module Darcs.Util.Tree
( Tree, Blob(..), TreeItem(..), ItemType(..), Hash(..)
, makeTree, makeTreeWithHash, emptyTree, emptyBlob, makeBlob, makeBlobBS
, expandUpdate, expand, expandPath, checkExpand
, items, list, listImmediate, treeHash
, lookup, find, findFile, findTree, itemHash, itemType
, zipCommonFiles, zipFiles, zipTrees, diffTrees
, readBlob
, FilterTree(..), restrict
, modifyTree, updateTree, partiallyUpdateTree, updateSubtrees, overlay
, addMissingHashes ) where
import Prelude ()
import Darcs.Prelude hiding ( filter )
import Control.Exception( catch, IOException )
import Darcs.Util.Path
import Darcs.Util.Hash
import qualified Data.ByteString.Lazy as BL
import qualified Data.ByteString as B
import qualified Data.Map as M
import Data.Maybe( catMaybes, isNothing )
import Data.Either( lefts, rights )
import Data.List( union, sort )
import Control.Monad( filterM )
import Control.Applicative( (<$>) )
data Blob m = Blob !(m BL.ByteString) !Hash
data TreeItem m = File !(Blob m)
| SubTree !(Tree m)
| Stub !(m (Tree m)) !Hash
data ItemType = TreeType | BlobType deriving (Show, Eq, Ord)
data Tree m = Tree { items :: M.Map Name (TreeItem m)
, treeHash :: !Hash }
listImmediate :: Tree m -> [(Name, TreeItem m)]
listImmediate = M.toList . items
itemHash :: TreeItem m -> Hash
itemHash (File (Blob _ h)) = h
itemHash (SubTree t) = treeHash t
itemHash (Stub _ h) = h
itemType :: TreeItem m -> ItemType
itemType (File _) = BlobType
itemType (SubTree _) = TreeType
itemType (Stub _ _) = TreeType
emptyTree :: Tree m
emptyTree = Tree { items = M.empty
, treeHash = NoHash }
emptyBlob :: (Monad m) => Blob m
emptyBlob = Blob (return BL.empty) NoHash
makeBlob :: (Monad m) => BL.ByteString -> Blob m
makeBlob str = Blob (return str) (sha256 str)
makeBlobBS :: (Monad m) => B.ByteString -> Blob m
makeBlobBS s' = let s = BL.fromChunks [s'] in Blob (return s) (sha256 s)
makeTree :: [(Name,TreeItem m)] -> Tree m
makeTree l = Tree { items = M.fromList l
, treeHash = NoHash }
makeTreeWithHash :: [(Name,TreeItem m)] -> Hash -> Tree m
makeTreeWithHash l h = Tree { items = M.fromList l
, treeHash = h }
lookup :: Tree m -> Name -> Maybe (TreeItem m)
lookup t n = M.lookup n (items t)
find' :: TreeItem m -> AnchoredPath -> Maybe (TreeItem m)
find' t (AnchoredPath []) = Just t
find' (SubTree t) (AnchoredPath (d : rest)) =
case lookup t d of
Just sub -> find' sub (AnchoredPath rest)
Nothing -> Nothing
find' _ _ = Nothing
find :: Tree m -> AnchoredPath -> Maybe (TreeItem m)
find = find' . SubTree
findFile :: Tree m -> AnchoredPath -> Maybe (Blob m)
findFile t p = case find t p of
Just (File x) -> Just x
_ -> Nothing
findTree :: Tree m -> AnchoredPath -> Maybe (Tree m)
findTree t p = case find t p of
Just (SubTree x) -> Just x
_ -> Nothing
list :: Tree m -> [(AnchoredPath, TreeItem m)]
list t_ = paths t_ (AnchoredPath [])
where paths t p = [ (appendPath p n, i)
| (n,i) <- listImmediate t ] ++
concat [ paths subt (appendPath p subn)
| (subn, SubTree subt) <- listImmediate t ]
expandUpdate :: (Monad m) => (AnchoredPath -> Tree m -> m (Tree m)) -> Tree m -> m (Tree m)
expandUpdate update t_ = go (AnchoredPath []) t_
