Mercurial > hg > xemacs-beta
view lisp/mel/mel-b.el @ 155:43dd3413c7c7 r20-3b4
Import from CVS: tag r20-3b4
| author | cvs |
|---|---|
| date | Mon, 13 Aug 2007 09:39:39 +0200 |
| parents | c0c698873ce1 |
| children |
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;;; mel-b.el: Base64 encoder/decoder for GNU Emacs ;; Copyright (C) 1992,1995,1996,1997 Free Software Foundation, Inc. ;; Author: ENAMI Tsugutomo <enami@sys.ptg.sony.co.jp> ;; MORIOKA Tomohiko <morioka@jaist.ac.jp> ;; Maintainer: MORIOKA Tomohiko <morioka@jaist.ac.jp> ;; Created: 1995/6/24 ;; Version: $Id: mel-b.el,v 1.3 1997/06/06 00:57:14 steve Exp $ ;; Keywords: MIME, Base64 ;; This file is part of MEL (MIME Encoding Library). ;; This program is free software; you can redistribute it and/or ;; modify it under the terms of the GNU General Public License as ;; published by the Free Software Foundation; either version 2, or (at ;; your option) any later version. ;; This program is distributed in the hope that it will be useful, but ;; WITHOUT ANY WARRANTY; without even the implied warranty of ;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU ;; General Public License for more details. ;; You should have received a copy of the GNU General Public License ;; along with GNU Emacs; see the file COPYING. If not, write to the ;; Free Software Foundation, Inc., 59 Temple Place - Suite 330, ;; Boston, MA 02111-1307, USA. ;;; Code: (require 'emu) ;;; @ variables ;;; (defvar base64-external-encoder '("mmencode") "*list of base64 encoder program name and its arguments.") (defvar base64-external-decoder '("mmencode" "-u") "*list of base64 decoder program name and its arguments.") (defvar base64-internal-encoding-limit 1000 "*limit size to use internal base64 encoder. If size of input to encode is larger than this limit, external encoder is called.") (defvar base64-internal-decoding-limit 1000 "*limit size to use internal base64 decoder. If size of input to decode is larger than this limit, external decoder is called.") ;;; @ internal base64 decoder/encoder ;;; based on base64 decoder by Enami Tsugutomo ;;; @@ convert from/to base64 char ;;; (defun base64-num-to-char (n) (cond ((eq n nil) ?=) ((< n 26) (+ ?A n)) ((< n 52) (+ ?a (- n 26))) ((< n 62) (+ ?0 (- n 52))) ((= n 62) ?+) ((= n 63) ?/) (t (error "not a base64 integer %d" n)))) (defun base64-char-to-num (c) (cond ((and (<= ?A c) (<= c ?Z)) (- c ?A)) ((and (<= ?a c) (<= c ?z)) (+ (- c ?a) 26)) ((and (<= ?0 c) (<= c ?9)) (+ (- c ?0) 52)) ((= c ?+) 62) ((= c ?/) 63) ((= c ?=) nil) (t (error "not a base64 character %c" c)))) ;;; @@ encode/decode one base64 unit ;;; (defun base64-encode-1 (pack) (let ((a (car pack)) (b (nth 1 pack)) (c (nth 2 pack))) (concat (char-to-string (base64-num-to-char (ash a -2))) (if b (concat (char-to-string (base64-num-to-char (logior (ash (logand a 3) 4) (ash b -4)))) (if c (concat (char-to-string (base64-num-to-char (logior (ash (logand b 15) 2) (ash c -6)))) (char-to-string (base64-num-to-char (logand c 63))) ) (concat (char-to-string (base64-num-to-char (ash (logand b 15) 2))) "=") )) (concat (char-to-string (base64-num-to-char (ash (logand a 3) 4))) "==") )))) (defun base64-decode-1 (pack) (let ((a (base64-char-to-num (car pack))) (b (base64-char-to-num (nth 1 pack))) (c (nth 2 pack)) (d (nth 3 pack))) (concat (char-to-string (logior (ash a 2) (ash b -4))) (if (and c (setq c (base64-char-to-num c))) (concat (char-to-string (logior (ash (logand b 15) 4) (ash c -2))) (if (and d (setq d (base64-char-to-num d))) (char-to-string (logior (ash (logand c 3) 6) d)) )))))) ;;; @@ base64 encoder/decoder for string ;;; (defun base64-encode-string (string) "Encode STRING to base64, and return the result." (let ((len (length string)) (b 0)(e 57) dest) (while (< e len) (setq dest (concat dest (mapconcat (function base64-encode-1) (pack-sequence (substring string b e) 3) "") "\n")) (setq b e e (+ e 57) ) ) (let* ((es (mapconcat (function base64-encode-1) (pack-sequence (substring string