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2218 lines
85 KiB
EmacsLisp
2218 lines
85 KiB
EmacsLisp
;;; mule.el --- basic commands for mulitilingual environment
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;; Copyright (C) 1997, 1998, 1999, 2000, 2001, 2002, 2003, 2004, 2005
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;; Free Software Foundation, Inc.
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;; Copyright (C) 1995, 1997, 1998, 1999, 2000, 2001, 2002, 2003, 2004, 2005
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;; National Institute of Advanced Industrial Science and Technology (AIST)
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;; Registration Number H14PRO021
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;; Keywords: mule, multilingual, character set, coding system
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;; This file is part of GNU Emacs.
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;; GNU Emacs is free software; you can redistribute it and/or modify
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;; it under the terms of the GNU General Public License as published by
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;; the Free Software Foundation; either version 2, or (at your option)
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;; any later version.
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;; GNU Emacs is distributed in the hope that it will be useful,
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;; but WITHOUT ANY WARRANTY; without even the implied warranty of
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;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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;; GNU General Public License for more details.
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;; You should have received a copy of the GNU General Public License
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;; along with GNU Emacs; see the file COPYING. If not, write to the
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;; Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
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;; Boston, MA 02110-1301, USA.
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;;; Commentary:
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;;; Code:
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(defconst mule-version "5.0 (SAKAKI)" "\
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Version number and name of this version of MULE (multilingual environment).")
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(defconst mule-version-date "1999.12.7" "\
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Distribution date of this version of MULE (multilingual environment).")
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(defun load-with-code-conversion (fullname file &optional noerror nomessage)
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"Execute a file of Lisp code named FILE whose absolute name is FULLNAME.
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The file contents are decoded before evaluation if necessary.
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If optional second arg NOERROR is non-nil,
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report no error if FILE doesn't exist.
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Print messages at start and end of loading unless
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optional third arg NOMESSAGE is non-nil.
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Return t if file exists."
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(if (null (file-readable-p fullname))
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(and (null noerror)
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(signal 'file-error (list "Cannot open load file" file)))
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;; Read file with code conversion, and then eval.
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(let* ((buffer
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;; To avoid any autoloading, set default-major-mode to
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;; fundamental-mode.
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;; So that we don't get completely screwed if the
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;; file is encoded in some complicated character set,
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;; read it with real decoding, as a multibyte buffer,
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;; even if this is a --unibyte Emacs session.
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(let ((default-major-mode 'fundamental-mode)
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(default-enable-multibyte-characters t))
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;; We can't use `generate-new-buffer' because files.el
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;; is not yet loaded.
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(get-buffer-create (generate-new-buffer-name " *load*"))))
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(load-in-progress t)
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(source (save-match-data (string-match "\\.el\\'" fullname))))
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(unless nomessage
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(if source
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(message "Loading %s (source)..." file)
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(message "Loading %s..." file)))
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(when purify-flag
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(push file preloaded-file-list))
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(unwind-protect
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(let ((load-file-name fullname)
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(set-auto-coding-for-load t)
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(inhibit-file-name-operation nil))
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(save-excursion
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(set-buffer buffer)
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(insert-file-contents fullname)
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;; If the loaded file was inserted with no-conversion or
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;; raw-text coding system, make the buffer unibyte.
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;; Otherwise, eval-buffer might try to interpret random
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;; binary junk as multibyte characters.
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(if (and enable-multibyte-characters
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(or (eq (coding-system-type last-coding-system-used) 5)
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(eq last-coding-system-used 'no-conversion)))
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(set-buffer-multibyte nil))
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;; Make `kill-buffer' quiet.
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(set-buffer-modified-p nil))
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;; Have the original buffer current while we eval.
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(eval-buffer buffer nil file
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;; If this Emacs is running with --unibyte,
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;; convert multibyte strings to unibyte
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;; after reading them.
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;; (not default-enable-multibyte-characters)
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nil t
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))
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(let (kill-buffer-hook kill-buffer-query-functions)
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(kill-buffer buffer)))
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(let ((hook (assoc file after-load-alist)))
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(when hook
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(mapcar (function eval) (cdr hook))))
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(unless (or nomessage noninteractive)
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(if source
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(message "Loading %s (source)...done" file)
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(message "Loading %s...done" file)))
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t)))
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;; API (Application Program Interface) for charsets.
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(defsubst charset-quoted-standard-p (obj)
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"Return t if OBJ is a quoted symbol, and is the name of a standard charset."
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(and (listp obj) (eq (car obj) 'quote)
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(symbolp (car-safe (cdr obj)))
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(let ((vector (get (car-safe (cdr obj)) 'charset)))
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(and (vectorp vector)
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(< (aref vector 0) 160)))))
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(defsubst charsetp (object)
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"T if OBJECT is a charset."
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(and (symbolp object) (vectorp (get object 'charset))))
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(defsubst charset-info (charset)
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"Return a vector of information of CHARSET.
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The elements of the vector are:
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CHARSET-ID, BYTES, DIMENSION, CHARS, WIDTH, DIRECTION,
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LEADING-CODE-BASE, LEADING-CODE-EXT,
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ISO-FINAL-CHAR, ISO-GRAPHIC-PLANE,
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REVERSE-CHARSET, SHORT-NAME, LONG-NAME, DESCRIPTION,
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PLIST,
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where
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CHARSET-ID (integer) is the identification number of the charset.
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BYTES (integer) is the length of multi-byte form of a character in
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the charset: one of 1, 2, 3, and 4.
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DIMENSION (integer) is the number of bytes to represent a character of
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the charset: 1 or 2.
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CHARS (integer) is the number of characters in a dimension: 94 or 96.
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WIDTH (integer) is the number of columns a character in the charset
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occupies on the screen: one of 0, 1, and 2.
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DIRECTION (integer) is the rendering direction of characters in the
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charset when rendering. If 0, render from left to right, else
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render from right to left.
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LEADING-CODE-BASE (integer) is the base leading-code for the
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charset.
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LEADING-CODE-EXT (integer) is the extended leading-code for the
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charset. All charsets of less than 0xA0 has the value 0.
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ISO-FINAL-CHAR (character) is the final character of the
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corresponding ISO 2022 charset. If the charset is not assigned
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any final character, the value is -1.
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ISO-GRAPHIC-PLANE (integer) is the graphic plane to be invoked
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while encoding to variants of ISO 2022 coding system, one of the
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following: 0/graphic-plane-left(GL), 1/graphic-plane-right(GR).
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If the charset is not assigned any final character, the value is -1.
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REVERSE-CHARSET (integer) is the charset which differs only in
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LEFT-TO-RIGHT value from the charset. If there's no such a
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charset, the value is -1.
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SHORT-NAME (string) is the short name to refer to the charset.
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LONG-NAME (string) is the long name to refer to the charset
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DESCRIPTION (string) is the description string of the charset.
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PLIST (property list) may contain any type of information a user
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want to put and get by functions `put-charset-property' and
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`get-charset-property' respectively."
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(get charset 'charset))
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;; It is better not to use backquote in this file,
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;; because that makes a bootstrapping problem
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;; if you need to recompile all the Lisp files using interpreted code.
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(defmacro charset-id (charset)
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"Return charset identification number of CHARSET."
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(if (charset-quoted-standard-p charset)
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(aref (charset-info (nth 1 charset)) 0)
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(list 'aref (list 'charset-info charset) 0)))
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(defmacro charset-bytes (charset)
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"Return bytes of CHARSET.
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See the function `charset-info' for more detail."
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(if (charset-quoted-standard-p charset)
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(aref (charset-info (nth 1 charset)) 1)
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(list 'aref (list 'charset-info charset) 1)))
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(defmacro charset-dimension (charset)
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"Return dimension of CHARSET.
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See the function `charset-info' for more detail."
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(if (charset-quoted-standard-p charset)
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(aref (charset-info (nth 1 charset)) 2)
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(list 'aref (list 'charset-info charset) 2)))
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(defmacro charset-chars (charset)
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"Return character numbers contained in a dimension of CHARSET.
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See the function `charset-info' for more detail."
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(if (charset-quoted-standard-p charset)
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(aref (charset-info (nth 1 charset)) 3)
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(list 'aref (list 'charset-info charset) 3)))
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(defmacro charset-width (charset)
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"Return width (how many column occupied on a screen) of CHARSET.
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See the function `charset-info' for more detail."
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(if (charset-quoted-standard-p charset)
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(aref (charset-info (nth 1 charset)) 4)
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(list 'aref (list 'charset-info charset) 4)))
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(defmacro charset-direction (charset)
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"Return direction of CHARSET.
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See the function `charset-info' for more detail."
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(if (charset-quoted-standard-p charset)
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(aref (charset-info (nth 1 charset)) 5)
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(list 'aref (list 'charset-info charset) 5)))
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(defmacro charset-iso-final-char (charset)
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"Return final char of CHARSET.
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See the function `charset-info' for more detail."
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(if (charset-quoted-standard-p charset)
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(aref (charset-info (nth 1 charset)) 8)
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(list 'aref (list 'charset-info charset) 8)))
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(defmacro charset-iso-graphic-plane (charset)
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"Return graphic plane of CHARSET.
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See the function `charset-info' for more detail."
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(if (charset-quoted-standard-p charset)
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(aref (charset-info (nth 1 charset)) 9)
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(list 'aref (list 'charset-info charset) 9)))
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(defmacro charset-reverse-charset (charset)
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"Return reverse charset of CHARSET.
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See the function `charset-info' for more detail."
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(if (charset-quoted-standard-p charset)
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(aref (charset-info (nth 1 charset)) 10)
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(list 'aref (list 'charset-info charset) 10)))
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(defmacro charset-short-name (charset)
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"Return short name of CHARSET.
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See the function `charset-info' for more detail."
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(if (charset-quoted-standard-p charset)
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(aref (charset-info (nth 1 charset)) 11)
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(list 'aref (list 'charset-info charset) 11)))
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(defmacro charset-long-name (charset)
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"Return long name of CHARSET.
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See the function `charset-info' for more detail."
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(if (charset-quoted-standard-p charset)
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(aref (charset-info (nth 1 charset)) 12)
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(list 'aref (list 'charset-info charset) 12)))
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(defmacro charset-description (charset)
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"Return description of CHARSET.
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See the function `charset-info' for more detail."
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(if (charset-quoted-standard-p charset)
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(aref (charset-info (nth 1 charset)) 13)
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(list 'aref (list 'charset-info charset) 13)))
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(defmacro charset-plist (charset)
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"Return list charset property of CHARSET.
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See the function `charset-info' for more detail."
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(list 'aref
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(if (charset-quoted-standard-p charset)
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(charset-info (nth 1 charset))
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(list 'charset-info charset))
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14))
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(defun set-charset-plist (charset plist)
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"Set CHARSET's property list to PLIST, and return PLIST."
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(aset (charset-info charset) 14 plist))
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(defun make-char (charset &optional code1 code2)
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"Return a character of CHARSET whose position codes are CODE1 and CODE2.
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CODE1 and CODE2 are optional, but if you don't supply
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sufficient position codes, return a generic character which stands for
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all characters or group of characters in the character set.
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A generic character can be used to index a char table (e.g. syntax-table).
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Such character sets as ascii, eight-bit-control, and eight-bit-graphic
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don't have corresponding generic characters. If CHARSET is one of
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them and you don't supply CODE1, return the character of the smallest
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code in CHARSET.
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If CODE1 or CODE2 are invalid (out of range), this function signals an
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error. However, the eighth bit of both CODE1 and CODE2 is zeroed
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before they are used to index CHARSET. Thus you may use, say, the
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actual ISO 8859 character code rather than subtracting 128, as you
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would need to index the corresponding Emacs charset."
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(make-char-internal (charset-id charset) code1 code2))
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(put 'make-char 'byte-compile
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(function
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(lambda (form)
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(let ((charset (nth 1 form)))
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(if (charset-quoted-standard-p charset)
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(byte-compile-normal-call
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(cons 'make-char-internal
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(cons (charset-id (nth 1 charset)) (nthcdr 2 form))))
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(byte-compile-normal-call
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(cons 'make-char-internal
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(cons (list 'charset-id charset) (nthcdr 2 form)))))))))
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(defun charset-list ()
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"Return list of charsets ever defined.
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This function is provided for backward compatibility.
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Now we have the variable `charset-list'."
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charset-list)
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(defsubst generic-char-p (char)
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"Return t if and only if CHAR is a generic character.
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See also the documentation of `make-char'."
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(and (>= char 0400)
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(let ((l (split-char char)))
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(and (or (= (nth 1 l) 0) (eq (nth 2 l) 0))
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(not (eq (car l) 'composition))))))
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(defun decode-char (ccs code-point &optional restriction)
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"Return character specified by coded character set CCS and CODE-POINT in it.
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Return nil if such a character is not supported.
