{- path manipulation - - Copyright 2010-2020 Joey Hess - - License: BSD-2-clause -} {-# LANGUAGE OverloadedStrings #-} {-# LANGUAGE CPP #-} {-# OPTIONS_GHC -fno-warn-tabs #-} module Utility.Path ( simplifyPath, parentDir, upFrom, dirContains, segmentPaths, segmentPaths', runSegmentPaths, runSegmentPaths', dotfile, splitShortExtensions, splitShortExtensions', relPathDirToFileAbs, inSearchPath, searchPath, searchPathContents, ) where import System.FilePath.ByteString import qualified System.FilePath as P import qualified Data.ByteString as B import Data.List import Data.Maybe import Control.Monad import Control.Applicative import Prelude import Utility.Monad import Utility.SystemDirectory import Utility.Exception #ifdef mingw32_HOST_OS import Data.Char import Utility.FileSystemEncoding #endif {- Simplifies a path, removing any "." component, collapsing "dir/..", - and removing the trailing path separator. - - On Windows, preserves whichever style of path separator might be used in - the input RawFilePaths. This is done because some programs in Windows - demand a particular path separator -- and which one actually varies! - - This does not guarantee that two paths that refer to the same location, - and are both relative to the same location (or both absolute) will - yield the same result. Run both through normalise from System.RawFilePath - to ensure that. -} simplifyPath :: RawFilePath -> RawFilePath simplifyPath path = dropTrailingPathSeparator $ joinDrive drive $ joinPath $ norm [] $ splitPath path' where (drive, path') = splitDrive path norm c [] = reverse c norm c (p:ps) | p' == ".." && not (null c) && dropTrailingPathSeparator (c !! 0) /= ".." = norm (drop 1 c) ps | p' == "." = norm c ps | otherwise = norm (p:c) ps where p' = dropTrailingPathSeparator p {- takeDirectory "foo/bar/" is "foo/bar". This instead yields "foo" -} parentDir :: RawFilePath -> RawFilePath parentDir = takeDirectory . dropTrailingPathSeparator {- Just the parent directory of a path, or Nothing if the path has no - parent (ie for "/" or "." or "foo") -} upFrom :: RawFilePath -> Maybe RawFilePath upFrom dir | length dirs < 2 = Nothing | otherwise = Just $ joinDrive drive $ B.intercalate (B.singleton pathSeparator) $ init dirs where -- on Unix, the drive will be "/" when the dir is absolute, -- otherwise "" (drive, path) = splitDrive dir dirs = filter (not . B.null) $ B.splitWith isPathSeparator path {- Checks if the first RawFilePath is, or could be said to contain the second. - For example, "foo/" contains "foo/bar". Also, "foo", "./foo", "foo/" etc - are all equivalent. -} dirContains :: RawFilePath -> RawFilePath -> Bool dirContains a b = a == b || a' == b' || (a'' `B.isPrefixOf` b' && avoiddotdotb) || a' == "." && normalise ("." b') == b' && nodotdot b' || dotdotcontains where a' = norm a a'' = addTrailingPathSeparator a' b' = norm b norm = normalise . simplifyPath {- This handles the case where a is ".." and b is "../..", - which is not inside a. Similarly, "../.." does not contain - "../../../". Due to the use of norm, cases like - "../../foo/../../" get converted to eg "../../.." and - so do not need to be handled specially here. - - When this is called, we already know that - a'' is a prefix of b', so all that needs to be done is drop - that prefix, and check if the next path component is ".." -} avoiddotdotb = nodotdot $ B.drop (B.length a'') b' nodotdot p = all (not . isdotdot) (splitPath p) isdotdot s = dropTrailingPathSeparator s == ".." {- This handles the case where a is ".." or "../.." etc, - and b is "foo" or "../foo" etc. The rule is that when - a is entirely ".." components, b is under it when it starts - with fewer ".." components. - - Due to the use of norm, cases like "../../foo/../../" get - converted to eg "../../../" and so do not need to be handled - specially here. -} dotdotcontains | isAbsolute b' = False | otherwise = let aps = splitPath a' bps = splitPath b' in if all isdotdot aps then length (takeWhile isdotdot bps) < length aps else False {- Given an original list of paths, and an expanded list derived from it, - which may be arbitrarily reordered, generates a list of lists, where - each sublist corresponds to one of the original paths. - - When the original path is a directory, any items in the expanded list - that are contained in that directory will appear in its segment. - - The order of the