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[xemacs-hg @ 2002-03-21 07:29:57 by ben] chartab.c: Fix bugs in implementation and doc strings. config.h.in: Add foo_checking_assert_at_line() macros. Not clear whether these are actually useful, though; I'll take them out if not. symsinit.h, emacs.c: Some improvements to the timeline. Rearrange a bit the init calls. Add call for reinit_vars_of_object_mswindows() and declare in symsinit.h. event-Xt.c, event-gtk.c, event-msw.c, event-stream.c, event-tty.c, events.c, events.h: Introduce new event methods for printing, comparing, and hashing magic events, to avoid event-type-specific stuff that had crept into events.c. (And was crashing, since the channel in MS Windows magic events may be nil.) Implement the methods in event-{tty,gtk,Xt,mswindows}.c. Make wrapping functions event_stream_{compare,hash,format}_magic_event() to check if everything's OK and call the actual callback. Fix events.c to use the new methods. Add a new event-stream-operation EVENT_STREAM_NOTHING -- event stream not actually required to be able to do anything, just be open. (#### This event-stream-operation stuff needs to be rethought.) Fixed describe_event() in event-Xt.c to print its output to a stream, not always to stderr, so it can be used elsewhere. (e.g. in print-event when a magic event is encountered?) lisp.h, lrecord.h: Define new assert_at_line(), for use in asserts inside of inline functions. The assert will report the line and file of the inline function, which is almost certainly not what you want as it's useless. what you want to see is where the pseudo-macro was called from. So, when error-checking is on, we pass in the line and file into the macros, for accurate printout using assert_at_line(). Happens only when error-checking is defined so doesn't slow down non-error-checking builds. Fix XCHAR, XINT, XCHAR_OR_INT, XFOO, and wrap_foo() in this fashion. lstream.c, lstream.h: Add resizing_buffer_to_lisp_string(). objects-gtk.c: Fix typo. objects-msw.c: Implement a smarter way of determining whether a font matches a charset. Formerly we just looked at the "script" element of the font spec, converted it to a code page, and compared it with the code page derived from the charset. Now, as well as doing this, we ask the font for the list of unicode ranges it supports, see what range the charset falls into (#### bogus! need to do this char-by-char), and see if any of the font's supported ranges include the charset's range. also do some caching in Vfont_signature_data of previous inquiries. charset.h, text.c, mule-charset.c: New fun; extracted out of Fmake_char() and declare prototype in charset.h. text.h: introduce assert_by_line() to make REP_BYTES_BY_FIRST_BYTE report the file and line more accurately in an assertion failure. unicode.c: make non-static (used in objects-msw.c), declare in charset.h. mule\mule-category.el: Start implementing a category API compatible with FSF. Not there yet. We need improvements to char-tables. mule\mule-charset.el: Copy translation table code from FSF 21.1 and fix up. Eventually we'll have them in XEmacs. (used in ccl) Not here quite yet, and we need some improvements to char-tables. mule\cyril-util.el, mule\cyrillic.el, mule\devan-util.el, mule\ethio-util.el, mule\korea-util.el, mule\mule-tty-init.el, mule\tibet-util.el, mule\viet-util.el, mule\vietnamese.el: Fix numerous compilation warnings. Fix up code related to translation tables and other types of char-tables. menubar-items.el: Move the frame commands from the View menu to the File menu, to be consistent with how most other programs do things. Move less-used revert/recover items to a submenu. Make "recover" not prompt for a file, but recover the current buffer. TODO.ben-mule-21-5: Create bug list for latest problems.
author ben
date Thu, 21 Mar 2002 07:31:30 +0000
parents 2923009caf47
children 308d34e9f07d
line wrap: on
line source

;;; tibet-util.el --- utilities for Tibetan   -*- coding: iso-2022-7bit; -*-

;; Copyright (C) 1995 Electrotechnical Laboratory, JAPAN.
;; Licensed to the Free Software Foundation.

;; Keywords: multilingual, Tibetan

;; This file is part of XEmacs.

;; XEmacs is free software; you can redistribute it and/or modify it
;; under the terms of the GNU General Public License as published by
;; the Free Software Foundation; either version 2, or (at your option)
;; any later version.

;; XEmacs is distributed in the hope that it will be useful, but
;; WITHOUT ANY WARRANTY; without even the implied warranty of
;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
;; General Public License for more details.

;; You should have received a copy of the GNU General Public License
;; along with XEmacs; see the file COPYING.  If not, write to the Free
;; Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
;; 02111-1307, USA.

