The following works, and I think should work in most implementations (I have tried this on LW on MacOS, SBCL on Linux and Clojure on MacOS).
(defun directory-pathname (p)
;; Everything but the file part: this should be called
;; non-file-pathname or something
(make-pathname :name nil :type nil :version nil
:defaults (pathname p)))
;; a completely wildcarded filename with no other components
(make-pathname :name ':wild
(defun wild-directory (d)
;; Take the directory parts of D and return a pathname which matches
;; all files in tat directory.
;; Actually we could just use D for the defaults since it's only
;; used for defaults and that's less consy, but never mind
(merge-pathnames +wild-file+ (directory-pathname d)))
Then, for instance
(directory (wild-directory "/tmp/")) will return everything in the
/tmp/ directory, and
(directory (wild-directory (user-homedir-pathname))) will return everything in your home directory.
However note that (this is clearly very implementation-dependent but it looks like all the implementations I use agree on this and I agree with their interpretation):
(directory (wild-directory "/tmp")) will return everything in
"/tmp" as a pathname means 'the file called
tmp in the directory called
/'. As I said I think this is a reasonable interpretation: pathnames which refer to directories end in
Also note that
+wild-file+ really is wild: it doesn't treat files whose names begin with
. in any special way. I think there is fairly obvious ambiguity about how filenames like
/foo/bar/.x should be parsed, although all three implementations I've tried take what I think is the right interpretation: the name is
".x" and the type is
/foo/bar/.x.y seems to parse with a type of
"y" which I think is also reasonable).
In any case where you need to do any serious pathname manipulation the trick is to define a bunch of wrapper functions and constants which you then use, and behind which you can hide implementation-dependence (in this case the implementation-dependence is how to get all the files in a directory, everything else seems to be common between the implementations).
I suspect such an abstraction layer exists, but I don't know what it is unfortunately.
After writing this I tried CLISP, and it does something interestingly different: it looks like
directory doesn't return subdirectory names, just filenames. That's a perfectly reasonable implementation I think, but it would require some more abstraction.