Mercurial > hg > xemacs-beta
view lisp/setup-paths.el @ 5146:88bd4f3ef8e4
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 | 54700d784be9 |
| children | 308d34e9f07d |
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;;; setup-paths.el --- setup various XEmacs paths ;; Copyright (C) 1985-1986, 1990, 1992-1997 Free Software Foundation, Inc. ;; Copyright (c) 1993, 1994 Sun Microsystems, Inc. ;; Copyright (C) 1995 Board of Trustees, University of Illinois ;; Copyright (C) 2003 Ben Wing. ;; Author: Mike Sperber <mike@xemacs.orgx> ;; Maintainer: XEmacs Development Team ;; Keywords: internal, dumped ;; 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, 59 Temple Place - Suite 330, ;; Boston, MA 02111-1307, USA. ;;; Synched up with: Not in FSF. ;;; Commentary: ;; This file is dumped with XEmacs. ;; This file contains functions and variables that describe and construct ;; the various paths into the XEmacs hierarchy from a global viewpoint. ;; This file doesn't actually set any global variable, and doesn't ;; contain any state---it just contains the functionality for ;; searching directories and constructing paths. ;; It requires find-paths.el and packages.el. ;;; Code: ;(setq debug-paths t) (defvar paths-core-load-path-depth 0 "Depth of load-path searches in core Lisp paths.") (defvar paths-site-load-path-depth 1 "Depth of load-path searches in site Lisp paths.") (defvar paths-mule-load-path-depth 0 "Depth of load-path searches in Mule Lisp paths.") (defvar paths-module-load-path-depth 1 "Depth of load-path searches in module paths.") (defvar paths-default-info-directories (mapcar (function (lambda (dirlist) (paths-construct-path dirlist (char-to-string directory-sep-char)))) '(("usr" "local" "info") ("usr" "info") ("usr" "local" "share" "info") ("usr" "share" "info"))) "Directories appended to the end of the info path by default.") ;;; Basic utility functions. (defun paths-emacs-root-p (directory) "Check if DIRECTORY is a plausible installation root." (or ;; installed (paths-file-readable-directory-p (paths-construct-path (list directory "lib" (construct-emacs-version-name)))) ;; in-place or windows-nt. windows-nt equivalent of --srcdir is ;; BUILD_DIR in config.inc, and has no lisp/ or etc/ since symlinks ;; don't exist. instead, xemacs.mak points configure-lisp-directory and ;; configure-data-directory at the right places. (and (or configure-exec-directory (paths-file-readable-directory-p (paths-construct-path (list directory "lib-src"))) (eq system-type 'windows-nt)) (or configure-lisp-directory (paths-file-readable-directory-p (paths-construct-path (list directory "lisp")))) (or configure-data-directory (paths-file-readable-directory-p (paths-construct-path (list directory "etc"))))))) (defun paths-emacs-data-root-p (directory) "Check if DIRECTORY is a plausible data installation root. A data installation root is one containing data files that may be shared among multiple different versions of XEmacs, the packages in particular. This serves as an additional filter to narrow down the list of plausible installation roots." (or ;; installed (paths-file-readable-directory-p (paths-construct-path (list directory "share" emacs-program-name))) (paths-file-readable-directory-p (paths-construct-path (list directory "share" (construct-emacs-version-name)))) ;; in-place or windows-nt (and (paths-file-readable-directory-p (paths-construct-path (list directory "lisp"))) (paths-file-readable-directory-p (paths-construct-path (list directory "etc")))) ;; searching for a package directory (and (string-match "win32" system-configuration) (paths-file-readable-directory-p (paths-construct-path (list directory "xemacs-packages")))))) (defun paths-find-invocation-roots (invocation-directory invocation-name root-p) "Find the list of run-time roots of XEmacs. INVOCATION-DIRECTORY is a directory containing the XEmacs executable. INVOCATION-NAME is the name of the executable itself