;;; tibet-util.el --- Support for inputting Tibetan characters ;; Copyright (C) 1995 Electrotechnical Laboratory, JAPAN. ;; Licensed to the Free Software Foundation. ;; Keywords: multilingual, Tibetan ;; This file is part of GNU Emacs. ;; GNU Emacs 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. ;; GNU Emacs is distributed in the hope that it will be useful, ;; but WITHOUT ANY WARRANTY; without even the implied warranty of ;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ;; GNU General Public License for more details. ;; You should have received a copy of the GNU General Public License ;; along with GNU Emacs; see the file COPYING. If not, write to the ;; Free Software Foundation, Inc., 59 Temple Place - Suite 330, ;; Boston, MA 02111-1307, USA. ;; Author: Toru TOMABECHI, ;; Created: Feb. 17. 1997 ;; History: ;; 1997.03.13 Modification in treatment of text properties; ;; Support for some special signs and punctuations. ;;; Code: ;;;###autoload (defun setup-tibetan-environment () (interactive) (setup-english-environment) (setq coding-category-iso-8-2 'tibetan) (setq-default buffer-file-coding-system 'iso-2022-7) (setq default-input-method "quail-tibetan-wylie") (setq sendmail-coding-system 'iso-2022-7 rmail-file-coding-system 'iso-2022-7)) ;;; This function makes a transcription string for ;;; re-composing a character. ;;;###autoload (defun tibetan-tibetan-to-transcription (ch) "Return a transcription string of Tibetan character CH" (let ((char ch) (l (append tibetan-consonant-transcription-alist tibetan-vowel-transcription-alist tibetan-precomposed-transcription-alist tibetan-subjoined-transcription-alist)) decomp-l t-char trans str result) (if (eq (char-charset char) 'composition) (setq decomp-l (decompose-composite-char char 'list nil)) (setq decomp-l (cons char nil))) (setq str "") (while decomp-l (setq t-char (char-to-string (car decomp-l))) (setq trans (car (rassoc t-char l))) (setq str (concat str trans)) (setq decomp-l (cdr decomp-l))) (setq result str))) ;;; This function translates transcription string into a string of ;;; Tibetan characters. ;;;###autoload (defun tibetan-transcription-to-tibetan (transcription) "Translate Roman transcription into a sequence of Tibetan components." (let ((trans transcription) (lp tibetan-precomposed-transcription-alist) (l (append tibetan-consonant-transcription-alist tibetan-vowel-transcription-alist tibetan-subjoined-transcription-alist)) (case-fold-search nil) substr t-char p-str t-str result) (setq substr "") (setq p-str "") (setq t-str "") (cond ((string-match tibetan-precomposed-regexp trans) (setq substr (substring trans (match-beginning 0) (match-end 0))) (setq trans (substring trans (match-end 0))) (setq t-char (cdr (assoc substr lp))) (setq p-str t-char))) (while (string-match tibetan-regexp trans) (setq substr (substring trans (match-beginning 0) (match-end 0))) (setq trans (substring trans 0 (match-beginning 0))) (setq t-char (cdr (assoc substr l))) (setq t-str (concat t-char t-str))) (setq result (concat p-str t-str)))) ;;; ;;; Functions for composing Tibetan character. ;;; ;;; 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 "h'uM" ;;; ;;; $(7"72%q`"U1"7"G(B 2$(7"H`#A`"U0"_1(B ;;; ;;; M ;;; b s b s h ;;; g ' ;;; r u ;;; u ;;; ;;; Consonants ''', 'w', 'y', 'r' take special forms when they are used ;;; as subjoined consonant. Consonant 'r' takes another special form ;;; when used as superjoined as in "rka", and so on, while it does not ;;; change its form when conjoined with subjoined ''', 'w' or 'y' ;;; as in "rwa", "rya". ;;; ;;; ;;; As a Tibetan input method should avoid using conversion key, ;;; we