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Currently the only supported coded character set is `ucs' (ISO/IEC
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10646: Universal Multi-Octet Coded Character Set), and the result is
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translated through the translation-table named
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`utf-translation-table-for-decode' or the translation-hash-table named
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`utf-subst-table-for-decode'.
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Optional argument RESTRICTION specifies a way to map the pair of CCS
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and CODE-POINT to a character. Currently not supported and just ignored."
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(cond
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((eq ccs 'ucs)
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(or (utf-lookup-subst-table-for-decode code-point)
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(let ((c (cond
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((< code-point 160)
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code-point)
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((< code-point 256)
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(make-char 'latin-iso8859-1 code-point))
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((< code-point #x2500)
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(setq code-point (- code-point #x0100))
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(make-char 'mule-unicode-0100-24ff
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(+ (/ code-point 96) 32) (+ (% code-point 96) 32)))
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((< code-point #x3400)
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(setq code-point (- code-point #x2500))
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(make-char 'mule-unicode-2500-33ff
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(+ (/ code-point 96) 32) (+ (% code-point 96) 32)))
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((and (>= code-point #xe000) (< code-point #x10000))
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(setq code-point (- code-point #xe000))
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(make-char 'mule-unicode-e000-ffff
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(+ (/ code-point 96) 32)
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(+ (% code-point 96) 32))))))
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(when c
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(or (aref (get 'utf-translation-table-for-decode
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'translation-table) c)
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c)))))))
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(defun encode-char (char ccs &optional restriction)
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"Return code-point in coded character set CCS that corresponds to CHAR.
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Return nil if CHAR is not included in CCS.
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Currently the only supported coded character set is `ucs' (ISO/IEC
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10646: Universal Multi-Octet Coded Character Set), and CHAR is first
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translated through the translation-table named
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`utf-translation-table-for-encode' or the translation-hash-table named
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`utf-subst-table-for-encode'.
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CHAR should be in one of these charsets:
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ascii, latin-iso8859-1, mule-unicode-0100-24ff, mule-unicode-2500-33ff,
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mule-unicode-e000-ffff, eight-bit-control
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Otherwise, return nil.
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Optional argument RESTRICTION specifies a way to map CHAR to a
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code-point in CCS. Currently not supported and just ignored."
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(let* ((split (split-char char))
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(charset (car split))
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trans)
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(cond ((eq ccs 'ucs)
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(or (utf-lookup-subst-table-for-encode char)
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(let ((table (get 'utf-translation-table-for-encode
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'translation-table)))
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(setq trans (aref table char))
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(if trans
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(setq split (split-char trans)
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charset (car split)))
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(cond ((eq charset 'ascii)
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(or trans char))
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((eq charset 'latin-iso8859-1)
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(+ (nth 1 split) 128))
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((eq charset 'mule-unicode-0100-24ff)
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(+ #x0100 (+ (* (- (nth 1 split) 32) 96)
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(- (nth 2 split) 32))))
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((eq charset 'mule-unicode-2500-33ff)
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(+ #x2500 (+ (* (- (nth 1 split) 32) 96)
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(- (nth 2 split) 32))))
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((eq charset 'mule-unicode-e000-ffff)
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(+ #xe000 (+ (* (- (nth 1 split) 32) 96)
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(- (nth 2 split) 32))))
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((eq charset 'eight-bit-control)
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char))))))))
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;; Coding system stuff
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;; Coding system is a symbol that has the property `coding-system'.
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;;
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;; The value of the property `coding-system' is a vector of the
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;; following format:
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;; [TYPE MNEMONIC DOC-STRING PLIST FLAGS]
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;; We call this vector as coding-spec. See comments in src/coding.c
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;; for more detail.
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(defconst coding-spec-type-idx 0)
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(defconst coding-spec-mnemonic-idx 1)
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(defconst coding-spec-doc-string-idx 2)
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(defconst coding-spec-plist-idx 3)
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(defconst coding-spec-flags-idx 4)
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;; PLIST is a property list of a coding system. To share PLIST among
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;; alias coding systems, a coding system has PLIST in coding-spec
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;; instead of having it in normal property list of Lisp symbol.
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;; Here's a list of coding system properties currently being used.
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;;
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;; o coding-category
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;;
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;; The value is a coding category the coding system belongs to. The
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;; function `make-coding-system' sets this value automatically
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||
;; unless its argument PROPERTIES specifies this property.
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||
;;
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||
;; o alias-coding-systems
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||
;;
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||
;; The value is a list of coding systems of the same alias group. The
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;; first element is the coding system made at first, which we call as
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;; `base coding system'. The function `make-coding-system' sets this
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;; value automatically and `define-coding-system-alias' updates it.
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;;
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;; See the documentation of make-coding-system for the meanings of the
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;; following properties.
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;;
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||
;; o post-read-conversion
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||
;; o pre-write-conversion
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||
;; o translation-table-for-decode
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||
;; o translation-table-for-encode
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||
;; o safe-chars
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||
;; o safe-charsets
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||
;; o mime-charset
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||
;; o valid-codes (meaningful only for a coding system based on CCL)
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||
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||
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(defsubst coding-system-spec (coding-system)
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"Return coding-spec of CODING-SYSTEM."
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||
(get (check-coding-system coding-system) 'coding-system))
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(defun coding-system-type (coding-system)
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||
"Return the coding type of CODING-SYSTEM.
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||
A coding type is an integer value indicating the encoding method
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||
of CODING-SYSTEM. See the function `make-coding-system' for more detail."
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||
(aref (coding-system-spec coding-system) coding-spec-type-idx))
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||
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||
(defun coding-system-mnemonic (coding-system)
|
||
"Return the mnemonic character of CODING-SYSTEM.
|
||
The mnemonic character of a coding system is used in mode line
|
||
to indicate the coding system. If the arg is nil, return ?-."
|
||
(let ((spec (coding-system-spec coding-system)))
|
||
(if spec (aref spec coding-spec-mnemonic-idx) ?-)))
|
||
|
||
(defun coding-system-doc-string (coding-system)
|
||
"Return the documentation string for CODING-SYSTEM."
|
||
(aref (coding-system-spec coding-system) coding-spec-doc-string-idx))
|
||
|
||
(defun coding-system-plist (coding-system)
|
||
"Return the property list of CODING-SYSTEM."
|
||
(aref (coding-system-spec coding-system) coding-spec-plist-idx))
|
||
|
||
(defun coding-system-flags (coding-system)
|
||
"Return `flags' of CODING-SYSTEM.
|
||
A `flags' of a coding system is a vector of length 32 indicating detailed
|
||
information of a coding system. See the function `make-coding-system'
|
||
for more detail."
|
||
(aref (coding-system-spec coding-system) coding-spec-flags-idx))
|
||
|
||
(defun coding-system-get (coding-system prop)
|
||
"Extract a value from CODING-SYSTEM's property list for property PROP."
|
||
(plist-get (coding-system-plist coding-system) prop))
|
||
|
||
(defun coding-system-put (coding-system prop val)
|
||
"Change value in CODING-SYSTEM's property list PROP to VAL."
|
||
(let ((plist (coding-system-plist coding-system)))
|
||
(if plist
|
||
(plist-put plist prop val)
|
||
(aset (coding-system-spec coding-system) coding-spec-plist-idx
|
||
(list prop val)))))
|
||
|
||
(defun coding-system-category (coding-system)
|
||
"Return the coding category of CODING-SYSTEM.
|
||
See also `coding-category-list'."
|
||
(coding-system-get coding-system 'coding-category))
|
||
|
||
(defun coding-system-base (coding-system)
|
||
"Return the base coding system of CODING-SYSTEM.
|
||
A base coding system is what made by `make-coding-system'.
|
||
Any alias nor subsidiary coding systems are not base coding system."
|
||
(car (coding-system-get coding-system 'alias-coding-systems)))
|
||
|
||
;; Coding system also has a property `eol-type'.
|
||
;;
|
||
;; This property indicates how the coding system handles end-of-line
|
||
;; format. The value is integer 0, 1, 2, or a vector of three coding
|
||
;; systems. Each integer value 0, 1, and 2 indicates the format of
|
||
;; end-of-line LF, CRLF, and CR respectively. A vector value
|
||
;; indicates that the format of end-of-line should be detected
|
||
;; automatically. Nth element of the vector is the subsidiary coding
|
||
;; system whose `eol-type' property is N.
|
||
|
||
(defun coding-system-eol-type (coding-system)
|
||
"Return eol-type of CODING-SYSTEM.
|
||
An eol-type is integer 0, 1, 2, or a vector of coding systems.
|
||
|
||
Integer values 0, 1, and 2 indicate a format of end-of-line; LF,
|
||
CRLF, and CR respectively.
|
||
|
||
A vector value indicates that a format of end-of-line should be
|
||
detected automatically. Nth element of the vector is the subsidiary
|
||
coding system whose eol-type is N."
|
||
(get coding-system 'eol-type))
|
||
|
||
(defun coding-system-eol-type-mnemonic (coding-system)
|
||
"Return the string indicating end-of-line format of CODING-SYSTEM."
|
||
(let* ((eol-type (coding-system-eol-type coding-system))
|
||
(val (cond ((eq eol-type 0) eol-mnemonic-unix)
|
||
((eq eol-type 1) eol-mnemonic-dos)
|
||
((eq eol-type 2) eol-mnemonic-mac)
|
||
(t eol-mnemonic-undecided))))
|
||
(if (stringp val)
|
||
val
|
||
(char-to-string val))))
|
||
|
||
(defun coding-system-lessp (x y)
|
||
(cond ((eq x 'no-conversion) t)
|
||
((eq y 'no-conversion) nil)
|
||
((eq x 'emacs-mule) t)
|
||
((eq y 'emacs-mule) nil)
|
||
((eq x 'undecided) t)
|
||
((eq y 'undecided) nil)
|
||
(t (let ((c1 (coding-system-mnemonic x))
|
||
(c2 (coding-system-mnemonic y)))
|
||
(or (< (downcase c1) (downcase c2))
|
||
(and (not (> (downcase c1) (downcase c2)))
|
||
(< c1 c2)))))))
|
||
|
||
(defun coding-system-equal (coding-system-1 coding-system-2)
|
||
"Return t if and only if CODING-SYSTEM-1 and CODING-SYSTEM-2 are identical.
|
||
Two coding systems are identical if two symbols are equal
|
||
or one is an alias of the other."
|
||
(or (eq coding-system-1 coding-system-2)
|
||
(and (equal (coding-system-spec coding-system-1)
|
||
(coding-system-spec coding-system-2))
|
||
(let ((eol-type-1 (coding-system-eol-type coding-system-1))
|
||
(eol-type-2 (coding-system-eol-type coding-system-2)))
|
||
(or (eq eol-type-1 eol-type-2)
|
||
(and (vectorp eol-type-1) (vectorp eol-type-2)))))))
|
||
|
||
(defun add-to-coding-system-list (coding-system)
|
||
"Add CODING-SYSTEM to `coding-system-list' while keeping it sorted."
|
||
(if (or (null coding-system-list)
|
||
(coding-system-lessp coding-system (car coding-system-list)))
|
||
(setq coding-system-list (cons coding-system coding-system-list))
|
||
(let ((len (length coding-system-list))
|
||
mid (tem coding-system-list))
|
||
(while (> len 1)
|
||
(setq mid (nthcdr (/ len 2) tem))
|
||
(if (coding-system-lessp (car mid) coding-system)
|
||
(setq tem mid
|
||
len (- len (/ len 2)))
|
||
(setq len (/ len 2))))
|
||
(setcdr tem (cons coding-system (cdr tem))))))
|
||
|
||
(defun coding-system-list (&optional base-only)
|
||
"Return a list of all existing non-subsidiary coding systems.
|
||
If optional arg BASE-ONLY is non-nil, only base coding systems are listed.
|
||
The value doesn't include subsidiary coding systems which are what
|
||
made from bases and aliases automatically for various end-of-line
|
||
formats (e.g. iso-latin-1-unix, koi8-r-dos)."
|
||
(let* ((codings (copy-sequence coding-system-list))
|
||
(tail (cons nil codings)))
|
||
;; Remove subsidiary coding systems (eol variants) and alias
|
||
;; coding systems (if necessary).
|
||
(while (cdr tail)
|
||
(let* ((coding (car (cdr tail)))
|
||
(aliases (coding-system-get coding 'alias-coding-systems)))
|
||
(if (or
|
||
;; CODING is an eol variant if not in ALIASES.
|
||
(not (memq coding aliases))
|
||
;; CODING is an alias if it is not car of ALIASES.
|
||
(and base-only (not (eq coding (car aliases)))))
|
||
(setcdr tail (cdr (cdr tail)))
|
||
(setq tail (cdr tail)))))
|
||
codings))
|
||
|
||
(defun map-charset-chars (func charset)
|
||
"Use FUNC to map over all characters in CHARSET for side effects.
|
||
FUNC is a function of two args, the start and end (inclusive) of a
|
||
character code range. Thus FUNC should iterate over [START, END]."