;;; Synched up with: Emacs 21.1 (language/tibet-util.el).

;; Author: Toru TOMABECHI, <Toru.Tomabechi@orient.unil.ch>

;; Created: Feb. 17. 1997

;;; History:
;; 1997.03.13 Modification in treatment of text properties;
;;            Support for some special signs and punctuations.
;; 1999.10.25 Modification for a new composition way by K.Handa.

;;; Commentary:

;;; Code:

;;;###autoload
(defun tibetan-char-p (ch)
  "Check if char CH is Tibetan character.
Returns non-nil if CH is Tibetan. Otherwise, returns nil."
  (memq (char-charset ch) '(tibetan tibetan-1-column)))

;;; Functions for Tibetan <-> Tibetan-transcription.

;;;###autoload
(defun tibetan-tibetan-to-transcription (str)
  "Transcribe Tibetan string STR and return the corresponding Roman string."
  (let (;; Accumulate transcriptions here in reverse order.
	(trans nil)
	(len (length str))
	(i 0)
	ch this-trans)
    (while (< i len)
      (let ((idx (string-match tibetan-precomposition-rule-regexp str i)))
	(if (eq idx i)
	    ;; Ith character and the followings matches precomposable
	    ;; Tibetan sequence.
	    (setq i (match-end 0)
		  this-trans
		  (car (rassoc
			(cdr (assoc (match-string 0 str)
				    tibetan-precomposition-rule-alist))
			tibetan-precomposed-transcription-alist)))
	  (setq ch (substring str i (1+ i))
		i (1+ i)
		this-trans
		(car (or (rassoc ch tibetan-consonant-transcription-alist)
			 (rassoc ch tibetan-vowel-transcription-alist)
			 (rassoc ch tibetan-subjoined-transcription-alist)))))
	(setq trans (cons this-trans trans))))
    (apply 'concat (nreverse trans))))

;;;###autoload
(defun tibetan-transcription-to-tibetan (str)
  "Convert Tibetan Roman string STR to Tibetan character string.
The returned string has no composition information."
  (let (;; Case is significant.
	(case-fold-search nil)
	(idx 0)
	;; Accumulate Tibetan strings here in reverse order.
	(t-str-list nil)
	i subtrans)
    (while (setq i (string-match tibetan-regexp str idx))
      (if (< idx i)
	  ;; STR contains a pattern that doesn't match Tibetan
	  ;; transcription.  Include the pattern as is.
	  (setq t-str-list (cons (substring str idx i) t-str-list)))
      (setq subtrans (match-string 0 str)
	    idx (match-end 0))
      (let ((t-char (cdr (assoc subtrans
				tibetan-precomposed-transcription-alist))))
	(if t-char
	    ;; SUBTRANS corresponds to a transcription for
	    ;; precomposable Tibetan sequence.
	    (setq t-char (car (rassoc t-char
				      tibetan-precomposition-rule-alist)))
	  (setq t-char
		(cdr
		 (or (assoc subtrans tibetan-consonant-transcription-alist)
		     (assoc subtrans tibetan-vowel-transcription-alist)
		     (assoc subtrans tibetan-modifier-transcription-alist)
		     (assoc subtrans tibetan-subjoined-transcription-alist)))))
	(setq t-str-list (cons t-char t-str-list))))
    (if (< idx (length str))
	(setq t-str-list (cons (substring str idx) t-str-list)))
    (apply 'concat (nreverse t-str-list))))

;;;
;;; Functions for composing/decomposing Tibetan sequence.
;;;
;;; A Tibetan syllable is typically structured as follows:
;;;
;;;      [Prefix] C [C+] V [M] [Suffix [Post suffix]]
;;;
;;; where C's are all vertically stacked, V appears below or above
;;; consonant cluster and M is always put above the C[C+]V combination.
;;; (Sanskrit visarga, though it is a vowel modifier, is considered
;;;  to be a punctuation.)
;;;
;;; Here are examples of the words "bsgrubs" and "hfauM"
;;;
;;;            4$(7"70"714%qx!"U0"G###C"U14"70"714"G0"G1(B            4$(7"Hx!"Rx!"Ur'"_0"H"R"U"_1(B
;;;
;;;                             M
;;;             b s b s         h
;;;               g             fa
;;;               r             u
;;;               u
;;;
;;; Consonants `'' ($(7"A(B), `w' ($(7">(B), `y' ($(7"B(B), `r' ($(7"C(B) take special
;;; forms when they are used as subjoined consonant.  Consonant `r'
;;; takes another special form when used as superjoined in such a case
;;; as "rka", while it does not change its form when conjoined with
;;; subjoined `'', `w' or `y' as in "rwa", "rya".

