{- git trees - - Copyright 2016 Joey Hess - - Licensed under the GNU GPL version 3 or higher. -} {-# LANGUAGE BangPatterns, TypeSynonymInstances, FlexibleInstances #-} module Git.Tree ( Tree(..), TreeContent(..), getTree, recordTree, TreeItem(..), adjustTree, ) where import Common import Git import Git.FilePath import Git.Types import Git.Command import Git.Sha import qualified Git.LsTree as LsTree import qualified Utility.CoProcess as CoProcess import Numeric import System.Posix.Types import Control.Monad.IO.Class import qualified Data.Set as S import qualified Data.Map as M newtype Tree = Tree [TreeContent] deriving (Show) data TreeContent = TreeBlob TopFilePath FileMode Sha -- A subtree that is already recorded in git, with a known sha. | RecordedSubTree TopFilePath Sha [TreeContent] -- A subtree that has not yet been recorded in git. | NewSubTree TopFilePath [TreeContent] deriving (Show, Eq, Ord) {- Gets the Tree for a Ref. -} getTree :: Ref -> Repo -> IO Tree getTree r repo = do (l, cleanup) <- lsTreeWithObjects r repo let !t = either (\e -> error ("ls-tree parse error:" ++ e)) id (extractTree l) void cleanup return t lsTreeWithObjects :: Ref -> Repo -> IO ([LsTree.TreeItem], IO Bool) lsTreeWithObjects = LsTree.lsTree' [Param "-t"] newtype MkTreeHandle = MkTreeHandle CoProcess.CoProcessHandle withMkTreeHandle :: (MonadIO m, MonadMask m) => Repo -> (MkTreeHandle -> m a) -> m a withMkTreeHandle repo a = bracketIO setup cleanup (a . MkTreeHandle) where setup = CoProcess.rawMode =<< gitCoProcessStart False ps repo ps = [Param "mktree", Param "--batch", Param "-z"] cleanup = CoProcess.stop {- Records a Tree in the Repo, returning its Sha. - - Efficiently handles subtrees, by only recording ones that have not - already been recorded before. And even when many subtrees need to be - recorded, it's done with a single call to git mktree, using its batch - interface. -} recordTree :: Tree -> Repo -> IO Sha recordTree t repo = withMkTreeHandle repo $ \h -> recordTree' h t recordTree' :: MkTreeHandle -> Tree -> IO Sha recordTree' h (Tree l) = mkTree h =<< mapM (recordSubTree h) l {- Note that the returned RecordedSubTree does not have its [TreeContent] - list populated. This is a memory optimisation, since the list is not - used. -} recordSubTree :: MkTreeHandle -> TreeContent -> IO TreeContent recordSubTree h (NewSubTree d l) = do sha <- mkTree h =<< mapM (recordSubTree h) l return (RecordedSubTree d sha []) recordSubTree _ alreadyrecorded = return alreadyrecorded mkTree :: MkTreeHandle -> [TreeContent] -> IO Sha mkTree (MkTreeHandle cp) l = CoProcess.query cp send receive where send h = do forM_ l $ \i -> hPutStr h $ case i of TreeBlob f fm s -> mkTreeOutput fm BlobObject s f RecordedSubTree f s _ -> mkTreeOutput 0o040000 TreeObject s f NewSubTree _ _ -> error "recordSubTree internal error; unexpected NewSubTree" hPutStr h "\NUL" -- signal end of tree to --batch receive h = getSha "mktree" (hGetLine h) mkTreeOutput :: FileMode -> ObjectType -> Sha -> TopFilePath -> String mkTreeOutput fm ot s f = concat [ showOct fm "" , " " , show ot , " " , fromRef s , "\t" , takeFileName (getTopFilePath f) , "\NUL" ] data TreeItem = TreeItem TopFilePath FileMode Sha deriving (Show, Eq) treeItemToTreeContent :: TreeItem -> TreeContent treeItemToTreeContent (TreeItem f m s) = TreeBlob f m s treeItemsToTree :: [TreeItem] -> Tree treeItemsToTree = go M.empty where go m [] = Tree $ filter inTopTree (M.elems m) go m (i:is) | inTopTree p = go (M.insert p (treeItemToTreeContent i) m) is | otherwise = case M.lookup idir m of Just (NewSubTree d l) -> go (addsubtree idir m (NewSubTree d (c:l))) is _ -> go (addsubtree idir m (NewSubTree (asTopFilePath idir) [c])) is where p = gitPath i idir = takeDirectory p c = treeItemToTreeContent i addsubtree d m t | not (inTopTree d) = let m' = M.insert d t m in case M.lookup parent m' of Just (NewSubTree d' l) -> let l' = filter (\ti -> gitPath ti /= d) l in addsubtree parent m' (NewSubTree d' (t:l')) _ -> addsubtree parent m' (NewSubTree (asTopFilePath parent) [t]) | otherwise = M.insert d t m where parent = takeDirectory d {- Flattens the top N levels of a Tree. -} flattenTree :: Int -> Tree -> Tree