original list of paths is attempted to be preserved in - the order of the returned segments. However, doing so has a O^NM - growth factor. So, if the original list has more than 100 paths on it, - we stop preserving ordering at that point. Presumably a user passing - that many paths in doesn't care too much about order of the later ones. -} segmentPaths :: (a -> RawFilePath) -> [RawFilePath] -> [a] -> [[a]] segmentPaths = segmentPaths' (\_ r -> r) segmentPaths' :: (Maybe RawFilePath -> a -> r) -> (a -> RawFilePath) -> [RawFilePath] -> [a] -> [[r]] segmentPaths' f _ [] new = [map (f Nothing) new] segmentPaths' f _ [i] new = [map (f (Just i)) new] -- optimisation segmentPaths' f c (i:is) new = map (f (Just i)) found : segmentPaths' f c is rest where (found, rest) = if length is < 100 then partition ini new else break (not . ini) new ini p = i `dirContains` c p {- This assumes that it's cheaper to call segmentPaths on the result, - than it would be to run the action separately with each path. In - the case of git file list commands, that assumption tends to hold. -} runSegmentPaths :: (a -> RawFilePath) -> ([RawFilePath] -> IO [a]) -> [RawFilePath] -> IO [[a]] runSegmentPaths c a paths = segmentPaths c paths <$> a paths runSegmentPaths' :: (Maybe RawFilePath -> a -> r) -> (a -> RawFilePath) -> ([RawFilePath] -> IO [a]) -> [RawFilePath] -> IO [[r]] runSegmentPaths' si c a paths = segmentPaths' si c paths <$> a paths {- Checks if a filename is a unix dotfile. All files inside dotdirs - count as dotfiles. -} dotfile :: RawFilePath -> Bool dotfile file | f == "." = False | f == ".." = False | f == "" = False | otherwise = "." `B.isPrefixOf` f || dotfile (takeDirectory file) where f = takeFileName file {- Similar to splitExtensions, but knows that some things in RawFilePaths - after a dot are too long to be extensions. -} splitShortExtensions :: RawFilePath -> (RawFilePath, [B.ByteString]) splitShortExtensions = splitShortExtensions' 5 -- enough for ".jpeg" splitShortExtensions' :: Int -> RawFilePath -> (RawFilePath, [B.ByteString]) splitShortExtensions' maxextension = go [] where go c f | len > 0 && len <= maxextension && not (B.null base) = go (ext:c) base | otherwise = (f, c) where (base, ext) = splitExtension f len = B.length ext {- This requires both paths to be absolute and normalized. - - On Windows, if the paths are on different drives, - a relative path is not possible and the path is simply - returned as-is. -} relPathDirToFileAbs :: RawFilePath -> RawFilePath -> RawFilePath relPathDirToFileAbs from to #ifdef mingw32_HOST_OS | normdrive from /= normdrive to = to #endif | otherwise = joinPath $ dotdots ++ uncommon where pfrom = sp from pto = sp to sp = map dropTrailingPathSeparator . splitPath . dropDrive common = map fst $ takeWhile same $ zip pfrom pto same (c,d) = c == d uncommon = drop numcommon pto dotdots = replicate (length pfrom - numcommon) ".." numcommon = length common #ifdef mingw32_HOST_OS normdrive = map toLower -- Get just the drive letter, removing any leading -- path separator, which takeDrive leaves on the drive -- letter. . dropWhileEnd (isPathSeparator . fromIntegral . ord) . fromRawFilePath . takeDrive #endif {- Checks if a command is available in PATH. - - The command may be fully-qualified, in which case, this succeeds as - long as it exists. -} inSearchPath :: String -> IO Bool inSearchPath command = isJust <$> searchPath command {- Finds a command in PATH and returns the full path to it. - - The command may be fully qualified already, in which case it will - be returned if it exists. - - Note that this will find commands in PATH that are not executable. -} searchPath :: String -> IO (Maybe FilePath) searchPath command | P.isAbsolute command = check command | otherwise = P.getSearchPath >>= getM indir where indir d = check $ d P. command check f = firstM doesFileExist #ifdef mingw32_HOST_OS [f, f ++ ".exe"] #else [f] #endif {- Finds commands in PATH that match a predicate. Note that the predicate - matches on the basename of the command, but the full path to it is - returned. - - Note that this will find commands in PATH that are not executable. -} searchPathContents :: (FilePath -> Bool) -> IO [FilePath] searchPathContents p = filterM doesFileExist =<< (concat <$> (P.getSearchPath >>= mapM go)) where go d = map (d P.) . filter p <$> catchDefaultIO [] (getDirectoryContents d)