;; Append a proper composition rule and glyph to COMPONENTS to compose
;; CHAR with a composition that has COMPONENTS.

(defun tibetan-add-components (components char)
  (let ((last (last components))
	(stack-upper '(tc . bc))
	(stack-under '(bc . tc))
	rule comp-vowel ;tmp
	)
    ;; Special treatment for 'a chung.
    ;; If 'a follows a consonant, turn it into the subjoined form.
    ;; * Disabled by Tomabechi 2000/06/09 *
    ;; Because in Unicode, $(7"A(B may follow directly a consonant without
    ;; any intervening vowel, as in 4$(7"90"914""0"""Q14"A0"A1!;(B=4$(7"90"91(B 4$(7""0""1(B 4$(7"A0"A1(B not 4$(7"90"91(B 4$(7""0""1(B $(7"Q(B 4$(7"A0"A1(B  
    ;;(if (and (= char ?$(7"A(B)
    ;;	     (char-in-category-p (car last) ?0))
    ;;	(setq char ?$(7"R(B)) ;; modified for new font by Tomabechi 1999/12/10

    ;; Composite vowel signs are decomposed before being added
    ;; Added by Tomabechi 2000/06/08
    (if (memq char '(?$(7"T(B ?$(7"V(B ?$(7"W(B ?$(7"X(B ?$(7"Y(B ?$(7"Z(B ?$(7"b(B))
	(setq comp-vowel
	      (copy-sequence
	       (cddr (assoc (char-to-string char)
			    tibetan-composite-vowel-alist)))
	      char
	      (cadr (assoc (char-to-string char)
			   tibetan-composite-vowel-alist))))
    (cond
     ;; Compose upper vowel sign vertically over.
     ((char-in-category-p char ?2)
      (setq rule stack-upper))

     ;; Compose lower vowel sign vertically under.
     ((char-in-category-p char ?3)
      (if (eq char ?$(7"Q(B)		;; `$(7"Q(B' should not visible when composed.
	  (setq rule nil)
	(setq rule stack-under)))
     ;; Transform ra-mgo (superscribed r) if followed by a subjoined
     ;; consonant other than w, ', y, r.
     ((and (= (car last) ?$(7"C(B)
	   (not (memq char '(?$(7#>(B ?$(7"R(B ?$(7#B(B ?$(7#C(B))))
      (setcar last ?$(7!"(B) ;; modified for newfont by Tomabechi 1999/12/10
      (setq rule stack-under))
     ;; Transform initial base consonant if followed by a subjoined
     ;; consonant but 'a.
     (t
      (let ((laststr (char-to-string (car last))))
	(if (and (/= char ?$(7"R(B) ;; modified for new font by Tomabechi
		 (string-match "[$(7"!(B-$(7"="?"@"D(B-$(7"J"K(B]" laststr))
	    (setcar last (string-to-char
			  (cdr (assoc (char-to-string (car last))
				      tibetan-base-to-subjoined-alist)))))
	(setq rule stack-under))))

    (if rule
	(setcdr last (list rule char)))
    ;; Added by Tomabechi 2000/06/08
    (if comp-vowel
	(nconc last comp-vowel))
    ))

;;;###autoload
(defun tibetan-compose-string (str)
  "Compose Tibetan string STR."
  (let ((idx 0))
    ;; `$(7"A(B' is included in the pattern for subjoined consonants
    ;; because we treat it specially in tibetan-add-components.
    ;; (This feature is removed by Tomabechi 2000/06/08)
    (while (setq idx (string-match tibetan-composable-pattern str idx))
      (let ((from idx)
	    (to (match-end 0))
	    components)
	(if (eq (string-match tibetan-precomposition-rule-regexp str idx) idx)
	    (setq idx (match-end 0)
		  components
		  (list (string-to-char
			 (cdr
			  (assoc (match-string 0 str)
				 tibetan-precomposition-rule-alist)))))
	  (setq components (list (aref str idx))
		idx (1+ idx)))
	(while (< idx to)
	  (tibetan-add-components components (aref str idx))
	  (setq idx (1+ idx)))
	(compose-string str from to components))))
  str)

