;; Next, split the remainder into slash-separated chunks.
(collect ((pieces))
(loop
- (let ((slash (position-if (lambda (c)
- (or (char= c #\/)
- (char= c #\\)))
- namestr :start start :end end)))
- (pieces (cons start (or slash end)))
- (unless slash
- (return))
- (setf start (1+ slash))))
+ (let ((slash (position-if (lambda (c)
+ (or (char= c #\/)
+ (char= c #\\)))
+ namestr :start start :end end)))
+ (pieces (cons start (or slash end)))
+ (unless slash
+ (return))
+ (setf start (1+ slash))))
(values absolute (pieces)))))
(defun parse-win32-namestring (namestring start end)
type
version)))))
-(defun parse-native-win32-namestring (namestring start end)
+(defun parse-native-win32-namestring (namestring start end as-directory)
(declare (type simple-string namestring)
(type index start end))
(setf namestring (coerce namestring 'simple-string))
collect (if (and (string= piece "..") rest)
:up
piece)))
+ (directory (if (and as-directory
+ (string/= "" (car (last components))))
+ components
+ (butlast components)))
(name-and-type
- (let* ((end (first (last components)))
- (dot (position #\. end :from-end t)))
- ;; FIXME: can we get this dot-interpretation knowledge
- ;; from existing code? EXTRACT-NAME-TYPE-AND-VERSION
- ;; does slightly more work than that.
- (cond
- ((string= end "")
- (list nil nil))
- ((and dot (> dot 0))
- (list (subseq end 0 dot) (subseq end (1+ dot))))
- (t
- (list end nil))))))
+ (unless as-directory
+ (let* ((end (first (last components)))
+ (dot (position #\. end :from-end t)))
+ ;; FIXME: can we get this dot-interpretation knowledge
+ ;; from existing code? EXTRACT-NAME-TYPE-AND-VERSION
+ ;; does slightly more work than that.
+ (cond
+ ((string= end "")
+ (list nil nil))
+ ((and dot (> dot 0))
+ (list (subseq end 0 dot) (subseq end (1+ dot))))
+ (t
+ (list end nil)))))))
(values nil
device
- (cons (if absolute :absolute :relative) (butlast components))
+ (cons (if absolute :absolute :relative) directory)
(first name-and-type)
(second name-and-type)
nil)))))
(unparse-win32-directory pathname)
(unparse-win32-file pathname)))
-(defun unparse-native-win32-namestring (pathname)
- (declare (type pathname pathname))
- (let ((device (pathname-device pathname))
- (directory (pathname-directory pathname))
- (name (pathname-name pathname))
- (type (pathname-type pathname)))
+(defun unparse-native-win32-namestring (pathname as-file)
+ (declare (type pathname pathname)
+ ;; Windows doesn't like directory names with trailing slashes.
+ (ignore as-file))
+ (let* ((device (pathname-device pathname))
+ (directory (pathname-directory pathname))
+ (name (pathname-name pathname))
+ (name-present-p (typep name '(not (member nil :unspecific))))
+ (name-string (if name-present-p name ""))
+ (type (pathname-type pathname))
+ (type-present-p (typep type '(not (member nil :unspecific))))
+ (type-string (if type-present-p type "")))
(coerce
(with-output-to-string (s)
(when device
(typecase piece
((member :up) (write-string ".." s))
(string (write-string piece s))
- (t (error "ungood piece in NATIVE-NAMESTRING: ~S" piece))))
+ (t (error "ungood directory segment in NATIVE-NAMESTRING: ~S"
+ piece)))
+ (when (or directory name)
+ (write-char #\\ s)))
(when directory
- (write-char #\\ s)
(go :subdir))
:done)
- (when name
- (unless (stringp name)
- (error "non-STRING name in NATIVE-NAMESTRING: ~S" name))
- (write-char #\\ s)
- (write-string name s)
- (when type
- (unless (stringp type)
- (error "non-STRING type in NATIVE-NAMESTRING: ~S" name))
- (write-char #\. s)
- (write-string type s))))
+ (if name-present-p
+ (progn
+ (unless (stringp name-string) ;some kind of wild field
+ (error "ungood name component in NATIVE-NAMESTRING: ~S" name))
+ (write-string name-string s)
+ (when type-present-p
+ (unless (stringp type-string) ;some kind of wild field
+ (error "ungood type component in NATIVE-NAMESTRING: ~S" type))
+ (write-char #\. s)
+ (write-string type-string s)))
+ (when type-present-p ;
+ (error
+ "type component without a name component in NATIVE-NAMESTRING: ~S"
+ type))))
'simple-string)))
;;; FIXME.