flattenTree 0 t = t flattenTree n (Tree l) = Tree (concatMap (go n) l) where go 0 c = [c] go _ b@(TreeBlob _ _ _) = [b] go n' (RecordedSubTree _ _ l') = concatMap (go (n'-1)) l' go n' (NewSubTree _ l') = concatMap (go (n'-1)) l' {- Applies an adjustment to items in a tree. - - While less flexible than using getTree and recordTree, - this avoids buffering the whole tree in memory. -} adjustTree :: (Functor m, MonadIO m, MonadMask m) => (TreeItem -> m (Maybe TreeItem)) -- ^ Adjust an item in the tree. Nothing deletes the item. -- Cannot move the item to a different tree. -> [TreeItem] -- ^ New items to add to the tree. -> [TopFilePath] -- ^ Files to remove from the tree. -> Ref -> Repo -> m Sha adjustTree adjusttreeitem addtreeitems removefiles r repo = withMkTreeHandle repo $ \h -> do (l, cleanup) <- liftIO $ lsTreeWithObjects r repo (l', _, _) <- go h False [] 1 inTopTree l l'' <- adjustlist h 0 inTopTree (const True) l' sha <- liftIO $ mkTree h l'' void $ liftIO cleanup return sha where go _ wasmodified c _ _ [] = return (c, wasmodified, []) go h wasmodified c depth intree (i:is) | intree i = case readObjectType (LsTree.typeobj i) of Just BlobObject -> do let ti = TreeItem (LsTree.file i) (LsTree.mode i) (LsTree.sha i) v <- adjusttreeitem ti case v of Nothing -> go h True c depth intree is Just ti'@(TreeItem f m s) -> let !modified = wasmodified || ti' /= ti blob = TreeBlob f m s in go h modified (blob:c) depth intree is Just TreeObject -> do (sl, modified, is') <- go h False [] (depth+1) (beneathSubTree i) is sl' <- adjustlist h depth (inTree i) (beneathSubTree i) sl let slmodified = sl' /= sl subtree <- if modified || slmodified then liftIO $ recordSubTree h $ NewSubTree (LsTree.file i) sl' else return $ RecordedSubTree (LsTree.file i) (LsTree.sha i) [] let !modified' = modified || slmodified || wasmodified go h modified' (subtree : c) depth intree is' _ -> error ("unexpected object type \"" ++ LsTree.typeobj i ++ "\"") | otherwise = return (c, wasmodified, i:is) adjustlist h depth ishere underhere l = do let (addhere, rest) = partition ishere addtreeitems let l' = filter (not . removed) $ map treeItemToTreeContent addhere ++ l let inl i = any (\t -> beneathSubTree t i) l' let (Tree addunderhere) = flattenTree depth $ treeItemsToTree $ filter (\i -> underhere i && not (inl i)) rest addunderhere' <- liftIO $ mapM (recordSubTree h) addunderhere return (addunderhere'++l') removeset = S.fromList $ map (normalise . gitPath) removefiles removed (TreeBlob f _ _) = S.member (normalise (gitPath f)) removeset removed _ = False {- Assumes the list is ordered, with tree objects coming right before their - contents. -} extractTree :: [LsTree.TreeItem] -> Either String Tree extractTree l = case go [] inTopTree l of Right (t, []) -> Right (Tree t) Right _ -> parseerr "unexpected tree form" Left e -> parseerr e where go t _ [] = Right (t, []) go t intree (i:is) | intree i = case readObjectType (LsTree.typeobj i) of Just BlobObject -> let b = TreeBlob (LsTree.file i) (LsTree.mode i) (LsTree.sha i) in go (b:t) intree is Just TreeObject -> case go [] (beneathSubTree i) is of Right (subtree, is') -> let st = RecordedSubTree (LsTree.file i) (LsTree.sha i) subtree in go (st:t) intree is' Left e -> Left e _ -> parseerr ("unexpected object type \"" ++ LsTree.typeobj i ++ "\"") | otherwise = Right (t, i:is) parseerr = Left class GitPath t where gitPath :: t -> FilePath instance GitPath FilePath where gitPath = id instance GitPath TopFilePath where gitPath = getTopFilePath instance GitPath TreeItem where gitPath (TreeItem f _ _) = gitPath f instance GitPath LsTree.TreeItem where gitPath = gitPath . LsTree.file instance GitPath TreeContent where gitPath (TreeBlob f _ _) = gitPath f gitPath (RecordedSubTree f _ _) = gitPath f gitPath (NewSubTree f _) = gitPath f inTopTree :: GitPath t => t -> Bool inTopTree = inTree "." inTree :: (GitPath t, GitPath f) => t -> f -> Bool inTree t f = gitPath t == takeDirectory (gitPath f) beneathSubTree :: (GitPath t, GitPath f) => t -> f -> Bool beneathSubTree t f = prefix `isPrefixOf` normalise (gitPath f) where tp = gitPath t prefix = if null tp then tp else addTrailingPathSeparator (normalise tp)