where go path t = do
let subtree (name, sub) = do tree <- go (path `appendPath` name) =<< unstub sub
return (name, SubTree tree)
expanded <- mapM subtree [ x | x@(_, item) <- listImmediate t, isSub item ]
let orig_map = M.filter (not . isSub) (items t)
expanded_map = M.fromList expanded
tree = t { items = M.union orig_map expanded_map }
update path tree
expand :: (Monad m) => Tree m -> m (Tree m)
expand = expandUpdate $ const return
expandPath :: (Monad m) => Tree m -> AnchoredPath -> m (Tree m)
expandPath t (AnchoredPath []) = return t
expandPath t (AnchoredPath (n:rest)) =
case lookup t n of
(Just item) | isSub item -> amend t n rest =<< unstub item
_ -> return t
where
amend t' name rest' sub = do
sub' <- expandPath sub (AnchoredPath rest')
let tree = t' { items = M.insert name (SubTree sub') (items t') }
return tree
checkExpand :: (TreeItem IO -> IO Hash) -> Tree IO
-> IO (Either [(AnchoredPath, Hash, Maybe Hash)] (Tree IO))
checkExpand hashFunc t = go (AnchoredPath []) t
where
go path t_ = do
let
subtree (name, sub) =
do let here = path `appendPath` name
sub' <- (Just <$> unstub sub) `catch` \(_ :: IOException) -> return Nothing
case sub' of
Nothing -> return $ Left [(here, treeHash t_, Nothing)]
Just sub'' -> do
treeOrTrouble <- go (path `appendPath` name) sub''
return $ case treeOrTrouble of
Left problems -> Left problems
Right tree -> Right (name, SubTree tree)
badBlob (_, f@(File (Blob _ h))) =
fmap (/= h) (hashFunc f `catch` (\(_ :: IOException) -> return NoHash))
badBlob _ = return False
render (name, f@(File (Blob _ h))) = do
h' <- (Just <$> hashFunc f) `catch` \(_ :: IOException) -> return Nothing
return (path `appendPath` name, h, h')
render (name, _) = return (path `appendPath` name, NoHash, Nothing)
subs <- mapM subtree [ x | x@(_, item) <- listImmediate t_, isSub item ]
badBlobs <- filterM badBlob (listImmediate t) >>= mapM render
let problems = badBlobs ++ concat (lefts subs)
if null problems
then do
let orig_map = M.filter (not . isSub) (items t)
expanded_map = M.fromList $ rights subs
tree = t_ {items = orig_map `M.union` expanded_map}
h' <- hashFunc (SubTree t_)
if h' `match` treeHash t_
then return $ Right tree
else return $ Left [(path, treeHash t_, Just h')]
else return $ Left problems
class (Monad m) => FilterTree a m where
filter :: (AnchoredPath -> TreeItem m -> Bool) -> a m -> a m
instance (Monad m) => FilterTree Tree m where
filter predicate t_ = filter' t_ (AnchoredPath [])
where filter' t path = t { items = M.mapMaybeWithKey (wibble path) $ items t }
wibble path name item =
let npath = path `appendPath` name in
if predicate npath item
then Just $ filterSub npath item
else Nothing
filterSub npath (SubTree t) = SubTree $ filter' t npath
filterSub npath (Stub stub h) =
Stub (do x <- stub
return $ filter' x npath) h
filterSub _ x = x
restrict :: (FilterTree t m) => Tree n -> t m -> t m
restrict guide tree = filter accept tree
where accept path item =
case (find guide path, item) of
(Just (SubTree _), SubTree _) -> True
(Just (SubTree _), Stub _ _) -> True
(Just (File _), File _) -> True
(Just (Stub _ _), _) ->
bug "*sulk* Go away, you, you precondition violator!"
