{- ----------------------------------------------------------------------------- Copyright 2020 Kevin P. Barry Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. ----------------------------------------------------------------------------- -} -- Author: Kevin P. Barry [ta0kira@gmail.com] module Cli.Compiler ( LoadedTests(..), ModuleSpec(..), compileModule, createModuleTemplates, runModuleTests, ) where import Control.Monad (foldM,when) import Data.Either (partitionEithers) import Data.List (isSuffixOf,nub,sort) import System.Directory import System.FilePath import System.Posix.Temp (mkstemps) import System.IO import Text.Parsec (SourcePos) import qualified Data.Map as Map import qualified Data.Set as Set import Base.CompileError import Cli.CompileMetadata import Cli.CompileOptions import Cli.Paths import Cli.ProcessMetadata import Cli.Programs import Cli.TestRunner -- Not safe, due to Text.Regex.TDFA. import Base.CompileInfo import Compilation.ProcedureContext (ExprMap) import CompilerCxx.Category import CompilerCxx.Naming import Parser.SourceFile import Types.Builtin import Types.DefinedCategory import Types.Pragma import Types.TypeCategory import Types.TypeInstance data ModuleSpec = ModuleSpec { msRoot :: FilePath, msPath :: FilePath, msExprMap :: ExprMap SourcePos, msPublicDeps :: [FilePath], msPrivateDeps :: [FilePath], msPublicFiles :: [FilePath], msPrivateFiles :: [FilePath], msTestFiles :: [FilePath], msExtraFiles :: [ExtraSource], msExtraPaths :: [FilePath], msMode :: CompileMode, msForce :: ForceMode } deriving (Show) data LoadedTests = LoadedTests { ltRoot :: FilePath, ltPath :: FilePath, ltMetadata :: CompileMetadata, ltExprMap :: ExprMap SourcePos, ltPublicDeps :: [CompileMetadata], ltPrivateDeps :: [CompileMetadata] } deriving (Show) compileModule :: (PathIOHandler r, CompilerBackend b) => r -> b -> ModuleSpec -> CompileInfoIO () compileModule resolver backend (ModuleSpec p d em is is2 ps xs ts es ep m f) = do as <- fmap fixPaths $ mapErrorsM (resolveModule resolver (p d)) is as2 <- fmap fixPaths $ mapErrorsM (resolveModule resolver (p d)) is2 let ca0 = Map.empty deps1 <- loadPublicDeps compilerHash f ca0 as let ca1 = ca0 `Map.union` mapMetadata deps1 deps2 <- loadPublicDeps compilerHash f ca1 as2 let ca2 = ca1 `Map.union` mapMetadata deps2 base <- resolveBaseModule resolver actual <- resolveModule resolver p d isBase <- isBaseModule resolver actual -- Lazy dependency loading, in case we're compiling base. deps1' <- if isBase then return deps1 else do bpDeps <- loadPublicDeps compilerHash f ca2 [base] return $ bpDeps ++ deps1 ns0 <- createPublicNamespace p d let ex = concat $ map getSourceCategories es (cm,(pc,tc)) <- loadLanguageModule p ns0 ex em ps deps1' deps2 xa <- mapErrorsM (loadPrivateSource p) xs (xx1,xx2) <- compileLanguageModule cm xa mf <- maybeCreateMain cm xa m let fs' = xx1++xx2 eraseCachedData (p d) let ps2 = map takeFileName ps let xs2 = map takeFileName xs let ts2 = map takeFileName ts let paths = map (\ns -> getCachedPath (p d) ns "") $ nub $ filter (not . null) $ map show $ [ns0] ++ map coNamespace fs' paths' <- mapM (errorFromIO . canonicalizePath) paths s0 <- errorFromIO $ canonicalizePath $ getCachedPath (p d) (show ns0) "" let paths2 = base:(getIncludePathsForDeps (deps1' ++ deps2)) ++ ep' ++ paths' let hxx = filter (isSuffixOf ".hpp" . coFilename) fs' let other = filter (not . isSuffixOf ".hpp" . coFilename) fs' os1 <- mapErrorsM (writeOutputFile (show ns0) paths2) $ hxx ++ other let files = map (\f2 -> getCachedPath (p d) (show $ coNamespace f2) (coFilename f2)) fs' ++ map (\f2 -> p getSourceFile f2) es files' <- mapErrorsM checkOwnedFile files os2 <- fmap concat $ mapErrorsM (compileExtraSource (show ns0) paths2) es let (hxx',cxx,os') = sortCompiledFiles files' let (osCat,osOther) = partitionEithers os2 path <- errorFromIO $ canonicalizePath $ p d let os1' = resolveObjectDeps (deps1' ++ deps2) path path (os1 ++ osCat) let cm2 = CompileMetadata { cmVersionHash = compilerHash, cmPath = path, cmNamespace = ns0, cmPublicDeps = as, cmPrivateDeps = as2, cmPublicCategories = sort pc, cmPrivateCategories = sort tc, cmSubdirs = [s0], cmPublicFiles = sort ps2, cmPrivateFiles = sort xs2, cmTestFiles = sort ts2, cmHxxFiles = sort hxx', cmCxxFiles = sort cxx, cmBinaries = [], cmLinkFlags = getLinkFlags m, cmObjectFiles = os1' ++ osOther ++ map OtherObjectFile os' } bs <- createBinary paths' (cm2:(deps1' ++ deps2)) m mf let cm2' = CompileMetadata { cmVersionHash = cmVersionHash cm2, cmPath = cmPath cm2, cmNamespace = cmNamespace cm2, cmPublicDeps = cmPublicDeps cm2, cmPrivateDeps = cmPrivateDeps cm2, cmPublicCategories = cmPublicCategories cm2, cmPrivateCategories = cmPrivateCategories cm2, cmSubdirs = cmSubdirs cm2, cmPublicFiles = cmPublicFiles cm2, cmPrivateFiles = cmPrivateFiles cm2, cmTestFiles = cmTestFiles cm2, cmHxxFiles = cmHxxFiles cm2, cmCxxFiles = cmCxxFiles cm2, cmBinaries = bs, cmLinkFlags = cmLinkFlags cm2, cmObjectFiles = cmObjectFiles cm2 } writeMetadata (p d) cm2' where compilerHash = getCompilerHash backend ep' = fixPaths $ map (p ) ep writeOutputFile ns0 paths ca@(CxxOutput _ f2 ns _ _ content) = do errorFromIO $ hPutStrLn stderr $ "Writing file " ++ f2 writeCachedFile (p d) (show ns) f2 $ concat $ map (++ "\n") content if isSuffixOf ".cpp" f2 || isSuffixOf ".cc" f2 then do let f2' = getCachedPath (p d) (show ns) f2 let p0 = getCachedPath (p d) "" "" let p1 = getCachedPath (p d) (show ns) "" createCachePath (p d) let ns' = if isStaticNamespace ns then show ns else show ns0 let command = CompileToObject f2' (getCachedPath (p d) ns' "") dynamicNamespaceName "" (p0:p1:paths) False o2 <- runCxxCommand backend command return $ ([o2],ca) else return ([],ca) compileExtraSource ns0 paths (CategorySource f2 cs ds2) = do f2' <- compileExtraFile False ns0 paths f2 let ds2' = nub $ cs ++ ds2 case f2' of Nothing -> return [] Just o -> return $ map (\c -> Left $ ([o],fakeCxxForSource ns0 ds2' c)) cs compileExtraSource ns0 paths (OtherSource f2) = do f2' <- compileExtraFile True ns0 paths f2 case f2' of Just o -> return [Right $ OtherObjectFile o] Nothing -> return [] fakeCxxForSource ns ds2 c = CxxOutput { coCategory = Just c, coFilename = "", coNamespace = ns', coUsesNamespace = [ns'], coUsesCategory = ds2, coOutput = [] } where ns' = if null ns then NoNamespace else StaticNamespace ns checkOwnedFile f2 = do exists <- errorFromIO $ doesFileExist f2 when (not exists) $ compileErrorM $ "Owned file " ++ f2 ++ " does not exist." errorFromIO $ canonicalizePath f2 compileExtraFile e ns0 paths f2 | isSuffixOf ".cpp" f2 || isSuffixOf ".cc" f2 = do let f2' = p f2 createCachePath (p d) let command = CompileToObject f2' (getCachedPath (p d) "" "") dynamicNamespaceName ns0 paths e fmap Just $ runCxxCommand backend command | isSuffixOf ".a" f2 || isSuffixOf ".o" f2 = return (Just f2) | otherwise = return Nothing createBinary paths deps (CompileBinary n _ o lf) ms | length ms > 1 = compileErrorM $ "Multiple matches for main category " ++ show n ++ "." | length ms == 0 = compileErrorM $ "Main category " ++ show n ++ " not found." | otherwise = do f0 <- if null o then errorFromIO $ canonicalizePath $ p d show n else errorFromIO $ canonicalizePath $ p d o let (CxxOutput _ _ _ ns2 req content) = head ms -- TODO: Create a helper or a constant or something. (o',h) <- errorFromIO $ mkstemps "/tmp/zmain_" ".cpp" errorFromIO $ hPutStr h $ concat $ map (++ "\n") content errorFromIO $ hClose h base <- resolveBaseModule resolver deps2 <- loadPrivateDeps compilerHash f (mapMetadata deps) deps let lf' = lf ++ getLinkFlagsForDeps deps2 let paths' = fixPaths $ paths ++ base:(getIncludePathsForDeps deps) let os = getObjectFilesForDeps deps2 let ofr = getObjectFileResolver os let os' = ofr ns2 req let command = CompileToBinary o' os' f0 paths' lf' errorFromIO $ hPutStrLn stderr $ "Creating binary " ++ f0 f1 <- runCxxCommand backend command errorFromIO $ removeFile o' return [f1] createBinary _ _ _ _ = return [] maybeCreateMain cm2 xs2 (CompileBinary n f2 _ _) = fmap (:[]) $ compileModuleMain cm2 xs2 n f2 maybeCreateMain _ _ _ = return [] createModuleTemplates :: FilePath -> FilePath -> [CompileMetadata] -> [CompileMetadata] -> CompileInfoIO () createModuleTemplates p d deps1 deps2 = do ns0 <- createPublicNamespace p d (ps,xs,_) <- findSourceFiles p d (LanguageModule _ _ _ cs0 ps0 ts0 cs1 ps1 ts1 _ _,_) <- fmap (fmap fst) $ loadLanguageModule p ns0 [] Map.empty ps deps1 deps2 xs' <- zipWithContents p xs ds <- mapErrorsM parseInternalSource xs' let ds2 = concat $ map (\(_,_,d2) -> d2) ds tm <- foldM includeNewTypes defaultCategories [cs0,cs1,ps0,ps1,ts0,ts1] let cs = filter isValueConcrete $ cs1++ps1++ts1 let ca = Set.fromList $ map getCategoryName $ filter isValueConcrete cs let ca' = foldr Set.delete ca $ map dcName ds2 ts <- mapErrorsM (compileConcreteTemplate tm) $ Set.toList ca' mapErrorsM_ writeTemplate ts where writeTemplate (CxxOutput _ n _ _ _ content) = do let n' = p d n exists <- errorFromIO $ doesFileExist n' if exists then compileWarningM $ "Skipping existing file " ++ n else do errorFromIO $ hPutStrLn stderr $ "Writing file " ++ n errorFromIO $ writeFile n' $ concat $ map (++ "\n") content runModuleTests :: (PathIOHandler r, CompilerBackend b) => r -> b -> FilePath -> [FilePath] -> LoadedTests -> CompileInfoIO [((Int,Int),CompileInfo ())] runModuleTests _ backend base tp (LoadedTests p d m em deps1 deps2) = do let paths = base:(getIncludePathsForDeps deps1) mapErrorsM_ showSkipped $ filter (not . isTestAllowed) $ cmTestFiles m ts' <- zipWithContents p $ map (d ) $ filter isTestAllowed $ cmTestFiles m path <- errorFromIO $ canonicalizePath (p d) (cm,_) <- loadLanguageModule path NoNamespace [] em [] deps1 [] mapErrorsM (runSingleTest backend cm path paths (m:deps2)) ts' where allowTests = Set.fromList tp isTestAllowed t = if null allowTests then True else t `Set.member` allowTests showSkipped f = compileWarningM $ "Skipping tests in " ++ f ++ " due to explicit test filter." createPublicNamespace :: FilePath -> FilePath -> CompileInfoIO Namespace createPublicNamespace p d = (errorFromIO $ canonicalizePath (p d)) >>= return . StaticNamespace . publicNamespace createPrivateNamespace :: FilePath -> FilePath -> CompileInfoIO Namespace createPrivateNamespace p f = (errorFromIO $ canonicalizePath (p f)) >>= return . StaticNamespace . publicNamespace zipWithContents :: FilePath -> [FilePath] -> CompileInfoIO [(FilePath,String)] zipWithContents p fs = fmap (zip $ map fixPath fs) $ mapM (errorFromIO . readFile . (p )) fs loadPrivateSource :: FilePath -> FilePath -> CompileInfoIO (PrivateSource SourcePos) loadPrivateSource p f = do [f'] <- zipWithContents p [f] ns <- createPrivateNamespace p f (pragmas,cs,ds) <- parseInternalSource f' let cs' = map (setCategoryNamespace ns) cs let testing = any isTestsOnly pragmas return $ PrivateSource ns testing cs' ds loadLanguageModule :: FilePath -> Namespace -> [CategoryName] -> ExprMap SourcePos -> [FilePath] -> [CompileMetadata] -> [CompileMetadata] -> CompileInfoIO (LanguageModule SourcePos,([CategoryName],[CategoryName])) loadLanguageModule p ns2 ex em fs deps1 deps2 = do let public = Set.fromList $ map cmPath deps1 let deps2' = filter (\cm -> not $ cmPath cm `Set.member` public) deps2 let ns0 = filter (not . isNoNamespace) $ getNamespacesForDeps deps1 let ns1 = filter (not . isNoNamespace) $ getNamespacesForDeps deps2' (ps0,_, tsA0,_) <- fmap merge $ mapErrorsM processAll deps1 (ps1,_, tsA1,_) <- fmap merge $ mapErrorsM processAll deps2' (ps2,xs2,tsA2,tsB2) <- loadAllPublic "" fs let cm = LanguageModule { lmPublicNamespaces = ns0, lmPrivateNamespaces = ns1, lmLocalNamespaces = [ns2], lmPublicDeps = ps0, lmPrivateDeps = ps1, lmTestingDeps = tsA0++tsA1, lmPublicLocal = map (setCategoryNamespace ns2) ps2, lmPrivateLocal = map (setCategoryNamespace ns2) xs2, lmTestingLocal = map (setCategoryNamespace ns2) $ tsA2 ++ tsB2, lmExternal = ex, lmExprMap = em } return (cm,(map getCategoryName $ ps2++tsA2,map getCategoryName $ xs2++tsB2)) where loadPublic p2 p3 = parsePublicSource p3 >>= return . uncurry (partition p2) partition p2 pragmas cs -- Allow ModuleOnly when the path is the same. Only needed for tests. | p2 == p && (any isTestsOnly pragmas) = ([],[],cs,[]) | p2 == p = (cs,[],[],[]) | (any isModuleOnly pragmas) && (any isTestsOnly pragmas) = ([],[],[],cs) | (any isTestsOnly pragmas) = ([],[],cs,[]) | (any isModuleOnly pragmas) = ([],cs,[],[]) | otherwise = (cs,[],[],[]) processAll dep = do let dep' = getSourceFilesForDeps [dep] loadAllPublic (cmPath dep) dep' loadAllPublic p2 fs2 = do fs2' <- zipWithContents p fs2 as <- mapErrorsM (loadPublic p2) fs2' return $ merge as merge = foldl merge4 ([],[],[],[]) merge4 (ps1,xs1,tsA1,tsB1) (ps2,xs2,tsA2,tsB2) = (ps1++ps2,xs1++xs2,tsA1++tsA2,tsB1++tsB2)