{- directory traversal and manipulation - - Copyright 2011-2025 Joey Hess - - License: BSD-2-clause -} {-# LANGUAGE CPP #-} {-# LANGUAGE LambdaCase #-} {-# LANGUAGE OverloadedStrings #-} {-# OPTIONS_GHC -fno-warn-tabs #-} module Utility.Directory where #ifdef WITH_OSPATH import System.Directory.OsPath #else import Utility.SystemDirectory #endif import Control.Monad import System.PosixCompat.Files (isDirectory, isSymbolicLink) import Control.Applicative import System.IO.Unsafe (unsafeInterleaveIO) import Data.Maybe import Prelude import Utility.OsPath import Utility.Exception import Utility.Monad import qualified Utility.RawFilePath as R dirCruft :: [OsPath] dirCruft = [literalOsPath ".", literalOsPath ".."] {- Lists the contents of a directory. - Unlike getDirectoryContents, paths are not relative to the directory. -} dirContents :: OsPath -> IO [OsPath] dirContents d = map (d ) . filter (`notElem` dirCruft) <$> getDirectoryContents d {- Gets files in a directory, and then its subdirectories, recursively, - and lazily. - - Does not follow symlinks to other subdirectories. - - Throws exception if the directory does not exist or otherwise cannot be - accessed. However, does not throw exceptions when subdirectories cannot - be accessed (the use of unsafeInterleaveIO would make it difficult to - trap such exceptions). -} dirContentsRecursive :: OsPath -> IO [OsPath] dirContentsRecursive = dirContentsRecursiveSkipping (const False) True {- Skips directories whose basenames match the skipdir. -} dirContentsRecursiveSkipping :: (OsPath -> Bool) -> Bool -> OsPath -> IO [OsPath] dirContentsRecursiveSkipping skipdir followsubdirsymlinks topdir | skipdir (takeFileName topdir) = return [] | otherwise = do -- Get the contents of the top directory outside of -- unsafeInterleaveIO, which allows throwing exceptions if -- it cannot be accessed. (files, dirs) <- collect [] [] =<< dirContents topdir files' <- go dirs return (files ++ files') where go [] = return [] go (dir:dirs) | skipdir (takeFileName dir) = go dirs | otherwise = unsafeInterleaveIO $ do (files, dirs') <- collect [] [] =<< catchDefaultIO [] (dirContents dir) files' <- go (dirs' ++ dirs) return (files ++ files') collect :: [OsPath] -> [OsPath] -> [OsPath] -> IO ([OsPath], [OsPath]) collect files dirs' [] = return (reverse files, reverse dirs') collect files dirs' (entry:entries) | entry `elem` dirCruft = collect files dirs' entries | otherwise = do let skip = collect (entry:files) dirs' entries let recurse = collect files (entry:dirs') entries ms <- catchMaybeIO $ R.getSymbolicLinkStatus (fromOsPath entry) case ms of (Just s) | isDirectory s -> recurse | isSymbolicLink s && followsubdirsymlinks -> ifM (doesDirectoryExist entry) ( recurse , skip ) _ -> skip {- Gets the directory tree from a point, recursively and lazily, - with leaf directories **first**, skipping any whose basenames - match the skipdir. Does not follow symlinks. - - Throws exception if the directory does not exist or otherwise cannot be - accessed. However, does not throw exceptions when subdirectories cannot - be accessed (the use of unsafeInterleaveIO would make it difficult to - trap such exceptions). -} dirTreeRecursiveSkipping :: (OsPath -> Bool) -> OsPath -> IO [OsPath] dirTreeRecursiveSkipping skipdir topdir | skipdir (takeFileName topdir) = return [] | otherwise = do subdirs <- filterM isdir =<< dirContents topdir go [] subdirs where go c [] = return c go c (dir:dirs) | skipdir (takeFileName dir) = go c dirs | otherwise = unsafeInterleaveIO $ do subdirs <- go [] =<< filterM isdir =<< catchDefaultIO [] (dirContents dir) go (subdirs++dir:c) dirs isdir p = isDirectory <$> R.getSymbolicLinkStatus (fromOsPath p) {- When the action fails due to the directory not existing, returns []. -} emptyWhenDoesNotExist :: IO [a] -> IO [a] emptyWhenDoesNotExist a = tryWhenExists a >>= return . \case Just v -> v Nothing -> [] {- Use with an action that removes something, which may or may not exist. - - If an exception is thrown due to it not existing, it is ignored. -} removeWhenExistsWith :: (a -> IO ()) -> a -> IO () removeWhenExistsWith f a = void $ tryWhenExists $ f a