(_, _) -> False
readBlob :: Blob m -> m BL.ByteString
readBlob (Blob r _) = r
zipCommonFiles :: (AnchoredPath -> Blob m -> Blob m -> a) -> Tree m -> Tree m -> [a]
zipCommonFiles f a b = catMaybes [ flip (f p) x `fmap` findFile a p
| (p, File x) <- list b ]
zipFiles :: (AnchoredPath -> Maybe (Blob m) -> Maybe (Blob m) -> a)
-> Tree m -> Tree m -> [a]
zipFiles f a b = [ f p (findFile a p) (findFile b p)
| p <- paths a `sortedUnion` paths b ]
where paths t = sort [ p | (p, File _) <- list t ]
zipTrees :: (AnchoredPath -> Maybe (TreeItem m) -> Maybe (TreeItem m) -> a)
-> Tree m -> Tree m -> [a]
zipTrees f a b = [ f p (find a p) (find b p)
| p <- reverse (paths a `sortedUnion` paths b) ]
where paths t = sort [ p | (p, _) <- list t ]
sortedUnion :: [AnchoredPath] -> [AnchoredPath] -> [AnchoredPath]
sortedUnion [] ys = ys
sortedUnion xs [] = xs
sortedUnion a@(x:xs) b@(y:ys) = case compare x y of
LT -> x : sortedUnion xs b
EQ -> x : sortedUnion xs ys
GT -> y : sortedUnion a ys
diffTrees :: forall m. (Monad m) => Tree m -> Tree m -> m (Tree m, Tree m)
diffTrees left right =
if treeHash left `match` treeHash right
then return (emptyTree, emptyTree)
else diff left right
where isFile (File _) = True
isFile _ = False
notFile = not . isFile
isEmpty = null . listImmediate
subtree :: TreeItem m -> m (Tree m)
subtree (Stub x _) = x
subtree (SubTree x) = return x
subtree (File _) = bug "diffTrees tried to descend a File as a subtree"
maybeUnfold (Stub x _) = SubTree `fmap` (x >>= expand)
maybeUnfold (SubTree x) = SubTree `fmap` expand x
maybeUnfold i = return i
immediateN t = [ n | (n, _) <- listImmediate t ]
diff left' right' = do
is <- sequence [
case (lookup left' n, lookup right' n) of
(Just l, Nothing) -> do
l' <- maybeUnfold l
return (n, Just l', Nothing)
(Nothing, Just r) -> do
r' <- maybeUnfold r
return (n, Nothing, Just r')
(Just l, Just r)
| itemHash l `match` itemHash r ->
return (n, Nothing, Nothing)
| notFile l && notFile r ->
do x <- subtree l
y <- subtree r
(x', y') <- diffTrees x y
if isEmpty x' && isEmpty y'
then return (n, Nothing, Nothing)
else return (n, Just $ SubTree x', Just $ SubTree y')
| isFile l && isFile r ->
return (n, Just l, Just r)
| otherwise ->
do l' <- maybeUnfold l
r' <- maybeUnfold r
return (n, Just l', Just r')
_ -> bug "n lookups failed"
| n <- immediateN left' `union` immediateN right' ]
let is_l = [ (n, l) | (n, Just l, _) <- is ]
is_r = [ (n, r) | (n, _, Just r) <- is ]
return (makeTree is_l, makeTree is_r)
modifyTree :: (Monad m) => Tree m -> AnchoredPath -> Maybe (TreeItem m) -> Tree m
modifyTree t_ p_ i_ = snd $ go t_ p_ i_
where fix t unmod items' = (unmod, t { items = (countmap items':: Int) `seq` items'
, treeHash = if unmod then treeHash t else NoHash })
go t (AnchoredPath []) (Just (SubTree sub)) = (treeHash t `match` treeHash sub, sub)
go t (AnchoredPath [n]) (Just item) = fix t unmod items'
where !items' = M.insert n item (items t)
!unmod = itemHash item `match` case lookup t n of
Nothing -> NoHash
Just i -> itemHash i
go t (AnchoredPath [n]) Nothing = fix t unmod items'
where !items' = M.delete n (items t)
!unmod = isNothing $ lookup t n
go t path@(AnchoredPath (n:r)) item = fix t unmod items'
