Mercurial > hg > xemacs-beta
view lisp/loadhist.el @ 5169:6c6d78781d59
cleanup of code related to xfree(), better KKCC backtrace capabilities, document XD_INLINE_LISP_OBJECT_BLOCK_PTR, fix some memory leaks, other code cleanup
-------------------- ChangeLog entries follow: --------------------
src/ChangeLog addition:
2010-03-24 Ben Wing <ben@xemacs.org>
* array.h:
* array.h (XD_LISP_DYNARR_DESC):
* dumper.c (pdump_register_sub):
* dumper.c (pdump_store_new_pointer_offsets):
* dumper.c (pdump_reloc_one_mc):
* elhash.c:
* gc.c (lispdesc_one_description_line_size):
* gc.c (kkcc_marking):
* lrecord.h:
* lrecord.h (IF_NEW_GC):
* lrecord.h (enum memory_description_type):
* lrecord.h (enum data_description_entry_flags):
* lrecord.h (struct opaque_convert_functions):
Rename XD_LISP_OBJECT_BLOCK_PTR to XD_INLINE_LISP_OBJECT_BLOCK_PTR
and document it in lrecord.h.
* data.c:
* data.c (finish_marking_weak_lists):
* data.c (continue_marking_ephemerons):
* data.c (finish_marking_ephemerons):
* elhash.c (MARK_OBJ):
* gc.c:
* gc.c (lispdesc_indirect_count_1):
* gc.c (struct):
* gc.c (kkcc_bt_push):
* gc.c (kkcc_gc_stack_push):
* gc.c (kkcc_gc_stack_push_lisp_object):
* gc.c (kkcc_gc_stack_repush_dirty_object):
* gc.c (KKCC_DO_CHECK_FREE):
* gc.c (mark_object_maybe_checking_free):
* gc.c (mark_struct_contents):
* gc.c (mark_lisp_object_block_contents):
* gc.c (register_for_finalization):
* gc.c (mark_object):
* gc.h:
* lisp.h:
* profile.c:
* profile.c (mark_profiling_info_maphash):
Clean up KKCC code related to DEBUG_XEMACS. Rename
kkcc_backtrace() to kkcc_backtrace_1() and add two params: a
`size' arg to control how many stack elements to print and a
`detailed' arg to control whether Lisp objects are printed using
`debug_print()'. Create front-ends to kkcc_backtrace_1() --
kkcc_detailed_backtrace(), kkcc_short_backtrace(),
kkcc_detailed_backtrace_full(), kkcc_short_backtrace_full(), as
well as shortened versions kbt(), kbts(), kbtf(), kbtsf() -- to
call it with various parameter values. Add an `is_lisp' field to
the stack and backtrace structures and use it to keep track of
whether an object pushed onto the stack is a Lisp object or a
non-Lisp structure; in kkcc_backtrace_1(), don't try to print a
non-Lisp structure as a Lisp object.
* elhash.c:
* extents.c:
* file-coding.c:
* lrecord.h:
* lrecord.h (IF_NEW_GC):
* marker.c:
* marker.c (Fmarker_buffer):
* mule-coding.c:
* number.c:
* rangetab.c:
* specifier.c:
New macros IF_OLD_GC(), IF_NEW_GC() to simplify declaration of
Lisp objects when a finalizer may exist in one but not the other.
Use them appropriately.
* extents.c (finalize_extent_info):
Don't zero out data->soe and data->extents before trying to free,
else we get memory leaks.
* lrecord.h (enum lrecord_type):
Make the first lrecord type have value 1 not 0 so that 0 remains
without implementation and attempts to interpret zeroed memory
as a Lisp object will be more obvious.
* array.c (Dynarr_free):
* device-msw.c (msprinter_delete_device):
* device-tty.c (free_tty_device_struct):
* device-tty.c (tty_delete_device):
* dialog-msw.c (handle_directory_dialog_box):
* dialog-x.c:
* emacs.c (free_argc_argv):
* emodules.c (attempt_module_delete):
* file-coding.c (chain_finalize_coding_stream_1):
* file-coding.c (chain_finalize_coding_stream):
* glyphs-eimage.c:
* glyphs-eimage.c (jpeg_instantiate_unwind):
* glyphs-eimage.c (gif_instantiate_unwind):
* glyphs-eimage.c (png_instantiate_unwind):
* glyphs-eimage.c (tiff_instantiate_unwind):
* imgproc.c:
* imgproc.c (build_EImage_quantable):
* insdel.c (uninit_buffer_text):
* mule-coding.c (iso2022_finalize_detection_state):
* objects-tty.c (tty_finalize_color_instance):
* objects-tty.c (tty_finalize_font_instance):
* objects-tty.c (tty_font_list):
* process.c:
* process.c (finalize_process):
* redisplay.c (add_propagation_runes):
* scrollbar-gtk.c:
* scrollbar-gtk.c (gtk_free_scrollbar_instance):
* scrollbar-gtk.c (gtk_release_scrollbar_instance):
* scrollbar-msw.c:
* scrollbar-msw.c (mswindows_free_scrollbar_instance):
* scrollbar-msw.c (unshow_that_mofo):
* scrollbar-x.c (x_free_scrollbar_instance):
* scrollbar-x.c (x_release_scrollbar_instance):
* select-x.c:
* select-x.c (x_handle_selection_request):
* syntax.c:
* syntax.c (uninit_buffer_syntax_cache):
* text.h (eifree):
If possible, whenever we call xfree() on a field in a structure,
set the field to 0 afterwards. A lot of code is written so that
it checks the value being freed to see if it is non-zero before
freeing it -- doing this and setting the value to 0 afterwards
ensures (a) we won't try to free twice if the cleanup code is
called twice; (b) if the object itself stays around, KKCC won't
crash when attempting to mark the freed field.
