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make lrecord UID's have a separate UID space for each object, resurrect debug SOE code in extents.c -------------------- ChangeLog entries follow: -------------------- src/ChangeLog addition: 2010-03-15 Ben Wing <ben@xemacs.org> * alloc.c: * alloc.c (c_readonly): * alloc.c (deadbeef_memory): * alloc.c (make_compiled_function): * alloc.c (make_button_data): * alloc.c (make_motion_data): * alloc.c (make_process_data): * alloc.c (make_timeout_data): * alloc.c (make_magic_data): * alloc.c (make_magic_eval_data): * alloc.c (make_eval_data): * alloc.c (make_misc_user_data): * alloc.c (noseeum_make_marker): * alloc.c (ADDITIONAL_FREE_string): * alloc.c (common_init_alloc_early): * alloc.c (init_alloc_once_early): * bytecode.c (print_compiled_function): * bytecode.c (mark_compiled_function): * casetab.c: * casetab.c (print_case_table): * console.c: * console.c (print_console): * database.c (print_database): * database.c (finalize_database): * device-msw.c (sync_printer_with_devmode): * device-msw.c (print_devmode): * device-msw.c (finalize_devmode): * device.c: * device.c (print_device): * elhash.c: * elhash.c (print_hash_table): * eval.c (print_multiple_value): * eval.c (mark_multiple_value): * events.c (deinitialize_event): * events.c (print_event): * events.c (event_equal): * extents.c: * extents.c (soe_dump): * extents.c (soe_insert): * extents.c (soe_delete): * extents.c (soe_move): * extents.c (extent_fragment_update): * extents.c (print_extent_1): * extents.c (print_extent): * extents.c (vars_of_extents): * frame.c: * frame.c (print_frame): * free-hook.c: * free-hook.c (check_free): * glyphs.c: * glyphs.c (print_image_instance): * glyphs.c (print_glyph): * gui.c: * gui.c (copy_gui_item): * hash.c: * hash.c (NULL_ENTRY): * hash.c (KEYS_DIFFER_P): * keymap.c (print_keymap): * keymap.c (MARKED_SLOT): * lisp.h: * lrecord.h: * lrecord.h (LISP_OBJECT_UID): * lrecord.h (set_lheader_implementation): * lrecord.h (struct old_lcrecord_header): * lstream.c (print_lstream): * lstream.c (finalize_lstream): * marker.c (print_marker): * marker.c (marker_equal): * mc-alloc.c (visit_all_used_page_headers): * mule-charset.c: * mule-charset.c (print_charset): * objects.c (print_color_instance): * objects.c (print_font_instance): * objects.c (finalize_font_instance): * opaque.c (print_opaque): * opaque.c (print_opaque_ptr): * opaque.c (equal_opaque_ptr): * print.c (internal_object_printer): * print.c (enum printing_badness): * rangetab.c (print_range_table): * rangetab.c (range_table_equal): * specifier.c (print_specifier): * specifier.c (finalize_specifier): * symbols.c: * symbols.c (print_symbol_value_magic): * tooltalk.c: * tooltalk.c (print_tooltalk_message): * tooltalk.c (print_tooltalk_pattern): * window.c (print_window): * window.c (debug_print_window): (1) Make lrecord UID's have a separate UID space for each object. Otherwise, with 20-bit UID's, we rapidly wrap around, especially when common objects like conses and strings increment the UID value for every object created. (Originally I tried making two UID spaces, one for objects that always print readably and hence don't display the UID, and one for other objects. But certain objects like markers for which a UID is displayed are still generated rapidly enough that UID overflow is a serious issue.) This also has the advantage of making UID values smaller, hence easier to remember -- their main purpose is to make it easier to keep track of different objects of the same type when debugging code. Make sure we dump lrecord UID's so that we don't have problems with pdumped and non-dumped objects having the same UID. (2) Display UID's consistently whenever an object (a) doesn't consistently print readably (objects like cons and string, which always print readably, can't display a UID), and (b) doesn't otherwise have a unique property that makes objects of a particular type distinguishable. (E.g. buffers didn't and still don't print an ID, but the buffer name uniquely identifies the buffer.) Some types, such as event, extent, compiled-function, didn't always (or didn't ever) display an ID; others (such as marker, extent, lstream, opaque, opaque-ptr, any object using internal_object_printer()) used to display the actual machine pointer instead. (3) Rename NORMAL_LISP_OBJECT_UID to LISP_OBJECT_UID; make it work over all Lisp objects and take a Lisp object, not a struct pointer. (4) Some misc cleanups in alloc.c, elhash.c. (5) Change code in events.c that "deinitializes" an event so that it doesn't increment the event UID counter in the process. Also use deadbeef_memory() to overwrite memory instead of doing the same with custom code. In the process, make deadbeef_memory() in alloc.c always available, and delete extraneous copy in mc-alloc.c. Also capitalize all uses of 0xDEADBEEF. Similarly in elhash.c call deadbeef_memory(). (6) Resurrect "debug SOE" code in extents.c. Make it conditional on DEBUG_XEMACS and on a `debug-soe' variable, rather than on SOE_DEBUG. Make it output to stderr, not stdout. (7) Delete some custom print methods that were identical to external_object_printer().
author Ben Wing <ben@xemacs.org>
date Mon, 15 Mar 2010 16:35:38 -0500
parents 980575c76541
children 311f6817efc2 308d34e9f07d
line wrap: on
line source