(cond ((null pathname-directory) '(:relative))
((eq (car pathname-directory) :relative)
pathname-directory)
- ((and (> prefix-len 1)
+ ((and (> prefix-len 0)
(>= (length pathname-directory) prefix-len)
(compare-component (subseq pathname-directory
0 prefix-len)
(when name-needed
(unless pathname-name (lose))
(when (and (null pathname-type)
- (typep pathname-name 'simple-base-string)
+ (typep pathname-name 'simple-string)
(position #\. pathname-name :start 1))
(error "too many dots in the name: ~S" pathname))
(strings (unparse-unix-piece pathname-name)))
(strings ".")
(strings (unparse-unix-piece pathname-type))))
(apply #'concatenate 'simple-string (strings)))))
+
+;; FIXME: This has been converted rather blindly from the Unix
+;; version, with no reference to any Windows docs what so ever.
+(defun simplify-win32-namestring (src)
+ (declare (type simple-string src))
+ (let* ((src-len (length src))
+ (dst (make-string src-len :element-type 'character))
+ (dst-len 0)
+ (dots 0)
+ (last-slash nil))
+ (flet ((deposit (char)
+ (setf (schar dst dst-len) char)
+ (incf dst-len))
+ (slashp (char)
+ (find char "\\/")))
+ (dotimes (src-index src-len)
+ (let ((char (schar src src-index)))
+ (cond ((char= char #\.)
+ (when dots
+ (incf dots))
+ (deposit char))
+ ((slashp char)
+ (case dots
+ (0
+ ;; either ``/...' or ``...//...'
+ (unless last-slash
+ (setf last-slash dst-len)
+ (deposit char)))
+ (1
+ ;; either ``./...'' or ``..././...''
+ (decf dst-len))
+ (2
+ ;; We've found ..
+ (cond
+ ((and last-slash (not (zerop last-slash)))
+ ;; There is something before this ..
+ (let ((prev-prev-slash
+ (position-if #'slashp dst :end last-slash :from-end t)))
+ (cond ((and (= (+ (or prev-prev-slash 0) 2)
+ last-slash)
+ (char= (schar dst (- last-slash 2)) #\.)
+ (char= (schar dst (1- last-slash)) #\.))
+ ;; The something before this .. is another ..
+ (deposit char)
+ (setf last-slash dst-len))
+ (t
+ ;; The something is some directory or other.
+ (setf dst-len
+ (if prev-prev-slash
+ (1+ prev-prev-slash)
+ 0))
+ (setf last-slash prev-prev-slash)))))
+ (t
+ ;; There is nothing before this .., so we need to keep it
+ (setf last-slash dst-len)
+ (deposit char))))
+ (t
+ ;; something other than a dot between slashes
+ (setf last-slash dst-len)
+ (deposit char)))
+ (setf dots 0))
+ (t
+ (setf dots nil)
+ (setf (schar dst dst-len) char)
+ (incf dst-len)))))
+ ;; ...finish off
+ (when (and last-slash (not (zerop last-slash)))
+ (case dots
+ (1
+ ;; We've got ``foobar/.''
+ (decf dst-len))
+ (2
+ ;; We've got ``foobar/..''
+ (unless (and (>= last-slash 2)
+ (char= (schar dst (1- last-slash)) #\.)
+ (char= (schar dst (- last-slash 2)) #\.)
+ (or (= last-slash 2)
+ (slashp (schar dst (- last-slash 3)))))
+ (let ((prev-prev-slash
+ (position-if #'slashp dst :end last-slash :from-end t)))
+ (if prev-prev-slash
+ (setf dst-len (1+ prev-prev-slash))
+ (return-from simplify-win32-namestring
+ (coerce ".\\" 'simple-string)))))))))
+ (cond ((zerop dst-len)
+ ".\\")
+ ((= dst-len src-len)
+ dst)
+ (t
+ (subseq dst 0 dst-len)))))