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authorKenichi Handa <handa@m17n.org>1999-12-15 00:50:18 +0000
committerKenichi Handa <handa@m17n.org>1999-12-15 00:50:18 +0000
commit3bdf8898b00a8b3fc0b3a275856b0ae28d130cc0 (patch)
tree864b23d60d9708836c2ac5875599184f3fdec365 /lisp/language/tibet-util.el
parentc27737aa242649f1c95ec8c7020c578b92b817c1 (diff)
downloademacs-3bdf8898b00a8b3fc0b3a275856b0ae28d130cc0.tar.gz
Most functions rewritten.
(tibetan-char-p): Renamed from tibetan-char-examin. (tibetan-composable-examin) (tibetan-complete-char-examin) (tibetan-vertical-stacking) (tibetan-composition): Deleted. (tibetan-add-components): New function. (tibetan-composition-function): New function.
Diffstat (limited to 'lisp/language/tibet-util.el')
-rw-r--r--lisp/language/tibet-util.el510
1 files changed, 173 insertions, 337 deletions
diff --git a/lisp/language/tibet-util.el b/lisp/language/tibet-util.el
index df2a0261212..9fdf134ef7e 100644
--- a/lisp/language/tibet-util.el
+++ b/lisp/language/tibet-util.el
@@ -29,6 +29,7 @@
;; 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.
;;; Code:
@@ -37,61 +38,79 @@
(interactive)
(set-language-environment "Tibetan"))
-;;; This function makes a transcription string for
-;;; re-composing a character.
+;;;###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 (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.
+(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-alist 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 (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))
+(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)
- 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))))
-
+ (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 Tibetan character.
+;;; Functions for composing/decomposing Tibetan sequence.
;;;
;;; A Tibetan syllable is typically structured as follows:
;;;
@@ -104,7 +123,7 @@
;;;
;;; Here are examples of the words "bsgrubs" and "h'uM"
;;;
-;;; $(7"7(B2$(7%q`"U(B1$(7"7"G(B 2$(7"H`#A`"U0"_(B1
+;;; $(7"7"G###C"U"7"G(B $(7"H"A"U"_(B
;;;
;;; M
;;; b s b s h
@@ -112,305 +131,122 @@
;;; 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."
- (let (l rule)
- (if (cmpcharp first)
- (setq l (decompose-composite-char first 'list t))
- (setq l (list first)))
- (if upward
- (setq rule (list '(tc . bc)))
- (setq rule (list '(bc . tc))))
- (setq l (append l rule (list second)))
- (apply 'compose-chars l)))
-
-;;; This function makes a composite char from a string.
-;;; Note that this function returns a string, not a char.
+;;; 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)
+ ;; Special treatment for 'a chung.
+ ;; If 'a follows a consonant, turn it into the subjoined form.
+ (if (and (= char ?$(7"A(B)
+ (aref (char-category-set (car last)) ?0))
+ (setq char ?$(7#A(B))
+
+ (cond
+ ;; Compose upper vowel sign vertically over.
+ ((aref (char-category-set char) ?2)
+ (setq rule stack-upper))
+
+ ;; Compose lower vowel sign vertically under.
+ ((aref (char-category-set char) ?3)
+ (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 ?$(7#A(B ?$(7#B(B ?$(7#C(B))))
+ (setcar last ?$(7#P(B)
+ (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 ?$(7#A(B)
+ (string-match "[$(7"!(B-$(7"="?"@"D(B-$(7"J(B]" laststr))
+ (setcar last (string-to-char
+ (cdr (assoc (char-to-string (car last))
+ tibetan-base-to-subjoined-alist)))))
+ (setq rule stack-under))))
+
+ (setcdr last (list rule 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.
-
-;;;###autoload
-(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))))
- )))
-
+ "Compose Tibetan string STR."
+ (let ((idx 0))
+ ;; `$(7"A(B' is included in the pattern for subjoined consonants
+ ;; because we treat it specially in tibetan-add-components.
