module Initialize (buildFromSource, getSortedDependencies) where import Data.Data import Control.Monad.State import qualified Data.Graph as Graph import qualified Data.List as List import qualified Data.Map as Map import qualified Data.Set as Set import System.Exit import System.FilePath as FP import Text.PrettyPrint (Doc) import SourceSyntax.Everything import SourceSyntax.Type import qualified Parse.Parse as Parse import qualified Metadata.Prelude as Prelude import qualified Transform.Check as Check import qualified Transform.SortDefinitions as SD import qualified Type.Inference as TI import qualified Type.Constrain.Declaration as TcDecl import qualified Transform.Canonicalize as Canonical buildFromSource :: Bool -> Interfaces -> String -> Either [Doc] (MetadataModule () ()) buildFromSource noPrelude interfaces source = do let add = if noPrelude then id else Prelude.add modul@(Module _ _ _ decls') <- add `fmap` Parse.program source -- check for structural errors Module names exs ims decls <- case Check.mistakes decls' of [] -> return modul ms -> Left ms let exports' | null exs = let get = Set.toList . SD.boundVars in concat [ get pattern | Definition (Def pattern _) <- decls ] ++ concat [ map fst ctors | Datatype _ _ ctors <- decls ] | otherwise = exs metaModule <- Canonical.metadataModule interfaces $ MetadataModule { names = names, path = FP.joinPath names, exports = exports', imports = ims, -- reorder AST into strongly connected components program = SD.sortDefs . dummyLet $ TcDecl.toExpr decls, types = Map.empty, datatypes = [ (name,vars,ctors) | Datatype name vars ctors <- decls ], fixities = [ (assoc,level,op) | Fixity assoc level op <- decls ], aliases = [ (name,tvs,tipe) | TypeAlias name tvs tipe <- decls ], foreignImports = [ (evt,v,name,typ) | ImportEvent evt v name typ <- decls ], foreignExports = [ (evt,name,typ) | ExportEvent evt name typ <- decls ] } types <- TI.infer interfaces metaModule return $ metaModule { types = types } getSortedDependencies :: Bool -> FilePath -> IO [String] getSortedDependencies noPrelude root = sortDeps =<< readDeps noPrelude root type Deps = (FilePath, String, [String]) sortDeps :: [Deps] -> IO [String] sortDeps depends = if null mistakes then return (concat sccs) else print msg >> mapM print mistakes >> exitFailure where sccs = map Graph.flattenSCC $ Graph.stronglyConnComp depends mistakes = filter (\scc -> length scc > 1) sccs msg = "A cyclical module dependency or was detected in: " readDeps :: Bool -> FilePath -> IO [Deps] readDeps noPrelude root = evalStateT (go root) Set.empty where builtIns = if noPrelude then Set.empty else Set.fromList (Map.keys Prelude.interfaces) go :: FilePath -> StateT (Set.Set String) IO [Deps] go root = do txt <- liftIO $ readFile root case Parse.dependencies txt of Left err -> liftIO (putStrLn msg >> print err >> exitFailure) where msg = "Error resolving dependencies in " ++ root ++ ":" Right (name,deps) -> do seen <- get let realDeps = Set.difference (Set.fromList deps) builtIns newDeps = Set.difference (Set.filter (not . isNative) realDeps) seen put (Set.insert name (Set.union newDeps seen)) rest <- mapM (go . toFilePath) (Set.toList newDeps) return ((makeRelative "." root, name, Set.toList realDeps) : concat rest) isNative name = List.isPrefixOf "Native." name toFilePath :: String -> FilePath toFilePath name = map swapDots name ++ ext where swapDots '.' = '/' swapDots c = c ext = if isNative name then ".js" else ".elm"