|
||
(let* ((dim (charset-dimension charset))
|
||
(chars (charset-chars charset))
|
||
(start (if (= chars 94)
|
||
33
|
||
32)))
|
||
(if (= dim 1)
|
||
(funcall func
|
||
(make-char charset start)
|
||
(make-char charset (+ start chars -1)))
|
||
(dotimes (i chars)
|
||
(funcall func
|
||
(make-char charset (+ i start) start)
|
||
(make-char charset (+ i start) (+ start chars -1)))))))
|
||
|
||
(defalias 'register-char-codings 'ignore "")
|
||
(make-obsolete 'register-char-codings
|
||
"it exists just for backward compatibility, and does nothing."
|
||
"21.3")
|
||
|
||
(defconst char-coding-system-table nil
|
||
"This is an obsolete variable.
|
||
It exists just for backward compatibility, and the value is always nil.")
|
||
|
||
(defun make-subsidiary-coding-system (coding-system)
|
||
"Make subsidiary coding systems (eol-type variants) of CODING-SYSTEM."
|
||
(let ((coding-spec (coding-system-spec coding-system))
|
||
(subsidiaries (vector (intern (format "%s-unix" coding-system))
|
||
(intern (format "%s-dos" coding-system))
|
||
(intern (format "%s-mac" coding-system))))
|
||
(i 0)
|
||
temp)
|
||
(while (< i 3)
|
||
(put (aref subsidiaries i) 'coding-system coding-spec)
|
||
(put (aref subsidiaries i) 'eol-type i)
|
||
(add-to-coding-system-list (aref subsidiaries i))
|
||
(setq coding-system-alist
|
||
(cons (list (symbol-name (aref subsidiaries i)))
|
||
coding-system-alist))
|
||
(setq i (1+ i)))
|
||
subsidiaries))
|
||
|
||
(defun transform-make-coding-system-args (name type &optional doc-string props)
|
||
"For internal use only.
|
||
Transform XEmacs style args for `make-coding-system' to Emacs style.
|
||
Value is a list of transformed arguments."
|
||
(let ((mnemonic (string-to-char (or (plist-get props 'mnemonic) "?")))
|
||
(eol-type (plist-get props 'eol-type))
|
||
properties tmp)
|
||
(cond
|
||
((eq eol-type 'lf) (setq eol-type 'unix))
|
||
((eq eol-type 'crlf) (setq eol-type 'dos))
|
||
((eq eol-type 'cr) (setq eol-type 'mac)))
|
||
(if (setq tmp (plist-get props 'post-read-conversion))
|
||
(setq properties (plist-put properties 'post-read-conversion tmp)))
|
||
(if (setq tmp (plist-get props 'pre-write-conversion))
|
||
(setq properties (plist-put properties 'pre-write-conversion tmp)))
|
||
(cond
|
||
((eq type 'shift-jis)
|
||
`(,name 1 ,mnemonic ,doc-string () ,properties ,eol-type))
|
||
((eq type 'iso2022) ; This is not perfect.
|
||
(if (plist-get props 'escape-quoted)
|
||
(error "escape-quoted is not supported: %S"
|
||
`(,name ,type ,doc-string ,props)))
|
||
(let ((g0 (plist-get props 'charset-g0))
|
||
(g1 (plist-get props 'charset-g1))
|
||
(g2 (plist-get props 'charset-g2))
|
||
(g3 (plist-get props 'charset-g3))
|
||
(use-roman
|
||
(and
|
||
(eq (cadr (assoc 'latin-jisx0201
|
||
(plist-get props 'input-charset-conversion)))
|
||
'ascii)
|
||
(eq (cadr (assoc 'ascii
|
||
(plist-get props 'output-charset-conversion)))
|
||
'latin-jisx0201)))
|
||
(use-oldjis
|
||
(and
|
||
(eq (cadr (assoc 'japanese-jisx0208-1978
|
||
(plist-get props 'input-charset-conversion)))
|
||
'japanese-jisx0208)
|
||
(eq (cadr (assoc 'japanese-jisx0208
|
||
(plist-get props 'output-charset-conversion)))
|
||
'japanese-jisx0208-1978))))
|
||
(if (charsetp g0)
|
||
(if (plist-get props 'force-g0-on-output)
|
||
(setq g0 `(nil ,g0))
|
||
(setq g0 `(,g0 t))))
|
||
(if (charsetp g1)
|
||
(if (plist-get props 'force-g1-on-output)
|
||
(setq g1 `(nil ,g1))
|
||
(setq g1 `(,g1 t))))
|
||
(if (charsetp g2)
|
||
(if (plist-get props 'force-g2-on-output)
|
||
(setq g2 `(nil ,g2))
|
||
(setq g2 `(,g2 t))))
|
||
(if (charsetp g3)
|
||
(if (plist-get props 'force-g3-on-output)
|
||
(setq g3 `(nil ,g3))
|
||
(setq g3 `(,g3 t))))
|
||
`(,name 2 ,mnemonic ,doc-string
|
||
(,g0 ,g1 ,g2 ,g3
|
||
,(plist-get props 'short)
|
||
,(not (plist-get props 'no-ascii-eol))
|
||
,(not (plist-get props 'no-ascii-cntl))
|
||
,(plist-get props 'seven)
|
||
t
|
||
,(not (plist-get props 'lock-shift))
|
||
,use-roman
|
||
,use-oldjis
|
||
,(plist-get props 'no-iso6429)
|
||
nil nil nil nil)
|
||
,properties ,eol-type)))
|
||
((eq type 'big5)
|
||
`(,name 3 ,mnemonic ,doc-string () ,properties ,eol-type))
|
||
((eq type 'ccl)
|
||
`(,name 4 ,mnemonic ,doc-string
|
||
(,(plist-get props 'decode) . ,(plist-get props 'encode))
|
||
,properties ,eol-type))
|
||
(t
|
||
(error "unsupported XEmacs style make-coding-style arguments: %S"
|
||
`(,name ,type ,doc-string ,props))))))
|
||
|
||
(defun make-coding-system (coding-system type mnemonic doc-string
|
||
&optional
|
||
flags
|
||
properties
|
||
eol-type)
|
||
"Define a new coding system CODING-SYSTEM (symbol).
|
||
Remaining arguments are TYPE, MNEMONIC, DOC-STRING, FLAGS (optional),
|
||
and PROPERTIES (optional) which construct a coding-spec of CODING-SYSTEM
|
||
in the following format:
|
||
[TYPE MNEMONIC DOC-STRING PLIST FLAGS]
|
||
|
||
TYPE is an integer value indicating the type of the coding system as follows:
|
||
0: Emacs internal format,
|
||
1: Shift-JIS (or MS-Kanji) used mainly on Japanese PCs,
|
||
2: ISO-2022 including many variants,
|
||
3: Big5 used mainly on Chinese PCs,
|
||
4: private, CCL programs provide encoding/decoding algorithm,
|
||
5: Raw-text, which means that text contains random 8-bit codes.
|
||
|
||
MNEMONIC is a character to be displayed on mode line for the coding system.
|
||
|
||
DOC-STRING is a documentation string for the coding system.
|
||
|
||
FLAGS specifies more detailed information of the coding system as follows:
|
||
|
||
If TYPE is 2 (ISO-2022), FLAGS is a list of these elements:
|
||
CHARSET0, CHARSET1, CHARSET2, CHARSET3, SHORT-FORM,
|
||
ASCII-EOL, ASCII-CNTL, SEVEN, LOCKING-SHIFT, SINGLE-SHIFT,
|
||
USE-ROMAN, USE-OLDJIS, NO-ISO6429, INIT-BOL, DESIGNATION-BOL,
|
||
SAFE, ACCEPT-LATIN-EXTRA-CODE.
|
||
CHARSETn are character sets initially designated to Gn graphic registers.
|
||
If CHARSETn is nil, Gn is never used.
|
||
If CHARSETn is t, Gn can be used but nothing designated initially.
|
||
If CHARSETn is a list of character sets, those character sets are
|
||
designated to Gn on output, but nothing designated to Gn initially.
|
||
But, character set `ascii' can be designated only to G0.
|
||
SHORT-FORM non-nil means use short designation sequence on output.
|
||
ASCII-EOL non-nil means designate ASCII to g0 at end of line on output.
|
||
ASCII-CNTL non-nil means designate ASCII to g0 before control codes and
|
||
SPACE on output.
|
||
SEVEN non-nil means use 7-bit code only on output.
|
||
LOCKING-SHIFT non-nil means use locking-shift.
|
||
SINGLE-SHIFT non-nil means use single-shift.
|
||
USE-ROMAN non-nil means designate JIS0201-1976-Roman instead of ASCII.
|
||
USE-OLDJIS non-nil means designate JIS0208-1976 instead of JIS0208-1983.
|
||
NO-ISO6429 non-nil means not use ISO6429's direction specification.
|
||
INIT-BOL non-nil means any designation state is assumed to be reset
|
||
to initial at each beginning of line on output.
|
||
DESIGNATION-BOL non-nil means designation sequences should be placed
|
||
at beginning of line on output.
|
||
SAFE non-nil means convert unsafe characters to `?' on output.
|
||
Characters not specified in the property `safe-charsets' nor
|
||
`safe-chars' are unsafe.
|
||
ACCEPT-LATIN-EXTRA-CODE non-nil means code-detection routine accepts
|
||
a code specified in `latin-extra-code-table' (which see) as a valid
|
||
code of the coding system.
|
||
|
||
If TYPE is 4 (private), FLAGS should be a cons of CCL programs, for
|
||
decoding and encoding. CCL programs should be specified by their
|
||
symbols.
|
||
|
||
PROPERTIES is an alist of properties vs the corresponding values. The
|
||
following properties are recognized:
|
||
|
||
o post-read-conversion
|
||
|
||
The value is a function to call after some text is inserted and
|
||
decoded by the coding system itself and before any functions in
|
||
`after-insert-functions' are called. The argument of this
|
||
function is the same as for a function in
|
||
`after-insert-file-functions', i.e. LENGTH of the text inserted,
|
||
with point at the head of the text to be decoded.
|
||
|
||
o pre-write-conversion
|
||
|
||
The value is a function to call after all functions in
|
||
`write-region-annotate-functions' and `buffer-file-format' are
|
||
called, and before the text is encoded by the coding system itself.
|
||
The arguments to this function are the same as those of a function
|
||
in `write-region-annotate-functions', i.e. FROM and TO, specifying
|
||
a region of text.
|
||
|
||
o translation-table-for-decode
|
||
|
||
The value is a translation table to be applied on decoding. See
|
||
the function `make-translation-table' for the format of translation
|
||
table. This is not applicable to type 4 (CCL-based) coding systems.
|
||
|
||
o translation-table-for-encode
|
||
|
||
The value is a translation table to be applied on encoding. This is
|
||
not applicable to type 4 (CCL-based) coding systems.
|
||
|
||
o safe-chars
|
||
|
||
The value is a char table. If a character has non-nil value in it,
|
||
the character is safely supported by the coding system. This
|
||
overrides the specification of safe-charsets.
|
||
|
||
o safe-charsets
|
||
|
||
The value is a list of charsets safely supported by the coding
|
||
system. The value t means that all charsets Emacs handles are
|
||
supported. Even if some charset is not in this list, it doesn't
|
||
mean that the charset can't be encoded in the coding system;
|
||
it just means that some other receiver of text encoded
|
||
in the coding system won't be able to handle that charset.
|
||
|
||
o mime-charset
|
||
|
||
The value is a symbol whose name is the `MIME-charset' parameter of
|
||
the coding system.
|
||
|
||
o mime-text-unsuitable
|
||
|
||
A non-nil value means the `mime-charset' property names a charset
|
||
which is unsuitable for the top-level media type \"text\".
|
||
|
||
o valid-codes (meaningful only for a coding system based on CCL)
|
||
|
||
The value is a list to indicate valid byte ranges of the encoded
|
||
file. Each element of the list is an integer or a cons of integer.
|
||
In the former case, the integer value is a valid byte code. In the
|
||
latter case, the integers specify the range of valid byte codes.
|
||
|
||
o composition (meaningful only when TYPE is 0 or 2)
|
||
|
||
If the value is non-nil, the coding system preserves composition
|
||
information.
|
||
|
||
These properties are set in PLIST, a property list. This function
|
||
also sets properties `coding-category' and `alias-coding-systems'
|
||
automatically.
|
||
|
||
EOL-TYPE specifies the EOL type of the coding-system in one of the
|
||
following formats:
|
||
|
||
o symbol (unix, dos, or mac)
|
||
|
||
The symbol `unix' means Unix-like EOL (LF), `dos' means
|
||
DOS-like EOL (CRLF), and `mac' means MAC-like EOL (CR).
|
||
|
||
o number (0, 1, or 2)
|
||
|
||
The number 0, 1, and 2 mean UNIX, DOS, and MAC-like EOL
|
||
respectively.