;;; mule-category.el --- category functions for XEmacs/Mule. -*- coding: iso-2022-7bit; -*-

;; Copyright (C) 1992,93,94,95 Free Software Foundation, Inc.
;; Copyright (C) 1995, 1997, 1999 Electrotechnical Laboratory, JAPAN.
;; Licensed to the Free Software Foundation.
;; Copyright (C) 1995 Amdahl Corporation.
;; Copyright (C) 1995 Sun Microsystems.

;; 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.

;;; Commentary:

;; Functions for working with category tables, which are a particular
;; type of char table.  Some function names / arguments should be
;; parallel with syntax tables.

;; Written by Ben Wing <ben@xemacs.org>.  The initialization code
;; at the end of this file comes from Mule.
;; Some bugfixes by Jareth Hein <jhod@po.iijnet.or.jp>

;;; Code:

(defvar defined-category-hashtable (make-hash-table :size 50))

(defun define-category (designator doc-string &optional table)
  "Make a new category whose designator is DESIGNATOR.
DESIGNATOR should be a visible letter of ' ' thru '~'.
DOC-STRING is a doc string for the category.
Letters of 'a' thru 'z' are already used or kept for the system.
The category should be defined only in category table TABLE, which defaults
to the current buffer's category table, but this is not implemented.  "
  ;; #### Implement the limiting of the definition. 
  (check-argument-type 'category-designator-p designator)
  (check-argument-type 'stringp doc-string)
  (setq table (or table (category-table)))
  (check-argument-type 'category-table-p table)
  (puthash designator doc-string defined-category-hashtable))

(defun undefine-category (designator)
  "Undefine DESIGNATOR as a designator for a category."
  (check-argument-type 'category-designator-p designator)
  (remhash designator defined-category-hashtable))

(defun defined-category-p (designator)
  "Return non-nil if DESIGNATOR is a designator for a defined category."
  (and (category-designator-p designator)
       (gethash designator defined-category-hashtable)))

(defun defined-category-list ()
  "Return a list of the currently defined categories.
Categories are given by their designators."
  (let (list)
    (maphash #'(lambda (key value)
		 (setq list (cons key list)))
	     defined-category-hashtable)
    (nreverse list)))

(defun undefined-category-designator ()
  "Return an undefined category designator, or nil if there are none."
  (let ((a 32) found)
    (while (and (< a 127) (not found))
      (unless (gethash a defined-category-hashtable)
	(setq found (make-char 'ascii a)))
      (setq a (1+ a)))
    found))

(defun category-doc-string (designator)
  "Return the doc-string for the category denoted by DESIGNATOR."
  (check-argument-type 'defined-category-p designator)
  (gethash designator defined-category-hashtable))

(defun modify-category-entry (char-range designator &optional category-table reset)
  "Add a category to the categories associated with CHAR-RANGE.
CHAR-RANGE is a single character or a range of characters,
 as per `put-char-table'.
The category is given by a designator character.
The changes are made in CATEGORY-TABLE, which defaults to the current
 buffer's category table.
If optional fourth argument RESET is non-nil, previous categories associated
 with CHAR-RANGE are removed before adding the specified category."
  (or category-table (setq category-table (category-table)))
  (check-argument-type 'category-table-p category-table)
  (check-argument-type 'defined-category-p designator)
  (if reset
      ;; clear all existing stuff.
      (put-char-table char-range nil category-table))
  (map-char-table
   #'(lambda (key value)
       ;; make sure that this range has a bit-vector assigned to it
       (if (not (bit-vector-p value))
	   (setq value (make-bit-vector 95 0))
	 (setq value (copy-sequence value)))
       ;; set the appropriate bit in that vector.
       (aset value (- designator 32) 1)
       ;; put the vector back, thus assuring we have a unique setting for this range
       (put-char-table key value category-table))
   category-table char-range))