use a "Tibetan glyph -> transcription -> Tibetan glyph" ;;; translation at each key input. ;;; ;;; 1st stage - Check the preceding char. ;;; If the preceding char is Tibetan and composable, then ;;; ;;; 2nd stage - Translate the preceding char into transcription ;;; ;;; 3rd stage - Concatenate the transcription of preceding char ;;; and the current input key. ;;; ;;; 4th stage - Re-translate the concatenated transcription into ;;; a sequence of Tibetan letters. ;;; ;;; 5th stage - Convert leading consonants into one single precomposed char ;;; if possible. ;;; ;;; 6th stage - Compose the consonants into one composite glyph. ;;; ;;; (If the current input is a vowel sign or a vowel modifier, ;;; then it is composed with preceding char without checking ;;; except when the preceding char is a punctuation or a digit.) ;;; ;;; ;;; This function is used to avoid composition ;;; between Tibetan and non-Tibetan chars. ;;;###autoload (defun tibetan-char-examin (ch) "Check if char CH is Tibetan character. Returns non-nil if CH is Tibetan. Otherwise, returns nil." (let ((chr ch)) (if (eq (char-charset chr) 'composition) (string-match "\\cq+" (decompose-composite-char chr)) (string-match "\\cq" (char-to-string chr))))) ;;; This is used to avoid composition between digits, signs, punctuations ;;; and word constituents. ;;;###autoload (defun tibetan-composable-examin (ch) "Check if Tibetan char CH is composable. Returns t if CH is a composable char \(i.e. neither punctuation nor digit)." (let ((chr ch) chstr) (if (eq (char-charset chr) 'composition) (setq chstr (decompose-composite-char chr)) (setq chstr (char-to-string chr))) (not (string-match "[$(7!1(B-$(7!o"f$(8!;!=!?!@!A!D"`(B]" chstr)))) ;;; This checks if a character to be composed contains already ;;; one or more vowels / vowel modifiers. If the character contains ;;; them, then no more consonant should be added. ;;;###autoload (defun tibetan-complete-char-examin (ch) "Check if composite char CH contains one or more vowel/vowel modifiers. Returns non-nil, if CH contains vowel/vowel modifiers." (let ((chr ch) chstr) (if (eq (char-charset chr) 'composition) (setq chstr (decompose-composite-char chr)) (setq chstr (char-to-string chr))) (string-match "[$(7!g!e"Q(B-$(7"^"_(B-$(7"l(B]" chstr))) ;;; This function makes a composite character consisting of two characters ;;; vertically stacked. ;;;###autoload (defun tibetan-vertical-stacking (first second upward) "Return a vertically stacked composite char consisting of FIRST and SECOND. If UPWARD is non-nil, then SECOND is put above FIRST." (if upward (compose-chars first '(tc . bc) second) (compose-chars first '(bc . tc) second))) ;;; This function makes a composite char from a string. ;;; Note that this function returns a string, not a char. ;;;###autoload (defun tibetan-compose-string (str) "Compose a sequence of Tibetan character components into a composite character. Returns a string containing a composite character." (let ((t-str str) f-str s-str f-ch s-ch rest composed result) ;;Make sure no redundant vowel sign is present. (if (string-match "^\\(.+\\)\\($(7"Q(B\\)\\([$(7!I!g!e"Q(B-$(7"^"_(B-$(7"l(B]\\)" t-str) (setq t-str (concat (match-string 1 t-str) (match-string 3 t-str)))) (if (string-match "^\\(.+\\)\\([$(7!I!g!e"Q(B-$(7"^"_(B-$(7"l(B]\\)\\($(7"Q(B\\)" t-str) (setq t-str (concat (match-string 1 t-str) (match-string 2 t-str)))) ;;Start conversion. (setq result "") ;; Consecutive base/precomposed consonants are reduced to the last one. (while (string-match "^\\([$(7"!(B-$(7"J$!(B-$(7%u(B]\\)\\([$(7"!(B-$(7"@"B(B-$(7"J$!(B-$(7%u(B].