module Language.PureScript (module P, compile, compile', RebuildPolicy(..), MonadMake(..), make, prelude) where
import Language.PureScript.Types as P
import Language.PureScript.Kinds as P
import Language.PureScript.AST as P
import Language.PureScript.Names as P
import Language.PureScript.Parser as P
import Language.PureScript.CodeGen as P
import Language.PureScript.CodeGen.Common as P
import Language.PureScript.TypeChecker as P
import Language.PureScript.Pretty as P
import Language.PureScript.Sugar as P
import Language.PureScript.Options as P
import Language.PureScript.ModuleDependencies as P
import Language.PureScript.Environment as P
import Language.PureScript.Errors as P
import Language.PureScript.DeadCodeElimination as P
import Language.PureScript.Supply as P
import Language.PureScript.Renamer as P
import qualified Language.PureScript.Constants as C
import Data.List (sortBy, groupBy, intercalate)
import Data.Time.Clock
import Data.Function (on)
import Data.Maybe (fromMaybe)
import Data.FileEmbed (embedFile)
import Control.Monad.Error
import Control.Arrow ((&&&))
import Control.Applicative
import qualified Data.Map as M
import qualified Data.Set as S
import qualified Data.ByteString.UTF8 as BU
import System.FilePath ((</>))
compile :: Options Compile -> [Module] -> [String] -> Either String (String, String, Environment)
compile = compile' initEnvironment
compile' :: Environment -> Options Compile -> [Module] -> [String] -> Either String (String, String, Environment)
compile' env opts ms prefix = do
(sorted, _) <- sortModules $ map importPrim $ if optionsNoPrelude opts then ms else (map importPrelude ms)
(desugared, nextVar) <- stringifyErrorStack True $ runSupplyT 0 $ desugar sorted
(elaborated, env') <- runCheck' opts env $ forM desugared $ typeCheckModule mainModuleIdent
regrouped <- stringifyErrorStack True $ createBindingGroupsModule . collapseBindingGroupsModule $ elaborated
let entryPoints = moduleNameFromString `map` entryPointModules (optionsAdditional opts)
let elim = if null entryPoints then regrouped else eliminateDeadCode entryPoints regrouped
let renamed = renameInModules elim
let codeGenModuleNames = moduleNameFromString `map` codeGenModules (optionsAdditional opts)
let modulesToCodeGen = if null codeGenModuleNames then renamed else filter (\(Module mn _ _) -> mn `elem` codeGenModuleNames) renamed
let js = evalSupply nextVar $ concat <$> mapM (\m -> moduleToJs opts m env') modulesToCodeGen
let exts = intercalate "\n" . map (`moduleToPs` env') $ modulesToCodeGen
js' <- generateMain env' opts js
let pjs = unlines $ map ("// " ++) prefix ++ [prettyPrintJS js']
return (pjs, exts, env')
where
mainModuleIdent = moduleNameFromString <$> optionsMain opts
generateMain :: Environment -> Options Compile -> [JS] -> Either String [JS]
generateMain env opts js =
case moduleNameFromString <$> optionsMain opts of
Just mmi -> do
when ((mmi, Ident C.main) `M.notMember` names env) $
Left $ show mmi ++ "." ++ C.main ++ " is undefined"
return $ js ++ [JSApp (JSAccessor C.main (JSAccessor (moduleNameToJs mmi) (JSVar (browserNamespace (optionsAdditional opts))))) []]
_ -> return js
class MonadMake m where
getTimestamp :: FilePath -> m (Maybe UTCTime)
readTextFile :: FilePath -> m String
writeTextFile :: FilePath -> String -> m ()
liftError :: Either String a -> m a
progress :: String -> m ()
data RebuildPolicy
= RebuildNever
| RebuildAlways deriving (Show, Eq, Ord)
traverseEither :: Applicative f => (a -> f b) -> Either e a -> f (Either e b)
traverseEither _ (Left x) = pure (Left x)
traverseEither f (Right y) = Right <$> f y
make :: (Functor m, Applicative m, Monad m, MonadMake m) => FilePath -> Options Make -> [(Either RebuildPolicy FilePath, Module)] -> [String] -> m Environment
make outputDir opts ms prefix = do
let filePathMap = M.fromList (map (\(fp, Module mn _ _) -> (mn, fp)) ms)
(sorted, graph) <- liftError $ sortModules $ map importPrim $ if optionsNoPrelude opts then map snd ms else (map (importPrelude . snd) ms)