;;;###autoload
(defun tibetan-compose-region (beg end)
  "Compose Tibetan text the region BEG and END."
  (interactive "r")
  ;(let (str result chars)
    (save-excursion
      (save-restriction
	(narrow-to-region beg end)
	(goto-char (point-min))
	;; `$(7"A(B' is included in the pattern for subjoined consonants
	;; because we treat it specially in tibetan-add-components.
	;; (This feature is removed by Tomabechi 2000/06/08)
	(while (re-search-forward tibetan-composable-pattern nil t)
	  (let ((from (match-beginning 0))
		(to (match-end 0))
		components)
	    (goto-char from)
	    (if (looking-at tibetan-precomposition-rule-regexp)
		(progn
		  (setq components
			(list (string-to-char
			       (cdr
				(assoc (match-string 0)
				       tibetan-precomposition-rule-alist)))))
		  (goto-char (match-end 0)))
	      (setq components (list (char-after from)))
	      (forward-char 1))
	    (while (< (point) to)
	      (tibetan-add-components components (following-char))
	      (forward-char 1))
	    (compose-region from to components)))))
    ;)
    )

(defvar tibetan-decompose-precomposition-alist
  (mapcar (function (lambda (x) (cons (string-to-char (cdr x)) (car x))))
	  tibetan-precomposition-rule-alist))

;;;###autoload
(defun tibetan-decompose-region (from to)
  "Decompose Tibetan text in the region FROM and TO.
This is different from decompose-region because precomposed Tibetan characters
are decomposed into normal Tiebtan character sequences."
  (interactive "r")
  (save-restriction
    (narrow-to-region from to)
    (decompose-region from to)
    (goto-char from)
    (while (not (eobp))
      (let* ((char (following-char))
	     (slot (assq char tibetan-decompose-precomposition-alist)))
	(if slot
	    (progn
	      (delete-char 1)
	      (insert (cdr slot)))
	  (forward-char 1))))))


;;;###autoload
(defun tibetan-decompose-string (str)
  "Decompose Tibetan string STR.
This is different from decompose-string because precomposed Tibetan characters
are decomposed into normal Tiebtan character sequences."
  (let ((new "")
	(len (length str))
	(idx 0)
	char slot)
    (while (< idx len)
      (setq char (aref str idx)
	    slot (assq (aref str idx) tibetan-decompose-precomposition-alist)
	    new (concat new (if slot (cdr slot) (char-to-string char)))
	    idx (1+ idx)))
    new))

;;;###autoload
(defun tibetan-composition-function (from to pattern &optional string)
  (if string
      (tibetan-compose-string string)
    (tibetan-compose-region from to))
  (- to from))

;;;
;;; This variable is used to avoid repeated decomposition.
;;;
(setq-default tibetan-decomposed nil)

;;;###autoload
(defun tibetan-decompose-buffer ()
  "Decomposes Tibetan characters in the buffer into their components.
See also the documentation of the function `tibetan-decompose-region'."
  (interactive)
  (make-local-variable 'tibetan-decomposed)
  (cond ((not tibetan-decomposed)
	 (tibetan-decompose-region (point-min) (point-max))
	 (setq tibetan-decomposed t))))

;;;###autoload
(defun tibetan-compose-buffer ()
  "Composes Tibetan character components in the buffer.
See also docstring of the function tibetan-compose-region."
  (interactive)
  (make-local-variable 'tibetan-decomposed)
  (tibetan-compose-region (point-min) (point-max))
  (setq tibetan-decomposed nil))

;;;###autoload
(defun tibetan-post-read-conversion (len)
  (save-excursion
    (save-restriction
      (let ((buffer-modified-p (buffer-modified-p)))
	(narrow-to-region (point) (+ (point) len))
	(tibetan-compose-region (point-min) (point-max))
	(set-buffer-modified-p buffer-modified-p)
	(make-local-variable 'tibetan-decomposed)
	(setq tibetan-decomposed nil)
	(- (point-max) (point-min))))))


;;;###autoload
(defun tibetan-pre-write-conversion (from to)
  (setq tibetan-decomposed-temp tibetan-decomposed)
  (let ((old-buf (current-buffer)))
    (set-buffer (generate-new-buffer " *temp*"))
    (if (stringp from)
	(insert from)
      (insert-buffer-substring old-buf from to))
    (if (not tibetan-decomposed-temp)
	(tibetan-decompose-region (point-min) (point-max)))
    ;; Should return nil as annotations.
    nil))

(provide 'tibet-util)

;;; tibet-util.el ends here