|
||
|
||
o vector of coding-systems of length 3
|
||
|
||
The EOL type is detected automatically for the coding system.
|
||
And, according to the detected EOL type, one of the coding
|
||
systems in the vector is selected. Elements of the vector
|
||
corresponds to Unix-like EOL, DOS-like EOL, and Mac-like EOL
|
||
in this order.
|
||
|
||
Kludgy features for backward compatibility:
|
||
|
||
1. If TYPE is 4 and car or cdr of FLAGS is a vector, the vector is
|
||
treated as a compiled CCL code.
|
||
|
||
2. If PROPERTIES is just a list of character sets, the list is set as
|
||
a value of `safe-charsets' in PLIST."
|
||
|
||
;; For compatiblity with XEmacs, we check the type of TYPE. If it
|
||
;; is a symbol, perhaps, this function is called with XEmacs-style
|
||
;; arguments. Here, try to transform that kind of arguments to
|
||
;; Emacs style.
|
||
(if (symbolp type)
|
||
(let ((args (transform-make-coding-system-args coding-system type
|
||
mnemonic doc-string)))
|
||
(setq coding-system (car args)
|
||
type (nth 1 args)
|
||
mnemonic (nth 2 args)
|
||
doc-string (nth 3 args)
|
||
flags (nth 4 args)
|
||
properties (nth 5 args)
|
||
eol-type (nth 6 args))))
|
||
|
||
;; Set a value of `coding-system' property.
|
||
(let ((coding-spec (make-vector 5 nil))
|
||
(no-initial-designation t)
|
||
(no-alternative-designation t)
|
||
(accept-latin-extra-code nil)
|
||
coding-category)
|
||
(if (or (not (integerp type)) (< type 0) (> type 5))
|
||
(error "TYPE argument must be 0..5"))
|
||
(if (or (not (integerp mnemonic)) (<= mnemonic ? ) (> mnemonic 127))
|
||
(error "MNEMONIC argument must be an ASCII printable character"))
|
||
(aset coding-spec coding-spec-type-idx type)
|
||
(aset coding-spec coding-spec-mnemonic-idx mnemonic)
|
||
(aset coding-spec coding-spec-doc-string-idx
|
||
(purecopy (if (stringp doc-string) doc-string "")))
|
||
(cond ((= type 0)
|
||
(setq coding-category 'coding-category-emacs-mule))
|
||
((= type 1)
|
||
(setq coding-category 'coding-category-sjis))
|
||
((= type 2) ; ISO2022
|
||
(let ((i 0)
|
||
(vec (make-vector 32 nil))
|
||
(g1-designation nil)
|
||
(fl flags))
|
||
(while (< i 4)
|
||
(let ((charset (car fl)))
|
||
(if (and no-initial-designation
|
||
(> i 0)
|
||
(or (charsetp charset)
|
||
(and (consp charset)
|
||
(charsetp (car charset)))))
|
||
(setq no-initial-designation nil))
|
||
(if (charsetp charset)
|
||
(if (= i 1) (setq g1-designation charset))
|
||
(if (consp charset)
|
||
(let ((tail charset)
|
||
elt)
|
||
(while tail
|
||
(setq elt (car tail))
|
||
(if (eq elt t)
|
||
(setq no-alternative-designation nil)
|
||
(if (and elt (not (charsetp elt)))
|
||
(error "Invalid charset: %s" elt)))
|
||
(setq tail (cdr tail)))
|
||
(setq g1-designation (car charset)))
|
||
(if charset
|
||
(if (eq charset t)
|
||
(setq no-alternative-designation nil)
|
||
(error "Invalid charset: %s" charset)))))
|
||
(aset vec i charset))
|
||
(setq fl (cdr fl) i (1+ i)))
|
||
(while (and (< i 32) fl)
|
||
(aset vec i (car fl))
|
||
(if (and (= i 16) ; ACCEPT-LATIN-EXTRA-CODE
|
||
(car fl))
|
||
(setq accept-latin-extra-code t))
|
||
(setq fl (cdr fl) i (1+ i)))
|
||
(aset coding-spec 4 vec)
|
||
(setq coding-category
|
||
(if (aref vec 8) ; Use locking-shift.
|
||
(or (and (aref vec 7) 'coding-category-iso-7-else)
|
||
'coding-category-iso-8-else)
|
||
(if (aref vec 7) ; 7-bit only.
|
||
(if (aref vec 9) ; Use single-shift.
|
||
'coding-category-iso-7-else
|
||
(if no-alternative-designation
|
||
'coding-category-iso-7-tight
|
||
'coding-category-iso-7))
|
||
(if (or no-initial-designation
|
||
(not no-alternative-designation))
|
||
'coding-category-iso-8-else
|
||
(if (and (charsetp g1-designation)
|
||
(= (charset-dimension g1-designation) 2))
|
||
'coding-category-iso-8-2
|
||
'coding-category-iso-8-1)))))))
|
||
((= type 3)
|
||
(setq coding-category 'coding-category-big5))
|
||
((= type 4) ; private
|
||
(setq coding-category 'coding-category-ccl)
|
||
(if (not (consp flags))
|
||
(error "Invalid FLAGS argument for TYPE 4 (CCL)")
|
||
(let ((decoder (check-ccl-program
|
||
(car flags)
|
||
(intern (format "%s-decoder" coding-system))))
|
||
(encoder (check-ccl-program
|
||
(cdr flags)
|
||
(intern (format "%s-encoder" coding-system)))))
|
||
(if (and decoder encoder)
|
||
(aset coding-spec 4 (cons decoder encoder))
|
||
(error "Invalid FLAGS argument for TYPE 4 (CCL)")))))
|
||
(t ; i.e. (= type 5)
|
||
(setq coding-category 'coding-category-raw-text)))
|
||
|
||
(let ((plist (list 'coding-category coding-category
|
||
'alias-coding-systems (list coding-system))))
|
||
(if no-initial-designation
|
||
(plist-put plist 'no-initial-designation t))
|
||
(if (and properties
|
||
(or (eq properties t)
|
||
(not (consp (car properties)))))
|
||
;; In the old version, the arg PROPERTIES is a list to be
|
||
;; set in PLIST as a value of property `safe-charsets'.
|
||
(setq properties (list (cons 'safe-charsets properties))))
|
||
;; In the current version PROPERTIES is a property list.
|
||
;; Reflect it into PLIST one by one while handling safe-chars
|
||
;; specially.
|
||
(let ((safe-charsets (cdr (assq 'safe-charsets properties)))
|
||
(safe-chars (cdr (assq 'safe-chars properties)))
|
||
(l properties)
|
||
prop val)
|
||
;; If only safe-charsets is specified, make a char-table from
|
||
;; it, and store that char-table as the value of `safe-chars'.
|
||
(if (and (not safe-chars) safe-charsets)
|
||
(let (charset)
|
||
(if (eq safe-charsets t)
|
||
(setq safe-chars t)
|
||
(setq safe-chars (make-char-table 'safe-chars))
|
||
(while safe-charsets
|
||
(setq charset (car safe-charsets)
|
||
safe-charsets (cdr safe-charsets))
|
||
(cond ((eq charset 'ascii)) ; just ignore
|
||
((eq charset 'eight-bit-control)
|
||
(let ((i 128))
|
||
(while (< i 160)
|
||
(aset safe-chars i t)
|
||
(setq i (1+ i)))))
|
||
((eq charset 'eight-bit-graphic)
|
||
(let ((i 160))
|
||
(while (< i 256)
|
||
(aset safe-chars i t)
|
||
(setq i (1+ i)))))
|
||
(t
|
||
(aset safe-chars (make-char charset) t))))
|
||
(if accept-latin-extra-code
|
||
(let ((i 128))
|
||
(while (< i 160)
|
||
(if (aref latin-extra-code-table i)
|
||
(aset safe-chars i t))
|
||
(setq i (1+ i))))))
|
||
(setq l (cons (cons 'safe-chars safe-chars) l))))
|
||
(while l
|
||
(setq prop (car (car l)) val (cdr (car l)) l (cdr l))
|
||
(if (eq prop 'safe-chars)
|
||
(progn
|
||
(if (and (symbolp val)
|
||
(get val 'translation-table))
|
||
(setq safe-chars (get val 'translation-table)))
|
||
(setq val safe-chars)))
|
||
(plist-put plist prop val)))
|
||
;; The property `coding-category' may have been set differently
|
||
;; through PROPERTIES.
|
||
(setq coding-category (plist-get plist 'coding-category))
|
||
(aset coding-spec coding-spec-plist-idx plist))
|
||
(put coding-system 'coding-system coding-spec)
|
||
(put coding-system 'coding-system-define-form nil)
|
||
(put coding-category 'coding-systems
|
||
(cons coding-system (get coding-category 'coding-systems))))
|
||
|
||
;; Next, set a value of `eol-type' property.
|
||
(if (not eol-type)
|
||
;; If EOL-TYPE is nil, set a vector of subsidiary coding
|
||
;; systems, each corresponds to a coding system for the detected
|
||
;; EOL format.
|
||
(setq eol-type (make-subsidiary-coding-system coding-system)))
|
||
(setq eol-type
|
||
(cond ((or (eq eol-type 'unix) (null eol-type))
|
||
0)
|
||
((eq eol-type 'dos)
|
||
1)
|
||
((eq eol-type 'mac)
|
||
2)
|
||
((or (and (vectorp eol-type)
|
||
(= (length eol-type) 3))
|
||
(and (numberp eol-type)
|
||
(and (>= eol-type 0)
|
||
(<= eol-type 2))))
|
||
eol-type)
|
||
(t
|
||
(error "Invalid EOL-TYPE spec:%S" eol-type))))
|
||
(put coding-system 'eol-type eol-type)
|
||
|
||
(define-coding-system-internal coding-system)
|
||
|
||
;; At last, register CODING-SYSTEM in `coding-system-list' and
|
||
;; `coding-system-alist'.
|
||
(add-to-coding-system-list coding-system)
|
||
(setq coding-system-alist (cons (list (symbol-name coding-system))
|
||
coding-system-alist))
|
||
|
||
;; For a coding system of cateogory iso-8-1 and iso-8-2, create
|
||
;; XXX-with-esc variants.
|
||
(let ((coding-category (coding-system-category coding-system)))
|
||
(if (or (eq coding-category 'coding-category-iso-8-1)
|
||
(eq coding-category 'coding-category-iso-8-2))
|
||
(let ((esc (intern (concat (symbol-name coding-system) "-with-esc")))
|
||
(doc (format "Same as %s but can handle any charsets by ISO's escape sequences." coding-system))
|
||
(safe-charsets (assq 'safe-charsets properties))
|
||
(mime-charset (assq 'mime-charset properties)))
|
||
(if safe-charsets
|
||
(setcdr safe-charsets t)
|
||
(setq properties (cons (cons 'safe-charsets t) properties)))
|
||
(if mime-charset
|
||
(setcdr mime-charset nil))
|
||
(make-coding-system esc type mnemonic doc
|
||
(if (listp (car flags))
|
||
(cons (append (car flags) '(t)) (cdr flags))
|
||
(cons (list (car flags) t) (cdr flags)))
|
||
properties))))
|
||
|
||
coding-system)
|
||
|
||
(put 'safe-chars 'char-table-extra-slots 0)
|
||
|
||
(defun define-coding-system-alias (alias coding-system)
|
||
"Define ALIAS as an alias for coding system CODING-SYSTEM."
|
||
(put alias 'coding-system (coding-system-spec coding-system))
|
||
(put alias 'coding-system-define-form nil)
|
||
(add-to-coding-system-list alias)
|
||
(setq coding-system-alist (cons (list (symbol-name alias))
|
||
coding-system-alist))
|
||
(let ((eol-type (coding-system-eol-type coding-system)))
|
||
(if (vectorp eol-type)
|
||
(progn
|
||
(nconc (coding-system-get alias 'alias-coding-systems) (list alias))
|
||
(put alias 'eol-type (make-subsidiary-coding-system alias)))
|
||
(put alias 'eol-type eol-type))))
|
||
|
||
(defun merge-coding-systems (first second)
|
||
"Fill in any unspecified aspects of coding system FIRST from SECOND.
|
||
Return the resulting coding system."
|
||
(let ((base (coding-system-base second))
|
||
(eol (coding-system-eol-type second)))
|
||
;; If FIRST doesn't specify text conversion, merge with that of SECOND.
|
||
(if (eq (coding-system-base first) 'undecided)
|
||
(setq first (coding-system-change-text-conversion first base)))
|
||
;; If FIRST doesn't specify eol conversion, merge with that of SECOND.
|
||
(if (and (vectorp (coding-system-eol-type first))
|
||
(numberp eol) (>= eol 0) (<= eol 2))
|
||
(setq first (coding-system-change-eol-conversion
|
||
first eol)))
|
||
first))
|
||
|
||
(defun autoload-coding-system (symbol form)
|
||
"Define SYMBOL as a coding-system that is defined on demand.