(defun char-category-list (character &optional category-table)
  "Return a list of the categories that CHARACTER is in.
CATEGORY-TABLE defaults to the current buffer's category table.
The categories are given by their designators."
  (or category-table (setq category-table (category-table)))
  (check-argument-type 'category-table-p category-table)
  (let ((vec (get-char-table character category-table)))
    (if (null vec) nil
      (let ((a 32) list)
	(while (< a 127)
	  (if (= 1 (aref vec (- a 32)))
	      (setq list (cons (make-char 'ascii a) list)))
	  (setq a (1+ a)))
	(nreverse list)))))

;; implemented in C, file chartab.c (97/3/14 jhod@po.iijnet.or.jp)
;(defun char-in-category-p (char category &optional table)
;  "Return non-nil if CHAR is in CATEGORY.
;TABLE defaults to the current buffer's category table.
;Categories are specified by their designators."
;  (or table (setq table (category-table)))
;  (check-argument-type 'category-table-p table)
;  (check-argument-type 'category-designator-p category)
;  (let ((vec (get-char-table char table)))
;    (if (null vec) nil
;      (= 1 (aref vec (- category 32))))))

(put 'with-category-table 'lisp-indent-function 1)

(defmacro with-category-table (category-table &rest body)
  `(let ((current-category-table (category-table)))
     (set-category-table ,category-table)
     (unwind-protect
	 (progn ,@body)
       (set-category-table current-category-table))))

(defun make-category-table ()
  "Construct a new and empty category table and return it."
  (make-char-table 'category))

(defun describe-category ()
  "Describe the category specifications in the category table.
The descriptions are inserted in a buffer, which is then displayed."
  (interactive)
  (with-displaying-help-buffer
   (lambda ()
     (describe-category-table (category-table) standard-output))))

(defun describe-category-table (table stream)
  (let (first-char
	last-char
	prev-val
	(describe-one
	 (lambda (first last value stream)
	   (if (and (bit-vector-p value)
		    (> (reduce '+ value) 0))
	       (progn
		 (if (equal first last)
		     (cond ((vectorp first)
			    (princ (format "%s, row %d"
					   (charset-name
					    (aref first 0))
					   (aref first 1))
				   stream))
			   ((charsetp first)
			    (princ (charset-name first) stream))
			   (t (princ first stream)))
		   (cond ((vectorp first)
			  (princ (format "%s, rows %d .. %d"
					 (charset-name
					  (aref first 0))
					 (aref first 1)
					 (aref last 1))
				 stream))
			 (t
			  (princ (format "%s .. %s" first last)
				 stream))))
		 (describe-category-code value stream))))))
    (map-char-table
     (lambda (range value)
       (if (and (or
		 (and (characterp range)
		      (characterp first-char)
		      (eq (char-charset range) (char-charset first-char))
		      (= (char-to-int last-char) (1- (char-to-int range))))
		 (and (vectorp range)
		      (vectorp first-char)
		      (eq (aref range 0) (aref first-char 0))
		      (= (aref last-char 1) (1- (aref range 1))))
		 (equal value prev-val)))
	   (setq last-char range)
	 (if first-char
	     (progn
	       (funcall describe-one first-char last-char prev-val stream)
	       (setq first-char nil)))
	 (funcall describe-one range range value stream))
       nil)
     table)
    (if first-char
	(funcall describe-one first-char last-char prev-val stream))))

(defun describe-category-code (code stream)
  (let ((standard-output (or stream standard-output)))
    (princ "\tin categories: ")
    (if (not (bit-vector-p code))
	(princ "(none)")
      (let ((i 0)
	    already-matched)
	(while (< i 95)
	  (if (= 1 (aref code i))
	      (progn
		(if (not already-matched)
		    (setq already-matched t)
		  (princ " "))
		(princ (int-to-char (+ 32 i)))))
	  (setq i (1+ i)))
	(if (not already-matched)
	    (princ "(none)")))
      (let ((i 0))
	(while (< i 95)
	  (if (= 1 (aref code i))
	      (princ (format "\n\t\tmeaning: %s"
			    (category-doc-string (int-to-char (+ 32 i))))))
	  (setq i (1+ i)))))
    (terpri)))

