/** Functions for querying information about the filesystem without copying any files to the Nix store. */ { lib }: # Tested in lib/tests/filesystem.sh let inherit (builtins) readDir pathExists toString ; inherit (lib.attrsets) mapAttrs' filterAttrs ; inherit (lib.filesystem) pathType ; inherit (lib.strings) hasSuffix removeSuffix ; in { /** The type of a path. The path needs to exist and be accessible. The result is either "directory" for a directory, "regular" for a regular file, "symlink" for a symlink, or "unknown" for anything else. # Inputs path : The path to query # Type ``` pathType :: Path -> String ``` # Examples :::{.example} ## `lib.filesystem.pathType` usage example ```nix pathType /. => "directory" pathType /some/file.nix => "regular" ``` ::: */ pathType = builtins.readFileType or # Nix <2.14 compatibility shim (path: if ! pathExists path # Fail irrecoverably to mimic the historic behavior of this function and # the new builtins.readFileType then abort "lib.filesystem.pathType: Path ${toString path} does not exist." # The filesystem root is the only path where `dirOf / == /` and # `baseNameOf /` is not valid. We can detect this and directly return # "directory", since we know the filesystem root can't be anything else. else if dirOf path == path then "directory" else (readDir (dirOf path)).${baseNameOf path} ); /** Whether a path exists and is a directory. # Inputs `path` : 1\. Function argument # Type ``` pathIsDirectory :: Path -> Bool ``` # Examples :::{.example} ## `lib.filesystem.pathIsDirectory` usage example ```nix pathIsDirectory /. => true pathIsDirectory /this/does/not/exist => false pathIsDirectory /some/file.nix => false ``` ::: */ pathIsDirectory = path: pathExists path && pathType path == "directory"; /** Whether a path exists and is a regular file, meaning not a symlink or any other special file type. # Inputs `path` : 1\. Function argument # Type ``` pathIsRegularFile :: Path -> Bool ``` # Examples :::{.example} ## `lib.filesystem.pathIsRegularFile` usage example ```nix pathIsRegularFile /. => false pathIsRegularFile /this/does/not/exist => false pathIsRegularFile /some/file.nix => true ``` ::: */ pathIsRegularFile = path: pathExists path && pathType path == "regular"; /** A map of all haskell packages defined in the given path, identified by having a cabal file with the same name as the directory itself. # Inputs `root` : The directory within to search # Type ``` Path -> Map String Path ``` */ haskellPathsInDir = root: let # Files in the root root-files = builtins.attrNames (builtins.readDir root); # Files with their full paths root-files-with-paths = map (file: { name = file; value = root + "/${file}"; } ) root-files; # Subdirectories of the root with a cabal file. cabal-subdirs = builtins.filter ({ name, value }: builtins.pathExists (value + "/${name}.cabal") ) root-files-with-paths; in builtins.listToAttrs cabal-subdirs; /** Find the first directory containing a file matching 'pattern' upward from a given 'file'. Returns 'null' if no directories contain a file matching 'pattern'. # Inputs `pattern` : The pattern to search for `file` : The file to start searching upward from # Type ``` RegExp -> Path -> Nullable { path : Path; matches : [ MatchResults ]; } ``` */ locateDominatingFile = pattern: file: let go = path: let files = builtins.attrNames (builtins.readDir path); matches = builtins.filter (match: match != null) (map (builtins.match pattern) files); in if builtins.length matches != 0 then { inherit path matches; } else if path == /. then null else go (dirOf path); parent = dirOf file; isDir = let base = baseNameOf file; type = (builtins.readDir parent).${base} or null; in file == /. || type == "directory"; in go (if isDir then file else parent); /** Given a directory, return a flattened list of all files within it recursively. # Inputs `dir` : The path to recursively list # Type ``` Path -> [ Path ] ``` */ listFilesRecursive = dir: lib.flatten (lib.mapAttrsToList (name: type: if type == "directory" then lib.filesystem.listFilesRecursive (dir + "/${name}") else dir + "/${name}" ) (builtins.readDir dir)); /** Transform a directory tree containing package files suitable for `callPackage` into a matching nested attribute set of derivations. For a directory tree like this: ``` my-packages ├── a.nix ├── b.nix ├── c │ ├── my-extra-feature.patch │ ├── package.nix │ └── support-definitions.nix └── my-namespace ├── d.nix ├── e.nix └── f └── package.nix ``` `packagesFromDirectoryRecursive` will produce an attribute set like this: ```nix # packagesFromDirectoryRecursive { # callPackage = pkgs.callPackage; # directory = ./my-packages; # } { a = pkgs.callPackage ./my-packages/a.nix { }; b = pkgs.callPackage ./my-packages/b.nix { }; c = pkgs.callPackage ./my-packages/c/package.nix { }; my-namespace = { d = pkgs.callPackage ./my-packages/my-namespace/d.nix { }; e = pkgs.callPackage ./my-packages/my-namespace/e.nix { }; f = pkgs.callPackage ./my-packages/my-namespace/f/package.nix { }; }; } ``` In particular: - If the input directory contains a `package.nix` file, then `callPackage /package.nix { }` is returned. - Otherwise, the input directory's contents are listed and transformed into an attribute set. - If a file name has the `.nix` extension, it is turned into attribute where: - The attribute name is the file name without the `.nix` extension - The attribute value is `callPackage { }` - Other files are ignored. - Directories are turned into an attribute where: - The attribute name is the name of the directory - The attribute value is the result of calling `packagesFromDirectoryRecursive { ... }` on the directory. As a result, directories with no `.nix` files (including empty directories) will be transformed into empty attribute sets. # Inputs Structured function argument : Attribute set containing the following attributes. Additional attributes are ignored. `callPackage` : `pkgs.callPackage` Type: `Path -> AttrSet -> a` `directory` : The directory to read package files from Type: `Path` # Type ``` packagesFromDirectoryRecursive :: AttrSet -> AttrSet ``` # Examples :::{.example} ## `lib.filesystem.packagesFromDirectoryRecursive` usage example ```nix packagesFromDirectoryRecursive { inherit (pkgs) callPackage; directory = ./my-packages; } => { ... } lib.makeScope pkgs.newScope ( self: packagesFromDirectoryRecursive { callPackage = self.callPackage; directory = ./my-packages; } ) => { ... } ``` ::: */ packagesFromDirectoryRecursive = { callPackage, directory, ... }: let # Determine if a directory entry from `readDir` indicates a package or # directory of packages. directoryEntryIsPackage = basename: type: type == "directory" || hasSuffix ".nix" basename; # List directory entries that indicate packages in the given `path`. packageDirectoryEntries = path: filterAttrs directoryEntryIsPackage (readDir path); # Transform a directory entry (a `basename` and `type` pair) into a # package. directoryEntryToAttrPair = subdirectory: basename: type: let path = subdirectory + "/${basename}"; in if type == "regular" then { name = removeSuffix ".nix" basename; value = callPackage path { }; } else if type == "directory" then { name = basename; value = packagesFromDirectory path; } else throw '' lib.filesystem.packagesFromDirectoryRecursive: Unsupported file type ${type} at path ${toString subdirectory} ''; # Transform a directory into a package (if there's a `package.nix`) or # set of packages (otherwise). packagesFromDirectory = path: let defaultPackagePath = path + "/package.nix"; in if pathExists defaultPackagePath then callPackage defaultPackagePath { } else mapAttrs' (directoryEntryToAttrPair path) (packageDirectoryEntries path); in packagesFromDirectory directory; }