinderJS :: Text -> [AST] -> Literal (Binder Ann) -> m [AST] literalToBinderJS varName done (NumericLiteral num) = return [AST.IfElse Nothing (AST.Binary Nothing AST.EqualTo (AST.Var Nothing varName) (AST.NumericLiteral Nothing num)) (AST.Block Nothing done) Nothing] literalToBinderJS varName done (CharLiteral c) = return [AST.IfElse Nothing (AST.Binary Nothing AST.EqualTo (AST.Var Nothing varName) (AST.StringLiteral Nothing (fromString [c]))) (AST.Block Nothing done) Nothing] literalToBinderJS varName done (StringLiteral str) = return [AST.IfElse Nothing (AST.Binary Nothing AST.EqualTo (AST.Var Nothing varName) (AST.StringLiteral Nothing str)) (AST.Block Nothing done) Nothing] literalToBinderJS varName done (BooleanLiteral True) = return [AST.IfElse Nothing (AST.Var Nothing varName) (AST.Block Nothing done) Nothing] literalToBinderJS varName done (BooleanLiteral False) = return [AST.IfElse Nothing (AST.Unary Nothing AST.Not (AST.Var Nothing varName)) (AST.Block Nothing done) Nothing] literalToBinderJS varName done (ObjectLiteral bs) = go done bs where go :: [AST] -> [(PSString, Binder Ann)] -> m [AST] go done' [] = return done' go done' ((prop, binder):bs') = do propVar <- freshName done'' <- go done' bs' js <- binderToJs propVar done'' binder return (AST.VariableIntroduction Nothing propVar (Just (UnknownEffects, accessorString prop (AST.Var Nothing varName))) : js) literalToBinderJS varName done (ArrayLiteral bs) = do js <- go done 0 bs return [AST.IfElse Nothing (AST.Binary Nothing AST.EqualTo (accessorString "length" (AST.Var Nothing varName)) (AST.NumericLiteral Nothing (Left (fromIntegral $ length bs)))) (AST.Block Nothing js) Nothing] where go :: [AST] -> Integer -> [Binder Ann] -> m [AST] go done' _ [] = return done' go done' index (binder:bs') = do elVar <- freshName done'' <- go done' (index + 1) bs' js <- binderToJs elVar done'' binder return (AST.VariableIntroduction Nothing elVar (Just (UnknownEffects, AST.Indexer Nothing (AST.NumericLiteral Nothing (Left index)) (AST.Var Nothing varName))) : js) accessorString :: PSString -> AST -> AST accessorString prop = AST.Indexer Nothing (AST.StringLiteral Nothing prop) pattern FFINamespace :: Text pattern FFINamespace = "$foreign"