ROOT-P is a function that tests whether a root is plausible." (let* ((executable-file-name (paths-chase-symlink (concat invocation-directory invocation-name))) (executable-directory (file-name-directory executable-file-name)) (maybe-root-1 (file-name-as-directory (paths-construct-path '("..") executable-directory))) (maybe-root-2 (file-name-as-directory (paths-construct-path '(".." "..") executable-directory)))) (delete-if-not root-p (list maybe-root-1 maybe-root-2)))) (defun paths-find-emacs-roots (invocation-directory invocation-name root-p) "Find all plausible installation roots for XEmacs. This is a list of plausible directories in which to search for the important directories used by XEmacs at run-time, for example `exec-directory', `data-directory' and `lisp-directory'. ROOT-P is a function that tests whether a root is plausible." (let* ((invocation-roots (paths-find-invocation-roots invocation-directory invocation-name root-p)) (potential-installation-roots (delete-duplicates (append (and configure-exec-prefix-directory (list (file-name-as-directory configure-exec-prefix-directory))) (and configure-prefix-directory (list (file-name-as-directory configure-prefix-directory)))) :test #'equal :from-end t)) (installation-roots (remove-if-not root-p potential-installation-roots))) (delete-duplicates (nconc invocation-roots installation-roots) :test #'equal :from-end t))) (defun paths-find-site-lisp-directory (roots) "Find the site Lisp directory of the XEmacs hierarchy. ROOTS is a list of installation roots." (paths-find-site-directory roots (list "site-lisp") nil nil configure-site-directory)) (defun paths-find-site-module-directory (roots) "Find the site modules directory of the XEmacs hierarchy. ROOTS is a list of installation roots." (paths-find-site-directory roots (list "site-modules") t nil configure-site-module-directory)) (defun paths-find-lisp-directory (roots) "Find the main Lisp directory of the XEmacs hierarchy. ROOTS is a list of installation roots." (paths-find-version-directory roots (list "lisp") nil nil configure-lisp-directory)) (defun paths-find-mule-lisp-directory (roots &optional lisp-directory) "Find the Mule Lisp directory of the XEmacs hierarchy. ROOTS is a list of installation roots." ;; #### kludge (if lisp-directory (let ((guess (file-name-as-directory (paths-construct-path (list lisp-directory "mule"))))) (if (paths-file-readable-directory-p guess) guess (paths-find-version-directory roots (list "mule-lisp") nil nil configure-mule-lisp-directory))))) (defun paths-find-module-directory (roots) "Find the main modules directory of the XEmacs hierarchy. ROOTS is a list of installation roots." (paths-find-architecture-directory roots (list "modules") nil configure-module-directory)) (defun paths-construct-load-path (roots early-package-load-path late-package-load-path last-package-load-path lisp-directory &optional site-lisp-directory mule-lisp-directory) "Construct the complete load path. ROOTS is the list of installation roots. EARLY-PACKAGE-LOAD-PATH, LATE-PACKAGE-LOAD-PATH, and LAST-PACKAGE-LOAD-PATH are the load paths for the package hierarchies. SITE-LISP-DIRECTORY and MULE-LISP-DIRECTORY are optional directories to be included in the load path---SITE-LISP-DIRECTORY for the obsolete site-specific Lisp files, and MULE-LISP-DIRECTORY for the Mule Lisp files, which exist only in Mule installations." (let* ((envvar-value (getenv "EMACSLOADPATH")) (env-load-path (and envvar-value (paths-decode-directory-path envvar-value 'drop-empties))) (site-lisp-load-path (and site-lisp-directory (paths-find-recursive-load-path (list site-lisp-directory) paths-site-load-path-depth))) (mule-lisp-load-path (and mule-lisp-directory (paths-find-recursive-load-path (list mule-lisp-directory) paths-mule-load-path-depth))) (lisp-load-path (and lisp-directory (paths-find-recursive-load-path (list lisp-directory) paths-core-load-path-depth)))) (append env-load-path