+ (while (setq idx (string-match tibetan-composable-pattern str idx))
+ (let ((from idx)
+ (to (match-end 0))
+ components)
+ (if (eq (string-match tibetan-precomposition-rule-regexp str idx) idx)
+ (setq idx (match-end 0)
+ components
+ (list (string-to-char
+ (cdr
+ (assoc (match-string 0 str)
+ tibetan-precomposition-rule-alist)))))
+ (setq components (list (aref str idx))
+ idx (1+ idx)))
+ (while (< idx to)
+ (tibetan-add-components components (aref str idx))
+ (setq idx (1+ idx)))
+ (compose-string str from to components))))
+ str)
;;;###autoload
-(defun tibetan-decompose-region (beg end)
- "Decompose Tibetan characters in the region BEG END into their components.
-Components are: base and subjoined consonants, vowel signs, vowel modifiers.
-One column punctuations are converted to their 2 column equivalents."
+(defun tibetan-compose-region (beg end)
+ "Compose Tibetan text the region BEG and END."
(interactive "r")
- (let (ch-str ch-beg ch-end)
+ (let (str result chars)
(save-excursion
(save-restriction
(narrow-to-region beg end)
(goto-char (point-min))
- ;; \\cq = Tibetan character
- (while (re-search-forward "\\cq" nil t)
- (setq ch-str (buffer-substring-no-properties
- (match-beginning 0) (match-end 0)))
- ;; Save the points. Maybe, using save-match-data is preferable.
- ;; But in order not to lose the trace(because the body is too long),
- ;; we save the points in variables.
- (setq ch-beg (match-beginning 0))
- (setq ch-end (match-end 0))
- ;; Here starts the decomposition.
- (cond
- ;; 1 column punctuations -> 2 column equivalent
- ((string-match "[$(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))))))
+ ;; `$(7"A(B' is included in the pattern for subjoined consonants
+ ;; because we treat it specially in tibetan-add-components.
+ (while (re-search-forward tibetan-composable-pattern nil t)
+ (let ((from (match-beginning 0))
+ (to (match-end 0))
+ components)
+ (goto-char from)
+ (if (looking-at tibetan-precomposition-rule-regexp)
+ (progn
+ (setq components
+ (list (string-to-char
+ (cdr
+ (assoc (match-string 0)
+ tibetan-precomposition-rule-alist)))))
+ (goto-char (match-end 0)))
+ (setq components (list (char-after from)))
+ (forward-char 1))
+ (while (< (point) to)
+ (tibetan-add-components components (following-char))
+ (forward-char 1))
+ (compose-region from to components)))))))
;;;###autoload
-(defun tibetan-compose-region (beg end)
- "Make composite chars from Tibetan character components in the region BEG END.
-Two column punctuations are converted to their 1 column equivalents."
- (interactive "r")
- (let (str result)
- (save-excursion
- (save-restriction
- (narrow-to-region beg end)
- (goto-char (point-min))
- ;; First, sequence of components which has a precomposed equivalent
- ;; is converted.
- (while (re-search-forward
- tibetan-precomposition-rule-regexp nil t)
- (setq str (buffer-substring-no-properties
- (match-beginning 0) (match-end 0)))
- (save-match-data
- (insert-and-inherit
- (cdr (assoc str tibetan-precomposition-rule-alist))))
- (delete-region (match-beginning 0) (match-end 0)))
- (goto-char (point-min))
- ;; Then, composable elements are put into a composite character.
- (while (re-search-forward
- "[$(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)))))))
+(defalias 'tibetan-decompose-region 'decompose-region)
+;;;###autoload
+(defalias 'tibetan-decompose-string 'decompose-string)
+
+;;;###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.
@@ -420,7 +256,7 @@ Two column punctuations are converted to their 1 column equivalents."
;;;###autoload
(defun tibetan-decompose-buffer ()
"Decomposes Tibetan characters in the buffer into their components.
-See also docstring of the function tibetan-decompose-region."
+See also the documentation of the function `tibetan-decompose-region'."
(interactive)
(make-local-variable 'tibetan-decomposed)
(cond ((not tibetan-decomposed)