b) 3) "")) (m (mod (length es) 4)) ) (concat dest es (cond ((= m 3) "=") ((= m 2) "==") )) ))) (defun base64-decode-string (string) "Decode STRING which is encoded in base64, and return the result." (mapconcat (function base64-decode-1) (pack-sequence string 4) "")) ;;; @ base64 encoder/decoder for region ;;; (defun base64-internal-encode-region (beg end) (save-excursion (save-restriction (narrow-to-region beg end) (let ((str (buffer-substring beg end))) (delete-region beg end) (insert (base64-encode-string str)) ) (or (bolp) (insert "\n") ) ))) (defun base64-internal-decode-region (beg end) (save-excursion (save-restriction (narrow-to-region beg end) (goto-char (point-min)) (while (looking-at ".*\n") (condition-case err (replace-match (base64-decode-string (buffer-substring (match-beginning 0) (1- (match-end 0)))) t t) (error (prog1 (message (nth 1 err)) (replace-match ""))))) (if (looking-at ".*$") (condition-case err (replace-match (base64-decode-string (buffer-substring (match-beginning 0) (match-end 0))) t t) (error (prog1 (message (nth 1 err)) (replace-match ""))) )) ))) (defun base64-external-encode-region (beg end) (save-excursion (save-restriction (narrow-to-region beg end) (as-binary-process (apply (function call-process-region) beg end (car base64-external-encoder) t t nil (cdr base64-external-encoder)) ) ;; for OS/2 ;; regularize line break code (goto-char (point-min)) (while (re-search-forward "\r$" nil t) (replace-match "") ) ))) (defun base64-external-decode-region (beg end) (save-excursion (as-binary-process (apply (function call-process-region) beg end (car base64-external-decoder) t t nil (cdr base64-external-decoder)) ))) (defun base64-encode-region (start end) "Encode current region by base64. START and END are buffer positions. This function calls internal base64 encoder if size of region is smaller than `base64-internal-encoding-limit', otherwise it calls external base64 encoder specified by `base64-external-encoder'. In this case, you must install the program (maybe mmencode included in metamail or XEmacs package)." (interactive "r") (if (and base64-internal-encoding-limit (> (- end start) base64-internal-encoding-limit)) (base64-external-encode-region start end) (base64-internal-encode-region start end) )) (defun base64-decode-region (start end) "Decode current region by base64. START and END are buffer positions. This function calls internal base64 decoder if size of region is smaller than `base64-internal-decoding-limit', otherwise it calls external base64 decoder specified by `base64-external-decoder'. In this case, you must install the program (maybe mmencode included in metamail or XEmacs package)." (interactive "r") (if (and base64-internal-decoding-limit (> (- end start) base64-internal-decoding-limit)) (base64-external-decode-region start end) (base64-internal-decode-region start end) )) ;;; @ base64 encoder/decoder for file ;;; (defun base64-insert-encoded-file (filename) "Encode contents of file FILENAME to base64, and insert the result. It calls external base64 encoder specified by `base64-external-encoder'. So you must install the program (maybe mmencode included in metamail or XEmacs package)." (interactive (list (read-file-name "Insert encoded file: "))) (apply (function call-process) (car base64-external-encoder) filename t nil (cdr base64-external-encoder)) ) ;;; @ etc ;;; (defun base64-encoded-length (string) (let ((len (length string))) (* (+ (/ len 3) (if (= (mod len 3) 0) 0 1) ) 4) )) (defun pack-sequence (seq size) "Split sequence SEQ into SIZE elements packs, and return list of packs. [mel-b; tl-seq function]" (let ((len (length seq)) (p 0) obj unit (i 0) dest) (while (< p len) (setq obj (elt seq p)) (setq unit (cons obj unit)) (setq i (1+ i)) (if (= i size) (progn (setq dest (cons (reverse unit) dest)) (setq unit nil) (setq i 0) )) (setq p (1+ p)) ) (if unit (setq dest (cons (reverse unit) dest)) ) (reverse dest) )) ;;; @ end ;;; (provide 'mel-b) ;;; mel-b.el ends here.