early-package-load-path site-lisp-load-path late-package-load-path mule-lisp-load-path lisp-load-path last-package-load-path))) (defun paths-construct-module-load-path (root module-directory &optional site-module-directory) "Construct the modules load path." (let* ((envvar-value (getenv "EMACSMODULEPATH")) (env-module-path (and envvar-value (paths-decode-directory-path envvar-value 'drop-empties))) (site-module-load-path (and site-module-directory (paths-find-recursive-load-path (list site-module-directory) paths-site-load-path-depth))) (module-load-path (and module-directory (paths-find-recursive-load-path (list module-directory) paths-module-load-path-depth)))) (append env-module-path site-module-load-path module-load-path))) (defun paths-construct-info-path (roots early-package-hierarchies late-package-hierarchies last-package-hierarchies) "Construct the info path. ROOTS is the list of installation roots. EARLY-PACKAGE-HIERARCHIES, LATE-PACKAGE-HIERARCHIES, and LAST-PACKAGE-HIERARCHIES are lists of package hierarchy roots, respectively." (let ((info-path-envval (getenv "INFOPATH"))) (delete-duplicates (nconc (append (let ((info-directory (paths-find-version-directory roots (list "info") nil nil configure-info-directory))) (and info-directory (list info-directory))) (packages-find-package-info-path early-package-hierarchies) (packages-find-package-info-path late-package-hierarchies) (packages-find-package-info-path last-package-hierarchies) (and info-path-envval (paths-decode-directory-path info-path-envval 'drop-empties))) (and (null info-path-envval) (delete-duplicates (nconc (paths-directories-which-exist configure-info-path) (paths-directories-which-exist paths-default-info-directories)) :test #'equal :from-end t))) :test #'equal :from-end t))) (defun paths-find-doc-directory (roots) "Find the documentation directory. ROOTS is the list of installation roots." (paths-find-architecture-directory roots (list "lib-src") nil configure-doc-directory)) (defun paths-find-exec-directory (roots) "Find the binary directory. ROOTS is the list of installation roots." (paths-find-architecture-directory roots (list "lib-src") nil configure-exec-directory)) (defun paths-construct-exec-path (roots exec-directory early-package-hierarchies late-package-hierarchies last-package-hierarchies) "Find the binary path. ROOTS is the list of installation roots. EARLY-PACKAGE-HIERARCHIES, LATE-PACKAGE-HIERARCHIES, and LAST-PACKAGE-HIERARCHIES are lists of package hierarchy roots, respectively. EXEC-DIRECTORY is the directory of architecture-dependent files that come with XEmacs. EARLY-PACKAGES, LATE-PACKAGES, and LAST-PACKAGES are lists of package hierarchy roots, respectively." (append (let ((path-envval (getenv "PATH"))) (if path-envval (paths-decode-directory-path path-envval 'drop-empties))) (packages-find-package-exec-path early-package-hierarchies) (packages-find-package-exec-path late-package-hierarchies) (let ((emacspath-envval (getenv "EMACSPATH"))) (and emacspath-envval (split-path emacspath-envval))) (and exec-directory (list exec-directory)) (packages-find-package-exec-path last-package-hierarchies))) (defun paths-find-data-directory (roots) "Find the data directory. ROOTS is the list of installation roots." (paths-find-version-directory roots (list "etc") nil "EMACSDATA" configure-data-directory)) (defun paths-construct-data-directory-list (data-directory early-package-hierarchies late-package-hierarchies last-package-hierarchies) "Construct the data path. DATA-DIRECTORY is the data directory of the XEmacs installation. EARLY-PACKAGE-HIERARCHIES, LATE-PACKAGE-HIERARCHIES, and LAST-PACKAGE-HIERARCHIES are lists of package hierarchy roots, respectively." (append (packages-find-package-data-path early-package-hierarchies) (packages-find-package-data-path late-package-hierarchies) (list data-directory) (packages-find-package-data-path last-package-hierarchies))) ;;; setup-paths.el ends here