(defconst predefined-category-list
  '((latin-iso8859-1	?l "Latin-1 through Latin-5 character set")
    (latin-iso8859-2	?l)
    (latin-iso8859-3	?l)
    (latin-iso8859-4	?l)
    (latin-iso8859-9	?l)
    (cyrillic-iso8859-5 ?y "Cyrillic character set")
    (arabic-iso8859-6	?b "Arabic character set")
    (greek-iso8859-7	?g "Greek character set")
    (hebrew-iso8859-8	?w "Hebrew character set")
    (katakana-jisx0201	?k "Japanese 1-byte Katakana character set")
    (latin-jisx0201	?r "Japanese 1-byte Roman character set")
    (japanese-jisx0208-1978 ?j "Japanese 2-byte character set (old)")
    (japanese-jisx0208	?j "Japanese 2-byte character set")
    (japanese-jisx0212	?j)
    (chinese-gb2312	?c "Chinese GB (China, PRC) 2-byte character set")
    (chinese-cns11643-1	?t "Chinese Taiwan (CNS or Big5) 2-byte character set")
    (chinese-cns11643-2	?t)
    (chinese-big5-1	?t)
    (chinese-big5-2	?t)
    (korean-ksc5601	?h "Hangul (Korean) 2-byte character set")
    )
  "List of predefined categories.
Each element is a list of a charset, a designator, and maybe a doc string.")

(let (i l)
  (define-category ?a "ASCII character set.")
  (define-category ?l "Latin-1 through Latin-5 character set")
  (setq i 32)
  (while (< i 127)
    (modify-category-entry i ?a)
    (modify-category-entry i ?l)
    (setq i (1+ i)))
  (setq l predefined-category-list)
  (while l
    (if (and (nth 2 (car l))
	     (not (defined-category-p (nth 2 (car l)))))
	(define-category (nth 1 (car l)) (nth 2 (car l))))
    (modify-category-entry (car (car l)) (nth 1 (car l)) nil t)
    (setq l (cdr l))))

;;; Setting word boundary.

(setq word-combining-categories
      '((?l . ?l)))

(setq word-separating-categories	;  (2-byte character sets)
      '((?A . ?K)			; Alpha numeric - Katakana
	(?A . ?C)			; Alpha numeric - Chinese
	(?H . ?A)			; Hiragana - Alpha numeric
	(?H . ?K)			; Hiragana - Katakana
	(?H . ?C)			; Hiragana - Chinese
	(?K . ?A)			; Katakana - Alpha numeric
	(?K . ?C)			; Katakana - Chinese
	(?C . ?A)			; Chinese - Alpha numeric
	(?C . ?K)			; Chinese - Katakana
	))

;;; At the present, I know Japanese and Chinese text can
;;; break line at any point under a restriction of 'kinsoku'.
;;; #### SJT this needs to be set by language environments and probably should
;;; be buffer-local---strategy for dealing with this: check all $language.el
;;; files and also mule-base/$language-utils.el files for variables set;
;;; these should be made buffer local and some kind of a- or p-list of vars
;;; to be set for a language environment created. 
(defvar word-across-newline "\\(\\cj\\|\\cc\\|\\ct\\)"
  "Regular expression of such characters which can be a word across newline.")

(defvar ascii-char "[\40-\176]")
(defvar ascii-space "[ \t]")
(defvar ascii-symbols "[\40-\57\72-\100\133-\140\173-\176]")
(defvar ascii-numeric "[\60-\71]")
(defvar ascii-English-Upper "[\101-\132]")
(defvar ascii-English-Lower "[\141-\172]")
(defvar ascii-alphanumeric "[\60-\71\101-\132\141-\172]")

(defvar kanji-char "\\cj")
(defvar kanji-space "$B!!(B")
(defvar kanji-symbols "\\cS")
(defvar kanji-numeric "[$B#0(B-$B#9(B]")
(defvar kanji-English-Upper "[$B#A(B-$B#Z(B]")
(defvar kanji-English-Lower  "[$B#a(B-$B#z(B]")
(defvar kanji-hiragana "\\cH")
(defvar kanji-katakana "\\cK")
(defvar kanji-Greek-Upper "[$B&!(B-$B&8(B]")
(defvar kanji-Greek-Lower "[$B&A(B-$B&X(B]")
(defvar kanji-Russian-Upper "[$B'!(B-$B'A(B]")
(defvar kanji-Russian-Lower "[$B'Q(B-$B'q(B]")
(defvar kanji-Kanji-1st-Level  "[$B0!(B-$BOS(B]")
(defvar kanji-Kanji-2nd-Level  "[$BP!(B-$Bt$(B]")

(defvar kanji-kanji-char "\\(\\cH\\|\\cK\\|\\cC\\)")