*\\)" t-str) (setq result (concat result (match-string 1 t-str))) (setq t-str (match-string 2 t-str))) ;; Vowel/vowel modifier, subjoined consonants are added one by one ;; to the preceding element. (while (string-match "^\\(.\\)\\([$(7"A#!(B-$(7#J!I!g!e"Q(B-$(7"^"_(B-$(7"l(B]\\)\\(.*\\)" t-str) (setq f-str (match-string 1 t-str)) (setq f-ch (string-to-char f-str)) (setq s-str (match-string 2 t-str)) ;;Special treatment for 'a chung. ;;If 'a follows a consonant, then turned into its subjoined form. (if (and (string-match "$(7"A(B" s-str) (not (tibetan-complete-char-examin f-ch))) (setq s-str "$(7#A(B")) (setq s-ch (string-to-char s-str)) (setq rest (match-string 3 t-str)) (cond ((string-match "\\c2" s-str);; upper vowel sign (setq composed (tibetan-vertical-stacking f-ch s-ch t))) ((string-match "\\c3" s-str);; lower vowel sign (setq composed (tibetan-vertical-stacking f-ch s-ch nil))) ;;Automatic conversion of ra-mgo (superscribed r). ;;'r' is converted if followed by a subjoined consonant ;;other than w, ', y, r. ((and (string-match "$(7"C(B" f-str) (not (string-match "[$(7#>#A#B#C(B]" s-str))) (setq f-ch ?$(7#P(B) (setq composed (tibetan-vertical-stacking f-ch s-ch nil))) ((not (tibetan-complete-char-examin f-ch)) ;;Initial base consonant is tranformed, if followed by ;;a subjoined consonant, except when it is followed ;;by a subscribed 'a. (if (and (string-match "[$(7"!(B-$(7"="?"@"D(B-$(7"J(B]" f-str) (not (string-match "$(7#A(B" s-str))) (setq f-ch (string-to-char (cdr (assoc f-str tibetan-base-to-subjoined-alist))))) (setq composed (tibetan-vertical-stacking f-ch s-ch nil))) (t (setq composed s-str) (setq result (concat result f-str)))) (setq t-str (concat composed rest))) (setq result (concat result t-str)))) ;;; quail <-> conversion interface. (defun tibetan-composition (pc key) "Interface to quail input method. Takes two arguments: char PC and string KEY, where PC is the preceding character to be composed with current input KEY. Returns a string which is the result of composition." (let (trans cur-ch t-str result) ;; Make a tibetan character corresponding to current input key. (setq cur-ch (tibetan-transcription-to-tibetan key)) ;; Check if the preceding character is Tibetan and composable. (cond ((and (tibetan-char-examin pc) (tibetan-composable-examin pc)) ;;If Tibetan char corresponding to the current input key exists, (cond (cur-ch ;; Then, ;; Convert the preceding character into transcription, ;; and concatenate it with the current input key, (setq trans (tibetan-tibetan-to-transcription pc)) (setq trans (concat trans key)) ;; Concatenated transcription is converted to ;; a sequence of Tibetan characters, (setq t-str (tibetan-transcription-to-tibetan trans)) ;; And it is composed into a composite character. (setq result (tibetan-compose-string t-str))) ;; Else, (t ;; Simply concatenate the preceding character and ;; the current input key. (setq result (char-to-string pc)) (setq result (concat result key))))) ;; If the preceding char is not Tibetan or not composable, (t ;; pc = 0 means the point is at the beginning of buffer. (if (not (eq pc 0)) (setq result (char-to-string pc))) (if cur-ch (setq result (concat result cur-ch)) (setq result (concat result key)))) ))) ;;;###autoload (defun tibetan-decompose-region (beg end) "Decompose Tibetan characters in the region BEG END into their components. Components are: base and subjoined consonants, vowel signs, vowel modifiers. One column punctuations are converted to their 2 column equivalents." (interactive "r") (let (ch-str ch-beg ch-end) (save-excursion (save-restriction (narrow-to-region beg end) (goto-char (point-min)) ;; \\cq = Tibetan character (while (re-search-forward "\\cq" nil t) (setq ch-str (buffer-substring-no-properties (match-beginning 0) (match-end 0))) ;; Save the points. Maybe, using save-match-data is preferable. ;; But in order not to lose the trace(because the body is too long), ;; we save the points in variables. (setq ch-beg (match-beginning 0)) (setq ch-end (match-end 0)) ;; Here starts the decomposition. (cond ;; 1 column punctuations -> 2 column equivalent ((string-match "[$(8!D!;!