where subtree s = go s (AnchoredPath r) item
!items' = M.insert n sub (items t)
!sub = snd sub'
!unmod = fst sub'
!sub' = case lookup t n of
Just (SubTree s) -> let (mod', sub'') = subtree s in (mod', SubTree sub'')
Just (Stub s _) -> (False, Stub (do x <- s
return $! snd $! subtree x) NoHash)
Nothing -> (False, SubTree $! snd $! subtree emptyTree)
_ -> bug $ "Modify tree at " ++ show path
go _ (AnchoredPath []) (Just (Stub _ _)) =
bug $ "descending in modifyTree, case = (Just (Stub _ _)), path = " ++ show p_
go _ (AnchoredPath []) (Just (File _)) =
bug $ "descending in modifyTree, case = (Just (File _)), path = " ++ show p_
go _ (AnchoredPath []) Nothing =
bug $ "descending in modifyTree, case = Nothing, path = " ++ show p_
countmap :: forall a k. M.Map k a -> Int
countmap = M.foldr (\_ i -> i + 1) 0
updateSubtrees :: (Tree m -> Tree m) -> Tree m -> Tree m
updateSubtrees fun t =
fun $ t { items = M.mapWithKey (curry $ snd . update) $ items t
, treeHash = NoHash }
where update (k, SubTree s) = (k, SubTree $ updateSubtrees fun s)
update (k, File f) = (k, File f)
update (_, Stub _ _) = bug "Stubs not supported in updateTreePostorder"
updateTree :: (Monad m) => (TreeItem m -> m (TreeItem m)) -> Tree m -> m (Tree m)
updateTree fun t = partiallyUpdateTree fun (\_ _ -> True) t
partiallyUpdateTree :: (Monad m) => (TreeItem m -> m (TreeItem m))
-> (AnchoredPath -> TreeItem m -> Bool) -> Tree m -> m (Tree m)
partiallyUpdateTree fun predi t' = go (AnchoredPath []) t'
where go path t = do
items' <- M.fromList <$> mapM (maybeupdate path) (listImmediate t)
SubTree t'' <- fun . SubTree $ t { items = items'
, treeHash = NoHash }
return t''
maybeupdate path (k, item) = if predi (path `appendPath` k) item
then update (path `appendPath` k) (k, item)
else return (k, item)
update path (k, SubTree tree) = (\new -> (k, SubTree new)) <$> go path tree
update _ (k, item) = (\new -> (k, new)) <$> fun item
overlay :: (Monad m) => Tree m -> Tree m -> Tree m
overlay base over = Tree { items = M.fromList immediate
, treeHash = NoHash }
where immediate = [ (n, get n) | (n, _) <- listImmediate base ]
get n = case (M.lookup n $ items base, M.lookup n $ items over) of
(Just (File _), Just f@(File _)) -> f
(Just (SubTree b), Just (SubTree o)) -> SubTree $ overlay b o
(Just (Stub b _), Just (SubTree o)) -> Stub (flip overlay o `fmap` b) NoHash
(Just (SubTree b), Just (Stub o _)) -> Stub (overlay b `fmap` o) NoHash
(Just (Stub b _), Just (Stub o _)) -> Stub (do o' <- o
b' <- b
return $ overlay b' o') NoHash
(Just x, _) -> x
(_, _) -> bug $ "Unexpected case in overlay at get " ++ show n ++ "."
addMissingHashes :: (Monad m) => (TreeItem m -> m Hash) -> Tree m -> m (Tree m)
addMissingHashes make = updateTree update
where update (SubTree t) = make (SubTree t) >>= \x -> return $ SubTree (t { treeHash = x })
update (File blob@(Blob con NoHash)) =
do hash <- make $ File blob
return $ File (Blob con hash)
update (Stub s NoHash) = update . SubTree =<< s
update x = return x
unstub :: (Monad m) => TreeItem m -> m (Tree m)
unstub (Stub s _) = s
unstub (SubTree s) = return s
unstub _ = return emptyTree
isSub :: TreeItem m -> Bool
isSub (File _) = False
isSub _ = True