|
||
|
||
FROM is a form to evaluate to define the coding-system."
|
||
(put symbol 'coding-system-define-form form)
|
||
(setq coding-system-alist (cons (list (symbol-name symbol))
|
||
coding-system-alist)))
|
||
|
||
(defun set-buffer-file-coding-system (coding-system &optional force nomodify)
|
||
"Set the file coding-system of the current buffer to CODING-SYSTEM.
|
||
This means that when you save the buffer, it will be converted
|
||
according to CODING-SYSTEM. For a list of possible values of CODING-SYSTEM,
|
||
use \\[list-coding-systems].
|
||
|
||
If CODING-SYSTEM leaves the text conversion unspecified, or if it
|
||
leaves the end-of-line conversion unspecified, FORCE controls what to
|
||
do. If FORCE is nil, get the unspecified aspect (or aspects) from the
|
||
buffer's previous `buffer-file-coding-system' value (if it is
|
||
specified there). Otherwise, leave it unspecified.
|
||
|
||
This marks the buffer modified so that the succeeding \\[save-buffer]
|
||
surely saves the buffer with CODING-SYSTEM. From a program, if you
|
||
don't want to mark the buffer modified, specify t for NOMODIFY.
|
||
If you know exactly what coding system you want to use,
|
||
just set the variable `buffer-file-coding-system' directly."
|
||
(interactive "zCoding system for saving file (default, nil): \nP")
|
||
(check-coding-system coding-system)
|
||
(if (and coding-system buffer-file-coding-system (null force))
|
||
(setq coding-system
|
||
(merge-coding-systems coding-system buffer-file-coding-system)))
|
||
(setq buffer-file-coding-system coding-system)
|
||
;; This is in case of an explicit call. Normally, `normal-mode' and
|
||
;; `set-buffer-major-mode-hook' take care of setting the table.
|
||
(if (fboundp 'ucs-set-table-for-input) ; don't lose when building
|
||
(ucs-set-table-for-input))
|
||
(unless nomodify
|
||
(set-buffer-modified-p t))
|
||
(force-mode-line-update))
|
||
|
||
(defun revert-buffer-with-coding-system (coding-system &optional force)
|
||
"Visit the current buffer's file again using coding system CODING-SYSTEM.
|
||
For a list of possible values of CODING-SYSTEM, use \\[list-coding-systems].
|
||
|
||
If CODING-SYSTEM leaves the text conversion unspecified, or if it
|
||
leaves the end-of-line conversion unspecified, FORCE controls what to
|
||
do. If FORCE is nil, get the unspecified aspect (or aspects) from the
|
||
buffer's previous `buffer-file-coding-system' value (if it is
|
||
specified there). Otherwise, determine it from the file contents as
|
||
usual for visiting a file."
|
||
(interactive "zCoding system for visited file (default, nil): \nP")
|
||
(check-coding-system coding-system)
|
||
(if (and coding-system buffer-file-coding-system (null force))
|
||
(setq coding-system
|
||
(merge-coding-systems coding-system buffer-file-coding-system)))
|
||
(let ((coding-system-for-read coding-system))
|
||
(revert-buffer)))
|
||
|
||
(defun set-file-name-coding-system (coding-system)
|
||
"Set coding system for decoding and encoding file names to CODING-SYSTEM.
|
||
It actually just set the variable `file-name-coding-system' (which
|
||
see) to CODING-SYSTEM."
|
||
(interactive "zCoding system for file names (default, nil): ")
|
||
(check-coding-system coding-system)
|
||
(setq file-name-coding-system coding-system))
|
||
|
||
(defvar default-terminal-coding-system nil
|
||
"Default value for the terminal coding system.
|
||
This is normally set according to the selected language environment.
|
||
See also the command `set-terminal-coding-system'.")
|
||
|
||
(defun set-terminal-coding-system (coding-system)
|
||
"Set coding system of your terminal to CODING-SYSTEM.
|
||
All text output to the terminal will be encoded
|
||
with the specified coding system.
|
||
For a list of possible values of CODING-SYSTEM, use \\[list-coding-systems].
|
||
The default is determined by the selected language environment
|
||
or by the previous use of this command."
|
||
(interactive
|
||
(list (let ((default (if (and (not (terminal-coding-system))
|
||
default-terminal-coding-system)
|
||
default-terminal-coding-system)))
|
||
(read-coding-system
|
||
(format "Coding system for terminal display (default, %s): "
|
||
default)
|
||
default))))
|
||
(if (and (not coding-system)
|
||
(not (terminal-coding-system)))
|
||
(setq coding-system default-terminal-coding-system))
|
||
(if coding-system
|
||
(setq default-terminal-coding-system coding-system))
|
||
(set-terminal-coding-system-internal coding-system)
|
||
(redraw-frame (selected-frame)))
|
||
|
||
(defvar default-keyboard-coding-system nil
|
||
"Default value of the keyboard coding system.
|
||
This is normally set according to the selected language environment.
|
||
See also the command `set-keyboard-coding-system'.")
|
||
|
||
(defun set-keyboard-coding-system (coding-system)
|
||
"Set coding system for keyboard input to CODING-SYSTEM.
|
||
In addition, this command enables Encoded-kbd minor mode.
|
||
\(If CODING-SYSTEM is nil, Encoded-kbd mode is turned off -- see
|
||
`encoded-kbd-mode'.)
|
||
For a list of possible values of CODING-SYSTEM, use \\[list-coding-systems].
|
||
The default is determined by the selected language environment
|
||
or by the previous use of this command."
|
||
(interactive
|
||
(list (let ((default (if (and (not (keyboard-coding-system))
|
||
default-keyboard-coding-system)
|
||
default-keyboard-coding-system)))
|
||
(read-coding-system
|
||
(format "Coding system for keyboard input (default, %s): "
|
||
default)
|
||
default))))
|
||
(if (and (not coding-system)
|
||
(not (keyboard-coding-system)))
|
||
(setq coding-system default-keyboard-coding-system))
|
||
(if coding-system
|
||
(setq default-keyboard-coding-system coding-system))
|
||
(set-keyboard-coding-system-internal coding-system)
|
||
(setq keyboard-coding-system coding-system)
|
||
(encoded-kbd-mode (if coding-system 1 0)))
|
||
|
||
(defcustom keyboard-coding-system nil
|
||
"Specify coding system for keyboard input.
|
||
If you set this on a terminal which can't distinguish Meta keys from
|
||
8-bit characters, you will have to use ESC to type Meta characters.
|
||
See Info node `Specify Coding' and Info node `Single-Byte Character Support'.
|
||
|
||
On non-windowing terminals, this is set from the locale by default.
|
||
|
||
Setting this variable directly does not take effect;
|
||
use either \\[customize] or \\[set-keyboard-coding-system]."
|
||
:type '(coding-system :tag "Coding system")
|
||
:link '(info-link "(emacs)Specify Coding")
|
||
:link '(info-link "(emacs)Single-Byte Character Support")
|
||
:set (lambda (symbol value)
|
||
;; Don't load encoded-kbd-mode unnecessarily.
|
||
(if (or value (boundp 'encoded-kbd-mode))
|
||
(set-keyboard-coding-system value)
|
||
(set-default 'keyboard-coding-system nil))) ; must initialize
|
||
:version "22.1"
|
||
:group 'keyboard
|
||
:group 'mule)
|
||
|
||
(defun set-buffer-process-coding-system (decoding encoding)
|
||
"Set coding systems for the process associated with the current buffer.
|
||
DECODING is the coding system to be used to decode input from the process,
|
||
ENCODING is the coding system to be used to encode output to the process.
|
||
|
||
For a list of possible values of CODING-SYSTEM, use \\[list-coding-systems]."
|
||
(interactive
|
||
"zCoding-system for output from the process: \nzCoding-system for input to the process: ")
|
||
(let ((proc (get-buffer-process (current-buffer))))
|
||
(if (null proc)
|
||
(error "No process")
|
||
(check-coding-system decoding)
|
||
(check-coding-system encoding)
|
||
(set-process-coding-system proc decoding encoding)))
|
||
(force-mode-line-update))
|
||
|
||
(defalias 'set-clipboard-coding-system 'set-selection-coding-system)
|
||
|
||
(defun set-selection-coding-system (coding-system)
|
||
"Make CODING-SYSTEM used for communicating with other X clients.
|
||
When sending or receiving text via cut_buffer, selection, and clipboard,
|
||
the text is encoded or decoded by CODING-SYSTEM."
|
||
(interactive "zCoding system for X selection: ")
|
||
(check-coding-system coding-system)
|
||
(setq selection-coding-system coding-system))
|
||
|
||
;; Coding system lastly specified by the command
|
||
;; set-next-selection-coding-system.
|
||
(defvar last-next-selection-coding-system nil)
|
||
|
||
(defun set-next-selection-coding-system (coding-system)
|
||
"Make CODING-SYSTEM used for the next communication with other X clients.
|
||
This setting is effective for the next communication only."
|
||
(interactive
|
||
(list (read-coding-system
|
||
(if last-next-selection-coding-system
|
||
(format "Coding system for the next X selection (default, %S): "
|
||
last-next-selection-coding-system)
|
||
"Coding system for the next X selection: ")
|
||
last-next-selection-coding-system)))
|
||
(if coding-system
|
||
(setq last-next-selection-coding-system coding-system)
|
||
(setq coding-system last-next-selection-coding-system))
|
||
(check-coding-system coding-system)
|
||
|
||
(setq next-selection-coding-system coding-system))
|
||
|
||
(defun set-coding-priority (arg)
|
||
"Set priority of coding categories according to ARG.
|
||
ARG is a list of coding categories ordered by priority."
|
||
(let ((l arg)
|
||
(current-list (copy-sequence coding-category-list)))
|
||
;; Check the validity of ARG while deleting coding categories in
|
||
;; ARG from CURRENT-LIST. We assume that CODING-CATEGORY-LIST
|
||
;; contains all coding categories.
|
||
(while l
|
||
(if (or (null (get (car l) 'coding-category-index))
|
||
(null (memq (car l) current-list)))
|
||
(error "Invalid or duplicated element in argument: %s" arg))
|
||
(setq current-list (delq (car l) current-list))
|
||
(setq l (cdr l)))
|
||
;; Update `coding-category-list' and return it.
|
||
(setq coding-category-list (append arg current-list))
|
||
(set-coding-priority-internal)))
|
||
|
||
;;; X selections
|
||
|
||
(defvar ctext-non-standard-encodings-alist
|
||
'(("big5-0" big5 2 (chinese-big5-1 chinese-big5-2))
|
||
("ISO8859-14" iso-8859-14 1 latin-iso8859-14)
|
||
("ISO8859-15" iso-8859-15 1 latin-iso8859-15))
|
||
"Alist of non-standard encoding names vs the corresponding usages in CTEXT.
|
||
|
||
It controls how extended segments of a compound text are handled
|
||
by the coding system `compound-text-with-extensions'.
|
||
|
||
Each element has the form (ENCODING-NAME CODING-SYSTEM N-OCTET CHARSET).
|
||
|
||
ENCODING-NAME is an encoding name of an \"extended segments\".
|
||
|
||
CODING-SYSTEM is the coding-system to encode (or decode) the
|
||
characters into (or from) the extended segment.
|
||
|
||
N-OCTET is the number of octets (bytes) that encodes a character
|
||
in the segment. It can be 0 (meaning the number of octets per
|
||
character is variable), 1, 2, 3, or 4.
|
||
|
||
CHARSET is a charater set containing characters that are encoded
|
||
in the segment. It can be a list of character sets. It can also
|
||
be a char-table, in which case characters that have non-nil value
|
||
in the char-table are the target.
|
||
|
||
On decoding CTEXT, all encoding names listed here are recognized.
|
||
|
||
On encoding CTEXT, encoding names in the variable
|
||
`ctext-non-standard-encodings' (which see) and in the information
|
||
listed for the current language environment under the key
|
||
`ctext-non-standard-encodings' are used.")
|
||
|
||
(defvar ctext-non-standard-encodings
|
||
'("big5-0")
|
||
"List of non-standard encoding names used in extended segments of CTEXT.
|
||
Each element must be one of the names listed in the variable
|
||
`ctext-non-standard-encodings-alist' (which see).")
|
||
|
||
(defvar ctext-non-standard-encodings-regexp
|
||
(string-to-multibyte
|
||
(concat
|
||
;; For non-standard encodings.
|
||
"\\(\e%/[0-4][\200-\377][\200-\377]\\([^\002]+\\)\002\\)"
|
||
"\\|"
|
||
;; For UTF-8 encoding.
|
||
"\\(\e%G[^\e]*\e%@\\)")))
|
||
|
||
;; Functions to support "Non-Standard Character Set Encodings" defined
|
||
;; by the COMPOUND-TEXT spec. They also support "The UTF-8 encoding"
|
||
;; described in the section 7 of the documentation of COMPOUND-TEXT
|
||
;; distributed with XFree86.