toRebuild <- foldM (\s (Module moduleName' _ _) -> do
let filePath = runModuleName moduleName'
jsFile = outputDir </> filePath </> "index.js"
externsFile = outputDir </> filePath </> "externs.purs"
inputFile = fromMaybe (error "Module has no filename in 'make'") $ M.lookup moduleName' filePathMap
jsTimestamp <- getTimestamp jsFile
externsTimestamp <- getTimestamp externsFile
inputTimestamp <- traverseEither getTimestamp inputFile
return $ case (inputTimestamp, jsTimestamp, externsTimestamp) of
(Right (Just t1), Just t2, Just t3) | t1 < min t2 t3 -> s
(Left RebuildNever, Just _, Just _) -> s
_ -> S.insert moduleName' s) S.empty sorted
marked <- rebuildIfNecessary (reverseDependencies graph) toRebuild sorted
(desugared, nextVar) <- liftError $ stringifyErrorStack True $ runSupplyT 0 $ zip (map fst marked) <$> desugar (map snd marked)
evalSupplyT nextVar (go initEnvironment desugared)
where
go :: (Functor m, Applicative m, Monad m, MonadMake m) => Environment -> [(Bool, Module)] -> SupplyT m Environment
go env [] = return env
go env ((False, m) : ms') = do
(_, env') <- lift . liftError . runCheck' opts env $ typeCheckModule Nothing m
go env' ms'
go env ((True, m@(Module moduleName' _ exps)) : ms') = do
let filePath = runModuleName moduleName'
jsFile = outputDir </> filePath </> "index.js"
externsFile = outputDir </> filePath </> "externs.purs"
lift . progress $ "Compiling " ++ runModuleName moduleName'
(Module _ elaborated _, env') <- lift . liftError . runCheck' opts env $ typeCheckModule Nothing m
regrouped <- lift . liftError . stringifyErrorStack True . createBindingGroups moduleName' . collapseBindingGroups $ elaborated
let mod' = Module moduleName' regrouped exps
let [renamed] = renameInModules [mod']
pjs <- prettyPrintJS <$> moduleToJs opts renamed env'
let js = unlines $ map ("// " ++) prefix ++ [pjs]
let exts = unlines $ map ("-- " ++ ) prefix ++ [moduleToPs renamed env']
lift $ writeTextFile jsFile js
lift $ writeTextFile externsFile exts
go env' ms'
rebuildIfNecessary :: (Functor m, Monad m, MonadMake m) => M.Map ModuleName [ModuleName] -> S.Set ModuleName -> [Module] -> m [(Bool, Module)]
rebuildIfNecessary _ _ [] = return []
rebuildIfNecessary graph toRebuild (m@(Module moduleName' _ _) : ms') | moduleName' `S.member` toRebuild = do
let deps = fromMaybe [] $ moduleName' `M.lookup` graph
toRebuild' = toRebuild `S.union` S.fromList deps
(:) (True, m) <$> rebuildIfNecessary graph toRebuild' ms'
rebuildIfNecessary graph toRebuild (Module moduleName' _ _ : ms') = do
let externsFile = outputDir </> runModuleName moduleName' </> "externs.purs"
externs <- readTextFile externsFile
externsModules <- liftError . either (Left . show) Right $ P.runIndentParser externsFile P.parseModules externs
case externsModules of
[m'@(Module moduleName'' _ _)] | moduleName'' == moduleName' -> (:) (False, m') <$> rebuildIfNecessary graph toRebuild ms'
_ -> liftError . Left $ "Externs file " ++ externsFile ++ " was invalid"
reverseDependencies :: ModuleGraph -> M.Map ModuleName [ModuleName]
reverseDependencies g = combine [ (dep, mn) | (mn, deps) <- g, dep <- deps ]
where
combine :: (Ord a) => [(a, b)] -> M.Map a [b]
combine = M.fromList . map ((fst . head) &&& map snd) . groupBy ((==) `on` fst) . sortBy (compare `on` fst)
addDefaultImport :: ModuleName -> Module -> Module
addDefaultImport toImport m@(Module mn decls exps) =
if isExistingImport `any` decls || mn == toImport then m
else Module mn (ImportDeclaration toImport Unqualified Nothing : decls) exps
where
isExistingImport (ImportDeclaration mn' _ _) | mn' == toImport = True
isExistingImport (PositionedDeclaration _ d) = isExistingImport d
isExistingImport _ = False
importPrim :: Module -> Module
importPrim = addDefaultImport (ModuleName [ProperName C.prim])
importPrelude :: Module -> Module
importPrelude = addDefaultImport (ModuleName [ProperName C.prelude])
prelude :: String
prelude = BU.toString $(embedFile "prelude/prelude.purs")