=!?!@!A"`(B]" ch-str) (setq ch-str (car (rassoc ch-str tibetan-precomposition-rule-alist)))) ;; Decomposition of composite character. ((eq (char-charset (string-to-char ch-str)) 'composition) ;; Make a string which consists of a sequence of ;; components. (setq ch-str (decompose-composite-char (string-to-char ch-str))) ;; Converts nyi zla into base elements. (cond ((string= ch-str "$(7#R#S#S#S(B") (setq ch-str "$(7!4!5!5(B")) ((string= ch-str "$(7#R#S#S(B") (setq ch-str "$(7!4!5(B")) ((string= ch-str "$(7#R#S!I(B") (setq ch-str "$(7!6(B")) ((string= ch-str "$(7#R#S(B") (setq ch-str "$(7!4(B"))))) ;; If the sequence of components starts with a subjoined consonants, (if (string-match "^\\([$(7#!(B-$(7#J(B]\\)\\(.*\\)$" ch-str) ;; then the first components is converted to its base form. (setq ch-str (concat (car (rassoc (match-string 1 ch-str) tibetan-base-to-subjoined-alist)) (match-string 2 ch-str)))) ;; If the sequence of components starts with a precomposed character, (if (string-match "^\\([$(7$!(B-$(7%u(B]\\)\\(.*\\)$" ch-str) ;; then it is converted into a sequence of components. (setq ch-str (concat (car (rassoc (match-string 1 ch-str) tibetan-precomposition-rule-alist)) (match-string 2 ch-str)))) ;; Special treatment for superscribed r. (if (string-match "^$(7#P(B\\(.*\\)$" ch-str) (setq ch-str (concat "$(7"C(B" (match-string 1 ch-str)))) ;; Finally, the result of decomposition is inserted, and ;; the composite character is deleted. (insert-and-inherit ch-str) (delete-region ch-beg ch-end)))))) ;;;###autoload (defun tibetan-compose-region (beg end) "Make composite chars from Tibetan character components in the region BEG END. Two column punctuations are converted to their 1 column equivalents." (interactive "r") (let (str result) (save-excursion (save-restriction (narrow-to-region beg end) (goto-char (point-min)) ;; First, sequence of components which has a precomposed equivalent ;; is converted. (while (re-search-forward tibetan-precomposition-rule-regexp nil t) (setq str (buffer-substring-no-properties (match-beginning 0) (match-end 0))) (save-match-data (insert-and-inherit (cdr (assoc str tibetan-precomposition-rule-alist)))) (delete-region (match-beginning 0) (match-end 0))) (goto-char (point-min)) ;; Then, composable elements are put into a composite character. (while (re-search-forward "[$(7"!(B-$(7"J$!(B-$(7%u(B]+[$(7#!(B-$(7#J!I!g!e"Q(B-$(7"^"_(B-$(7"l(B]+" nil t) (setq str (buffer-substring-no-properties (match-beginning 0) (match-end 0))) (save-match-data (setq result (tibetan-compose-string str)) (insert-and-inherit result)) (delete-region (match-beginning 0) (match-end 0))))))) ;;; ;;; 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 docstring 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) (point-max)))) (make-local-variable 'tibetan-decomposed) (setq tibetan-decomposed nil)) ;;;###autoload (defun tibetan-pre-write-conversion (from to) (setq tibetan-decomposed-temp tibetan-decomposed) (let ((old-buf (current-buffer)) (work-buf (get-buffer-create " *tibetan-work*"))) (set-buffer work-buf) (erase-buffer) (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) ;;; language/tibet-util.el ends here.