|
||
|
||
(defun ctext-post-read-conversion (len)
|
||
"Decode LEN characters encoded as Compound Text with Extended Segments."
|
||
(save-match-data
|
||
(save-restriction
|
||
(let ((case-fold-search nil)
|
||
(in-workbuf (string= (buffer-name) " *code-converting-work*"))
|
||
last-coding-system-used
|
||
pos bytes)
|
||
(or in-workbuf
|
||
(narrow-to-region (point) (+ (point) len)))
|
||
(if in-workbuf
|
||
(set-buffer-multibyte t))
|
||
(while (re-search-forward ctext-non-standard-encodings-regexp
|
||
nil 'move)
|
||
(setq pos (match-beginning 0))
|
||
(if (match-beginning 1)
|
||
;; ESC % / [0-4] M L --ENCODING-NAME-- \002 --BYTES--
|
||
(let* ((M (char-after (+ pos 4)))
|
||
(L (char-after (+ pos 5)))
|
||
(encoding (match-string 2))
|
||
(encoding-info (assoc-string
|
||
encoding
|
||
ctext-non-standard-encodings-alist t))
|
||
(coding (if encoding-info
|
||
(nth 1 encoding-info)
|
||
(setq encoding (intern (downcase encoding)))
|
||
(and (coding-system-p encoding)
|
||
encoding))))
|
||
(setq bytes (- (+ (* (- M 128) 128) (- L 128))
|
||
(- (point) (+ pos 6))))
|
||
(when coding
|
||
(delete-region pos (point))
|
||
(forward-char bytes)
|
||
(decode-coding-region (- (point) bytes) (point) coding)))
|
||
;; ESC % G --UTF-8-BYTES-- ESC % @
|
||
(delete-char -3)
|
||
(delete-region pos (+ pos 3))
|
||
(decode-coding-region pos (point) 'utf-8))))
|
||
(goto-char (point-min))
|
||
(- (point-max) (point)))))
|
||
|
||
;; Return a char table of extended segment usage for each character.
|
||
;; Each value of the char table is nil, one of the elements of
|
||
;; `ctext-non-standard-encodings-alist', or the symbol `utf-8'.
|
||
|
||
(defun ctext-non-standard-encodings-table ()
|
||
(let ((table (make-char-table 'translation-table)))
|
||
(aset table (make-char 'mule-unicode-0100-24ff) 'utf-8)
|
||
(aset table (make-char 'mule-unicode-2500-33ff) 'utf-8)
|
||
(aset table (make-char 'mule-unicode-e000-ffff) 'utf-8)
|
||
(dolist (encoding (reverse
|
||
(append
|
||
(get-language-info current-language-environment
|
||
'ctext-non-standard-encodings)
|
||
ctext-non-standard-encodings)))
|
||
(let* ((slot (assoc encoding ctext-non-standard-encodings-alist))
|
||
(charset (nth 3 slot)))
|
||
(if charset
|
||
(cond ((charsetp charset)
|
||
(aset table (make-char charset) slot))
|
||
((listp charset)
|
||
(dolist (elt charset)
|
||
(aset table (make-char elt) slot)))
|
||
((char-table-p charset)
|
||
(map-char-table #'(lambda (k v)
|
||
(if (and v (> k 128)) (aset table k slot)))
|
||
charset))))))
|
||
table))
|
||
|
||
(defun ctext-pre-write-conversion (from to)
|
||
"Encode characters between FROM and TO as Compound Text w/Extended Segments.
|
||
|
||
If FROM is a string, or if the current buffer is not the one set up for us
|
||
by encode-coding-string, generate a new temp buffer, insert the
|
||
text, and convert it in the temporary buffer. Otherwise, convert in-place."
|
||
(save-match-data
|
||
(let ((workbuf (get-buffer-create " *code-conversion-work*")))
|
||
;; Setup a working buffer if necessary.
|
||
(cond ((stringp from)
|
||
(set-buffer workbuf)
|
||
(erase-buffer)
|
||
(set-buffer-multibyte (multibyte-string-p from))
|
||
(insert from))
|
||
((not (eq (current-buffer) workbuf))
|
||
(let ((buf (current-buffer))
|
||
(multibyte enable-multibyte-characters))
|
||
(set-buffer workbuf)
|
||
(erase-buffer)
|
||
(set-buffer-multibyte multibyte)
|
||
(insert-buffer-substring buf from to)))))
|
||
|
||
;; Now we can encode the whole buffer.
|
||
(let ((encoding-table (ctext-non-standard-encodings-table))
|
||
last-coding-system-used
|
||
last-pos last-encoding-info
|
||
encoding-info end-pos)
|
||
(goto-char (setq last-pos (point-min)))
|
||
(setq end-pos (point-marker))
|
||
(while (re-search-forward "[^\000-\177]+" nil t)
|
||
;; Found a sequence of non-ASCII characters.
|
||
(setq last-pos (match-beginning 0)
|
||
last-encoding-info (aref encoding-table (char-after last-pos)))
|
||
(set-marker end-pos (match-end 0))
|
||
(goto-char (1+ last-pos))
|
||
(catch 'tag
|
||
(while t
|
||
(setq encoding-info
|
||
(if (< (point) end-pos)
|
||
(aref encoding-table (following-char))))
|
||
(unless (eq last-encoding-info encoding-info)
|
||
(cond ((consp last-encoding-info)
|
||
;; Encode the previous range using an extended
|
||
;; segment.
|
||
(let ((encoding-name (car last-encoding-info))
|
||
(coding-system (nth 1 last-encoding-info))
|
||
(noctets (nth 2 last-encoding-info))
|
||
len)
|
||
(encode-coding-region last-pos (point) coding-system)
|
||
(setq len (+ (length encoding-name) 1
|
||
(- (point) last-pos)))
|
||
(save-excursion
|
||
(goto-char last-pos)
|
||
(insert (string-to-multibyte
|
||
(format "\e%%/%d%c%c%s"
|
||
noctets
|
||
(+ (/ len 128) 128)
|
||
(+ (% len 128) 128)
|
||
encoding-name))))))
|
||
((eq last-encoding-info 'utf-8)
|
||
;; Encode the previous range using UTF-8 encoding
|
||
;; extention.
|
||
(encode-coding-region last-pos (point) 'mule-utf-8)
|
||
(save-excursion
|
||
(goto-char last-pos)
|
||
(insert "\e%G"))
|
||
(insert "\e%@")))
|
||
(setq last-pos (point)
|
||
last-encoding-info encoding-info))
|
||
(if (< (point) end-pos)
|
||
(forward-char 1)
|
||
(throw 'tag nil)))))
|
||
(set-marker end-pos nil)
|
||
(goto-char (point-min))))
|
||
;; Must return nil, as build_annotations_2 expects that.
|
||
nil)
|
||
|
||
;;; FILE I/O
|
||
|
||
(defcustom auto-coding-alist
|
||
'(("\\.\\(arc\\|zip\\|lzh\\|zoo\\|[jew]ar\\|xpi\\)\\'" . no-conversion)
|
||
("\\.\\(ARC\\|ZIP\\|LZH\\|ZOO\\|[JEW]AR\\|XPI\\)\\'" . no-conversion)
|
||
("\\.\\(sx[dmicw]\\|tar\\|tgz\\)\\'" . no-conversion)
|
||
("\\.\\(gz\\|Z\\|bz\\|bz2\\|gpg\\)\\'" . no-conversion)
|
||
("\\.\\(jpe?g\\|png\\|gif\\|tiff?\\|p[bpgn]m\\)\\'" . no-conversion)
|
||
("/#[^/]+#\\'" . emacs-mule))
|
||
"Alist of filename patterns vs corresponding coding systems.
|
||
Each element looks like (REGEXP . CODING-SYSTEM).
|
||
A file whose name matches REGEXP is decoded by CODING-SYSTEM on reading.
|
||
|
||
The settings in this alist take priority over `coding:' tags
|
||
in the file (see the function `set-auto-coding')
|
||
and the contents of `file-coding-system-alist'."
|
||
:group 'files
|
||
:group 'mule
|
||
:type '(repeat (cons (regexp :tag "File name regexp")
|
||
(symbol :tag "Coding system"))))
|
||
|
||
(defcustom auto-coding-regexp-alist
|
||
'(("^BABYL OPTIONS:[ \t]*-\\*-[ \t]*rmail[ \t]*-\\*-" . no-conversion))
|
||
"Alist of patterns vs corresponding coding systems.
|
||
Each element looks like (REGEXP . CODING-SYSTEM).
|
||
A file whose first bytes match REGEXP is decoded by CODING-SYSTEM on reading.
|
||
|
||
The settings in this alist take priority over `coding:' tags
|
||
in the file (see the function `set-auto-coding')
|
||
and the contents of `file-coding-system-alist'."
|
||
:group 'files
|
||
:group 'mule
|
||
:type '(repeat (cons (regexp :tag "Regexp")
|
||
(symbol :tag "Coding system"))))
|
||
|
||
;; See the bottom of this file for built-in auto coding functions.
|
||
(defcustom auto-coding-functions '(sgml-xml-auto-coding-function
|
||
sgml-html-meta-auto-coding-function)
|
||
"A list of functions which attempt to determine a coding system.
|
||
|
||
Each function in this list should be written to operate on the
|
||
current buffer, but should not modify it in any way. The buffer
|
||
will contain undecoded text of parts of the file. Each function
|
||
should take one argument, SIZE, which says how many
|
||
characters (starting from point) it should look at.
|
||
|
||
If one of these functions succeeds in determining a coding
|
||
system, it should return that coding system. Otherwise, it
|
||
should return nil.
|
||
|
||
If a file has a `coding:' tag, that takes precedence over these
|
||
functions, so they won't be called at all."
|
||
:group 'files
|
||
:group 'mule
|
||
:type '(repeat function))
|
||
|
||
(defvar set-auto-coding-for-load nil
|
||
"Non-nil means look for `load-coding' property instead of `coding'.
|
||
This is used for loading and byte-compiling Emacs Lisp files.")
|
||
|
||
(defun auto-coding-alist-lookup (filename)
|
||
"Return the coding system specified by `auto-coding-alist' for FILENAME."
|
||
(let ((alist auto-coding-alist)
|
||
(case-fold-search (memq system-type '(vax-vms windows-nt ms-dos cygwin)))
|
||
coding-system)
|
||
(while (and alist (not coding-system))
|
||
(if (string-match (car (car alist)) filename)
|
||
(setq coding-system (cdr (car alist)))
|
||
(setq alist (cdr alist))))
|
||
coding-system))
|
||
|
||
(defun set-auto-coding (filename size)
|
||
"Return coding system for a file FILENAME of which SIZE bytes follow point.
|
||
These bytes should include at least the first 1k of the file
|
||
and the last 3k of the file, but the middle may be omitted.
|
||
|
||
The function checks FILENAME against the variable `auto-coding-alist'.
|
||
If FILENAME doesn't match any entries in the variable, it checks the
|
||
contents of the current buffer following point against
|
||
`auto-coding-regexp-alist'. If no match is found, it checks for a
|
||
`coding:' tag in the first one or two lines following point. If no
|
||
`coding:' tag is found, it checks any local variables list in the last
|
||
3K bytes out of the SIZE bytes. Finally, if none of these methods
|
||
succeed, it checks to see if any function in `auto-coding-functions'
|
||
gives a match.
|
||
|
||
The return value is the specified coding system, or nil if nothing is
|
||
specified.
|
||
|
||
The variable `set-auto-coding-function' (which see) is set to this
|
||
function by default."
|
||
(or (auto-coding-alist-lookup filename)
|
||
;; Try using `auto-coding-regexp-alist'.
|
||
(save-excursion
|
||
(let ((alist auto-coding-regexp-alist)
|
||
coding-system)
|
||
(while (and alist (not coding-system))
|
||
(let ((regexp (car (car alist))))
|
||
(when (re-search-forward regexp (+ (point) size) t)
|
||
(setq coding-system (cdr (car alist)))))
|
||
(setq alist (cdr alist)))
|
||
coding-system))
|
||
(let* ((case-fold-search t)
|
||
(head-start (point))
|
||
(head-end (+ head-start (min size 1024)))
|
||
(tail-start (+ head-start (max (- size 3072) 0)))
|
||
(tail-end (+ head-start size))
|
||
coding-system head-found tail-found pos)
|
||
;; Try a short cut by searching for the string "coding:"
|
||
;; and for "unibyte:" at the head and tail of SIZE bytes.
|
||
(setq head-found (or (search-forward "coding:" head-end t)
|
||
(search-forward "unibyte:" head-end t)))
|
||
(if (and head-found (> head-found tail-start))
|
||
;; Head and tail are overlapped.
|
||
(setq tail-found head-found)
|
||
(goto-char tail-start)
|
||
(setq tail-found (or (search-forward "coding:" tail-end t)
|
||
(search-forward "unibyte:" tail-end t))))
|
||
|
||
;; At first check the head.
|
||
(when head-found
|
||
(goto-char head-start)
|
||
(setq head-end (set-auto-mode-1))
|
||
(setq head-start (point))
|
||
(when (and head-end (< head-found head-end))
|
||
(goto-char head-start)
|
||
(when (and set-auto-coding-for-load
|
||
(re-search-forward
|
||
"\\(.*;\\)?[ \t]*unibyte:[ \t]*\\([^ ;]+\\)"
|
||
head-end t))
|
||
(setq coding-system 'raw-text))
|
||
(when (and (not coding-system)
|
||
(re-search-forward
|
||
"\\(.*;\\)?[ \t]*coding:[ \t]*\\([^ ;]+\\)"
|
||
head-end t))
|
||
(setq coding-system (intern (match-string 2)))
|
||
(or (coding-system-p coding-system)
|
||
(setq coding-system nil)))))
|
||
|
||
;; If no coding: tag in the head, check the tail.
|
||
;; Here we must pay attention to the case that the end-of-line
|
||
;; is just "\r" and we can't use "^" nor "$" in regexp.
|
||
(when (and tail-found (not coding-system))
|
||
(goto-char tail-start)
|
||
(re-search-forward "[\r\n]\^L" nil t)
|
||
(if (re-search-forward
|
||
"[\r\n]\\([^[\r\n]*\\)[ \t]*Local Variables:[ \t]*\\([^\r\n]*\\)[\r\n]"
|
||
tail-end t)
|
||
;; The prefix is what comes before "local variables:" in its
|
||
;; line. The suffix is what comes after "local variables:"
|
||
;; in its line.
|
||
(let* ((prefix (regexp-quote (match-string 1)))
|
||
(suffix (regexp-quote (match-string 2)))
|
||
(re-coding
|
||
(concat
|
||
"[\r\n]" prefix
|
||
;; N.B. without the \n below, the regexp can
|
||
;; eat newlines.
|
||
"[ \t]*coding[ \t]*:[ \t]*\\([^ \t\r\n]+\\)[ \t]*"
|
||
suffix "[\r\n]"))
|
||
(re-unibyte
|
||
(concat
|
||
"[\r\n]" prefix
|
||
"[ \t]*unibyte[ \t]*:[ \t]*\\([^ \t\r\n]+\\)[ \t]*"
|
||
suffix "[\r\n]"))
|
||
(re-end
|
||
(concat "[\r\n]" prefix "[ \t]*End *:[ \t]*" suffix
|
||
"[\r\n]?"))
|
||
(pos (1- (point))))
|
||
(forward-char -1) ; skip back \r or \n.
|
||
(re-search-forward re-end tail-end 'move)
|
||
(setq tail-end (point))
|
||
(goto-char pos)
|
||
(when (and set-auto-coding-for-load
|
||
(re-search-forward re-unibyte tail-end t))
|
||
(setq coding-system 'raw-text))
|
||
(when (and (not coding-system)
|
||
(re-search-forward re-coding tail-end t))
|
||
(setq coding-system (intern (match-string 1)))
|
||
(or (coding-system-p coding-system)
|
||
(setq coding-system nil))))))
|
||
coding-system)
|
||
;; Finally, try all the `auto-coding-functions'.
|
||
(let ((funcs auto-coding-functions)
|
||
(coding-system nil))
|
||
(while (and funcs (not coding-system))
|
||
(setq coding-system (condition-case e
|
||
(save-excursion
|
||
(goto-char (point-min))
|
||
(funcall (pop funcs) size))
|
||
(error nil))))
|
||
coding-system)))
|
||
|
||
(setq set-auto-coding-function 'set-auto-coding)
|
||
|
||
;; This variable is set in these two cases:
|
||
;; (1) A file is read by a coding system specified explicitly.
|
||
;; after-insert-file-set-coding sets this value to
|
||
;; coding-system-for-read.
|
||
;; (2) A buffer is saved.
|
||
;; After writing, basic-save-buffer-1 sets this value to
|
||
;; last-coding-system-used.
|
||
;; This variable is used for decoding in revert-buffer.
|
||
(defvar buffer-file-coding-system-explicit nil
|
||
"The file coding system explicitly specified for the current buffer.
|
||
Internal use only.")
|
||
(make-variable-buffer-local 'buffer-file-coding-system-explicit)
|
||
(put 'buffer-file-coding-system-explicit 'permanent-local t)
|
||
|
||
(defun after-insert-file-set-coding (inserted &optional visit)
|
||
"Set `buffer-file-coding-system' of current buffer after text is inserted.
|
||
INSERTED is the number of characters that were inserted, as figured
|
||
in the situation before this function. Return the number of characters
|
||
inserted, as figured in the situation after. The two numbers can be
|
||
different if the buffer has become unibyte.
|
||
The optional second arg VISIT non-nil means that we are visiting a file."
|
||
(if (and visit
|
||
coding-system-for-read
|
||
(not (eq coding-system-for-read 'auto-save-coding)))
|
||
(setq buffer-file-coding-system-explicit coding-system-for-read))
|
||
(if last-coding-system-used
|
||
(let ((coding-system
|
||
(find-new-buffer-file-coding-system last-coding-system-used))
|
||
(modified-p (buffer-modified-p)))
|
||
(when coding-system
|
||
;; Tell set-buffer-file-coding-system not to mark the file
|
||
;; as modified; we just read it, and it's supposed to be unmodified.
|
||
;; Marking it modified would try to lock it, which would
|
||
;; check the modtime, and we don't want to do that again now.
|
||
(set-buffer-file-coding-system coding-system t t)
|
||
(if (and enable-multibyte-characters
|
||
(or (eq coding-system 'no-conversion)
|
||
(eq (coding-system-type coding-system) 5))
|
||
;; If buffer was unmodified and the size is the
|
||
;; same as INSERTED, we must be visiting it.
|
||
(not modified-p)
|
||
(= (buffer-size) inserted))
|
||
;; For coding systems no-conversion and raw-text...,
|
||
;; edit the buffer as unibyte.
|
||
(let ((pos-marker (copy-marker (+ (point) inserted)))
|
||
;; Prevent locking.
|
||
(buffer-file-name nil))
|
||
(set-buffer-multibyte nil)
|
||
(setq inserted (- pos-marker (point)))))
|
||
(set-buffer-modified-p modified-p))))
|
||
inserted)
|
||
|
||
;; The coding-spec and eol-type of coding-system returned is decided
|
||
;; independently in the following order.
|
||
;; 1. That of buffer-file-coding-system locally bound.
|
||
;; 2. That of CODING.
|
||
|
||
(defun find-new-buffer-file-coding-system (coding)
|
||
"Return a coding system for a buffer when a file of CODING is inserted.
|
||
The local variable `buffer-file-coding-system' of the current buffer
|
||
is set to the returned value.
|
||
Return nil if there's no need to set `buffer-file-coding-system'."
|
||
(let (local-coding local-eol
|
||
found-coding found-eol
|
||
new-coding new-eol)
|
||
(if (null coding)
|
||
;; Nothing found about coding.
|
||
nil
|
||
|
||
;; Get information of `buffer-file-coding-system' in LOCAL-EOL
|
||
;; and LOCAL-CODING.
|
||
(setq local-eol (coding-system-eol-type buffer-file-coding-system))
|
||
(if (null (numberp local-eol))
|
||
;; But eol-type is not yet set.
|
||
(setq local-eol nil))
|
||
(if (and buffer-file-coding-system
|
||
(not (eq (coding-system-type buffer-file-coding-system) t)))
|
||
;; This is not `undecided'.
|
||
(setq local-coding (coding-system-base buffer-file-coding-system)))
|
||
|
||
(if (and (local-variable-p 'buffer-file-coding-system)
|
||
local-eol local-coding)
|
||
;; The current buffer has already set full coding-system, we
|
||
;; had better not change it.
|
||
nil
|
||
|
||
(setq found-eol (coding-system-eol-type coding))
|
||
(if (null (numberp found-eol))
|
||
;; But eol-type is not found.
|
||
;; If EOL conversions are inhibited, force unix eol-type.
|
||
(setq found-eol (if inhibit-eol-conversion 0)))
|
||
(if (eq (coding-system-type coding) t)
|
||
(setq found-coding 'undecided)
|
||
(setq found-coding (coding-system-base coding)))
|
||
|
||
(if (and (not found-eol) (eq found-coding 'undecided))
|
||
;; No valid coding information found.
|
||
nil
|
||
|
||
;; Some coding information (eol or text) found.
|
||
|
||
;; The local setting takes precedence over the found one.
|
||
(setq new-coding (if (local-variable-p 'buffer-file-coding-system)
|
||
(or local-coding found-coding)
|
||
(or found-coding local-coding)))
|
||
(setq new-eol (if (local-variable-p 'buffer-file-coding-system)
|
||
(or local-eol found-eol)
|
||
(or found-eol local-eol)))
|
||
|
||
(let ((eol-type (coding-system-eol-type new-coding)))
|
||
(if (and (numberp new-eol) (vectorp eol-type))
|
||
(aref eol-type new-eol)
|
||
new-coding)))))))
|
||
|
||
(defun modify-coding-system-alist (target-type regexp coding-system)
|
||
"Modify one of look up tables for finding a coding system on I/O operation.
|
||
There are three of such tables, `file-coding-system-alist',
|
||
`process-coding-system-alist', and `network-coding-system-alist'.
|
||
|
||
TARGET-TYPE specifies which of them to modify.
|
||
If it is `file', it affects `file-coding-system-alist' (which see).
|
||
If it is `process', it affects `process-coding-system-alist' (which see).
|
||
If it is `network', it affects `network-coding-system-alist' (which see).
|
||
|
||
REGEXP is a regular expression matching a target of I/O operation.
|
||
The target is a file name if TARGET-TYPE is `file', a program name if
|
||
TARGET-TYPE is `process', or a network service name or a port number
|
||
to connect to if TARGET-TYPE is `network'.
|
||
|
||
CODING-SYSTEM is a coding system to perform code conversion on the I/O
|
||
operation, or a cons cell (DECODING . ENCODING) specifying the coding systems
|
||
for decoding and encoding respectively,
|
||
or a function symbol which, when called, returns such a cons cell."
|
||
(or (memq target-type '(file process network))
|
||
(error "Invalid target type: %s" target-type))
|
||
(or (stringp regexp)
|
||
(and (eq target-type 'network) (integerp regexp))
|
||
(error "Invalid regular expression: %s" regexp))
|
||
(if (symbolp coding-system)
|
||
(if (not (fboundp coding-system))
|
||
(progn
|
||
(check-coding-system coding-system)
|
||
(setq coding-system (cons coding-system coding-system))))
|
||
(check-coding-system (car coding-system))
|
||
(check-coding-system (cdr coding-system)))
|
||
(cond ((eq target-type 'file)
|
||
(let ((slot (assoc regexp file-coding-system-alist)))
|
||
(if slot
|
||
(setcdr slot coding-system)
|
||
(setq file-coding-system-alist
|
||
(cons (cons regexp coding-system)
|
||
file-coding-system-alist)))))
|
||
((eq target-type 'process)
|
||
(let ((slot (assoc regexp process-coding-system-alist)))
|
||
(if slot
|
||
(setcdr slot coding-system)
|
||
(setq process-coding-system-alist
|
||
(cons (cons regexp coding-system)
|
||
process-coding-system-alist)))))
|
||
(t
|
||
(let ((slot (assoc regexp network-coding-system-alist)))
|
||
(if slot
|
||
(setcdr slot coding-system)
|
||
(setq network-coding-system-alist
|
||
(cons (cons regexp coding-system)
|
||
network-coding-system-alist)))))))
|
||
|
||
(defun decode-coding-inserted-region (from to filename
|
||
&optional visit beg end replace)
|
||
"Decode the region between FROM and TO as if it is read from file FILENAME.
|
||
The idea is that the text between FROM and TO was just inserted somehow.
|
||
Optional arguments VISIT, BEG, END, and REPLACE are the same as those
|
||
of the function `insert-file-contents'.
|
||
Part of the job of this function is setting `buffer-undo-list' appropriately."
|
||
(save-excursion
|
||
(save-restriction
|
||
(let ((coding coding-system-for-read)
|
||
undo-list-saved)
|
||
(if visit
|
||
;; Temporarily turn off undo recording, if we're decoding the
|
||
;; text of a visited file.
|
||
(setq buffer-undo-list t)
|
||
;; Otherwise, if we can recognize the undo elt for the insertion,
|
||
;; remove it and get ready to replace it later.
|
||
;; In the mean time, turn off undo recording.
|
||
(let ((last (car-safe buffer-undo-list)))
|
||
(if (and (consp last) (eql (car last) from) (eql (cdr last) to))
|
||
(setq undo-list-saved (cdr buffer-undo-list)
|
||
buffer-undo-list t))))
|
||
(narrow-to-region from to)
|
||
(goto-char (point-min))
|
||
(or coding
|
||
(setq coding (funcall set-auto-coding-function
|
||
filename (- (point-max) (point-min)))))
|
||
(or coding
|
||
(setq coding (car (find-operation-coding-system
|
||
'insert-file-contents
|
||
filename visit beg end replace))))
|
||
(if (coding-system-p coding)
|
||
(or enable-multibyte-characters
|
||
(setq coding
|
||
(coding-system-change-text-conversion coding 'raw-text)))
|
||
(setq coding nil))
|
||
(if coding
|
||
(decode-coding-region (point-min) (point-max) coding)
|
||
(setq last-coding-system-used coding))
|
||
;; If we're decoding the text of a visited file,
|
||
;; the undo list should start out empty.
|
||
(if visit
|
||
(setq buffer-undo-list nil)
|
||
;; If we decided to replace the undo entry for the insertion,
|
||
;; do so now.
|
||
(if undo-list-saved
|
||
(setq buffer-undo-list
|
||
(cons (cons from (point-max)) undo-list-saved))))))))
|
||
|
||
(defun recode-region (start end new-coding coding)
|
||
"Re-decode the region (previously decoded by CODING) by NEW-CODING."
|
||
(interactive
|
||
(list (region-beginning) (region-end)
|
||
(read-coding-system "Text was really in: ")
|
||
(let ((coding (or buffer-file-coding-system last-coding-system-used)))
|
||
(read-coding-system
|
||
(concat "But was interpreted as"
|
||
(if coding (format " (default %S): " coding) ": "))
|
||
coding))))
|
||
(or (and new-coding coding)
|
||
(error "Coding system not specified"))
|
||
;; Check it before we encode the region.
|
||
(check-coding-system new-coding)
|
||
(save-restriction
|
||
(narrow-to-region start end)
|
||
(encode-coding-region (point-min) (point-max) coding)
|
||
(decode-coding-region (point-min) (point-max) new-coding)))
|
||
|
||
(defun make-translation-table (&rest args)
|
||
"Make a translation table from arguments.
|
||
A translation table is a char table intended for character
|
||
translation in CCL programs.
|
||
|
||
Each argument is a list of elements of the form (FROM . TO), where FROM
|
||
is a character to be translated to TO.
|
||
|
||
FROM can be a generic character (see `make-char'). In this case, TO is
|
||
a generic character containing the same number of characters, or an
|
||
ordinary character. If FROM and TO are both generic characters, all
|
||
characters belonging to FROM are translated to characters belonging to TO
|
||
without changing their position code(s).
|
||
|
||
The arguments and forms in each argument are processed in the given
|
||
order, and if a previous form already translates TO to some other
|
||
character, say TO-ALT, FROM is also translated to TO-ALT."
|
||
(let ((table (make-char-table 'translation-table))
|
||
revlist)
|
||
(while args
|
||
(let ((elts (car args)))
|
||
(while elts
|
||
(let* ((from (car (car elts)))
|
||
(from-i 0) ; degree of freedom of FROM
|
||
(from-rev (nreverse (split-char from)))
|
||
(to (cdr (car elts)))
|
||
(to-i 0) ; degree of freedom of TO
|
||
(to-rev (nreverse (split-char to))))
|
||
;; Check numbers of heading 0s in FROM-REV and TO-REV.
|
||
(while (eq (car from-rev) 0)
|
||
(setq from-i (1+ from-i) from-rev (cdr from-rev)))
|
||
(while (eq (car to-rev) 0)
|
||
(setq to-i (1+ to-i) to-rev (cdr to-rev)))
|
||
(if (and (/= from-i to-i) (/= to-i 0))
|
||
(error "Invalid character pair (%d . %d)" from to))
|
||
;; If we have already translated TO to TO-ALT, FROM should
|
||
;; also be translated to TO-ALT. But, this is only if TO
|
||
;; is a generic character or TO-ALT is not a generic
|
||
;; character.
|
||
(let ((to-alt (aref table to)))
|
||
(if (and to-alt
|
||
(or (> to-i 0) (not (generic-char-p to-alt))))
|
||
(setq to to-alt)))
|
||
(if (> from-i 0)
|
||
(set-char-table-default table from to)
|
||
(aset table from to))
|
||
;; If we have already translated some chars to FROM, they
|
||
;; should also be translated to TO.
|
||
(let ((l (assq from revlist)))
|
||
(if l
|
||
(let ((ch (car l)))
|
||
(setcar l to)
|
||
(setq l (cdr l))
|
||
(while l
|
||
(aset table ch to)
|
||
(setq l (cdr l)) ))))
|
||
;; Now update REVLIST.
|
||
(let ((l (assq to revlist)))
|
||
(if l
|
||
(setcdr l (cons from (cdr l)))
|
||
(setq revlist (cons (list to from) revlist)))))
|
||
(setq elts (cdr elts))))
|
||
(setq args (cdr args)))
|
||
;; Return TABLE just created.
|
||
table))
|
||
|
||
(defun make-translation-table-from-vector (vec)
|
||
"Make translation table from decoding vector VEC.
|
||
VEC is an array of 256 elements to map unibyte codes to multibyte
|
||
characters. Elements may be nil for undefined code points.
|
||
See also the variable `nonascii-translation-table'."
|
||
(let ((table (make-char-table 'translation-table))
|
||
(rev-table (make-char-table 'translation-table))
|
||
ch)
|
||
(dotimes (i 256)
|
||
(setq ch (aref vec i))
|
||
(when ch
|
||
(aset table i ch)
|
||
(if (>= ch 256)
|
||
(aset rev-table ch i))))
|
||
(set-char-table-extra-slot table 0 rev-table)
|
||
table))
|
||
|
||
(defun define-translation-table (symbol &rest args)
|
||
"Define SYMBOL as the name of translation table made by ARGS.
|
||
This sets up information so that the table can be used for
|
||
translations in a CCL program.
|
||
|
||
If the first element of ARGS is a char-table whose purpose is
|
||
`translation-table', just define SYMBOL to name it. (Note that this
|
||
function does not bind SYMBOL.)
|
||
|
||
Any other ARGS should be suitable as arguments of the function
|
||
`make-translation-table' (which see).
|
||
|
||
This function sets properties `translation-table' and
|
||
`translation-table-id' of SYMBOL to the created table itself and the
|
||
identification number of the table respectively. It also registers
|
||
the table in `translation-table-vector'."
|
||
(let ((table (if (and (char-table-p (car args))
|
||
(eq (char-table-subtype (car args))
|
||
'translation-table))
|
||
(car args)
|
||
(apply 'make-translation-table args)))
|
||
(len (length translation-table-vector))
|
||
(id 0)
|
||
(done nil))
|
||
(put symbol 'translation-table table)
|
||
(while (not done)
|
||
(if (>= id len)
|
||
(setq translation-table-vector
|
||
(vconcat translation-table-vector (make-vector len nil))))
|
||
(let ((slot (aref translation-table-vector id)))
|
||
(if (or (not slot)
|
||
(eq (car slot) symbol))
|
||
(progn
|
||
(aset translation-table-vector id (cons symbol table))
|
||
(setq done t))
|
||
(setq id (1+ id)))))
|
||
(put symbol 'translation-table-id id)
|
||
id))
|
||
|
||
(defun translate-region (start end table)
|
||
"From START to END, translate characters according to TABLE.
|
||
TABLE is a string or a char-table.
|
||
If TABLE is a string, the Nth character in it is the mapping
|
||
for the character with code N.
|
||
If TABLE is a char-table, the element for character N is the mapping
|
||
for the character with code N.
|
||
It returns the number of characters changed."
|
||
(interactive
|
||
(list (region-beginning)
|
||
(region-end)
|
||
(let (table l)
|
||
(dotimes (i (length translation-table-vector))
|
||
(if (consp (aref translation-table-vector i))
|
||
(push (list (symbol-name
|
||
(car (aref translation-table-vector i)))) l)))
|
||
(if (not l)
|
||
(error "No translation table defined"))
|
||
(while (not table)
|
||
(setq table (completing-read "Translation table: " l nil t)))
|
||
(intern table))))
|
||
(if (symbolp table)
|
||
(let ((val (get table 'translation-table)))
|
||
(or (char-table-p val)
|
||
(error "Invalid translation table name: %s" table))
|
||
(setq table val)))
|
||
(translate-region-internal start end table))
|
||
|
||
(put 'with-category-table 'lisp-indent-function 1)
|
||
|
||
(defmacro with-category-table (table &rest body)
|
||
"Evaluate BODY with category table of current buffer set to TABLE.
|
||
The category table of the current buffer is saved, BODY is evaluated,
|
||
then the saved table is restored, even in case of an abnormal exit.
|
||
Value is what BODY returns."
|
||
(let ((old-table (make-symbol "old-table"))
|
||
(old-buffer (make-symbol "old-buffer")))
|
||
`(let ((,old-table (category-table))
|
||
(,old-buffer (current-buffer)))
|
||
(unwind-protect
|
||
(progn
|
||
(set-category-table ,table)
|
||
,@body)
|
||
(save-current-buffer
|
||
(set-buffer ,old-buffer)
|
||
(set-category-table ,old-table))))))
|
||
|
||
(defun define-translation-hash-table (symbol table)
|
||
"Define SYMBOL as the name of the hash translation TABLE for use in CCL.
|
||
|
||
Analogous to `define-translation-table', but updates
|
||
`translation-hash-table-vector' and the table is for use in the CCL
|
||
`lookup-integer' and `lookup-character' functions."
|
||
(unless (and (symbolp symbol)
|
||
(hash-table-p table))
|
||
(error "Bad args to define-translation-hash-table"))
|
||
(let ((len (length translation-hash-table-vector))
|
||
(id 0)
|
||
done)
|
||
(put symbol 'translation-hash-table table)
|
||
(while (not done)
|
||
(if (>= id len)
|
||
(setq translation-hash-table-vector
|
||
(vconcat translation-hash-table-vector [nil])))
|
||
(let ((slot (aref translation-hash-table-vector id)))
|
||
(if (or (not slot)
|
||
(eq (car slot) symbol))
|
||
(progn
|
||
(aset translation-hash-table-vector id (cons symbol table))
|
||
(setq done t))
|
||
(setq id (1+ id)))))
|
||
(put symbol 'translation-hash-table-id id)
|
||
id))
|
||
|
||
;;; Initialize some variables.
|
||
|
||
(put 'use-default-ascent 'char-table-extra-slots 0)
|
||
(setq use-default-ascent (make-char-table 'use-default-ascent))
|
||
(put 'ignore-relative-composition 'char-table-extra-slots 0)
|
||
(setq ignore-relative-composition
|
||
(make-char-table 'ignore-relative-composition))
|
||
|
||
|
||
;;; Built-in auto-coding-functions:
|
||
|
||
(defun sgml-xml-auto-coding-function (size)
|
||
"Determine whether the buffer is XML, and if so, its encoding.
|
||
This function is intended to be added to `auto-coding-functions'."
|
||
(setq size (+ (point) size))
|
||
(when (re-search-forward "\\`[[:space:]\n]*<\\?xml" size t)
|
||
(let ((end (save-excursion
|
||
;; This is a hack.
|
||
(re-search-forward "[\"']\\s-*\\?>" size t))))
|
||
(when end
|
||
(if (re-search-forward "encoding=[\"']\\(.+?\\)[\"']" end t)
|
||
(let* ((match (match-string 1))
|
||
(sym (intern (downcase match))))
|
||
(if (coding-system-p sym)
|
||
sym
|
||
(message "Warning: unknown coding system \"%s\"" match)
|
||
nil))
|
||
'utf-8)))))
|
||
|
||
(defun sgml-html-meta-auto-coding-function (size)
|
||
"If the buffer has an HTML meta tag, use it to determine encoding.
|
||
This function is intended to be added to `auto-coding-functions'."
|
||
(setq size (min (+ (point) size)
|
||
;; Only search forward 10 lines
|
||
(save-excursion
|
||
(forward-line 10)
|
||
(point))))
|
||
(when (and (search-forward "<html" size t)
|
||
(re-search-forward "<meta\\s-+http-equiv=\"content-type\"\\s-+content=\"text/\\sw+;\\s-*charset=\\(.+?\\)\"" size t))
|
||
(let* ((match (match-string 1))
|
||
(sym (intern (downcase match))))
|
||
(if (coding-system-p sym)
|
||
sym
|
||
(message "Warning: unknown coding system \"%s\"" match)
|
||
nil))))
|
||
|
||
;;;
|
||
(provide 'mule)
|
||
|
||
;;; arch-tag: 9aebaa6e-0e8a-40a9-b857-cb5d04a39e7c
|
||
;;; mule.el ends here
|