* rangetab.c:
Add a finalization method when not NEW_GC to avoid memory leaks.
(#### We still get memory leaks when NEW_GC; need to convert gap
array to Lisp object).
| author | Ben Wing <ben@xemacs.org> |
|---|---|
| date | Wed, 24 Mar 2010 01:22:51 -0500 |
| parents | bedf3747a6d7 |
| children | 39d74978fd32 |
line wrap: on
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;;; loadhist.el --- lisp functions for working with feature groups ;; Copyright (C) 1995 Free Software Foundation, Inc. ;; Author: Eric S. Raymond <esr@snark.thyrsus.com> ;; Version: 1.0 ;; 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, Inc., 59 Temple Place - Suite 330, Boston, MA ;; 02111-1307, USA. ;;; Synched up with: FSF 20.2. ;; #### Sync this file! ;;; Commentary: ;; This file is dumped with XEmacs. ;; These functions exploit the load-history system variable. ;; Entry points include `unload-feature', `symbol-file', and `feature-file'. ;;; Code: ;; load-history is a list of entries that look like this: ;; ("outline" outline-regexp ... (require . wid-edit) ... (provide . outline) ...) ;; XEmacs; this function is in subr.el in GNU, and does not deal with ;; built-in symbols. (defun* symbol-file (sym &optional type) "Return the input source from which SYM was loaded. This is a file name, or nil if the source was a buffer with no associated file. If TYPE is nil or omitted, any kind of definition is acceptable. If TYPE is `defun', then function, subr, special operator or macro definitions are acceptable. If TYPE is `defvar', then variable definitions are acceptable. `defface' specifies a face definition only, and for the moment, it won't return faces created with `make-face' or `copy-face', just those created with `defface' and `custom-declare-face'." (interactive "SFind source file for symbol: ") ; XEmacs (let (built-in-file autoload-cons symbol-details) (cond ((and (eq 'autoload (car-safe (setq autoload-cons (and (fboundp sym) (symbol-function sym))))) (or (and (or (null type) (eq 'defvar type)) (eq (fifth autoload-cons) 'keymap)) (and (or (null type) (eq 'defun type)) (memq (fifth autoload-cons) '(nil macro))))) (return-from symbol-file (locate-library (second autoload-cons)))) ((eq 'defvar type) ;; Load history entries corresponding to variables are just ;; symbols. (dolist (entry load-history) (when (memq sym (cdr entry)) (return-from symbol-file (car entry))))) ((not (null type)) ;; Non-variables have the type stored as the car of the entry. (dolist (entry load-history) (when (and (setq symbol-details (rassq sym (cdr entry))) (eq type (car symbol-details))) (return-from symbol-file (car entry))))) (t ;; If TYPE hasn't been specified, we need to check both for ;; variables and other symbols. (dolist (entry load-history) (when (or (memq sym (cdr entry)) (rassq sym (cdr entry))) (return-from symbol-file (car entry)))))) (when (setq built-in-file (built-in-symbol-file sym type)) (if (equal built-in-file (file-truename built-in-file)) ;; Probably a full path name: built-in-file ;; This is a bit heuristic, but shouldn't realistically be a ;; problem: (if (string-match "\.elc?$" built-in-file) (concat (if (file-readable-p source-lisp) source-lisp lisp-directory) built-in-file) (concat source-directory "/src/" built-in-file)))))) (defun feature-symbols (feature) "Return the file and list of symbols associated with a given FEATURE." (let ((pair `(provide . ,feature))) (dolist (entry load-history) (when (member pair (cdr entry)) (return entry))))) (defun feature-file (feature) "Return the file name from which a given FEATURE was loaded. Actually, return the load argument, if any; this is sometimes the name of a Lisp file without an extension. If the feature came from an eval-buffer on a buffer with no associated file, or an eval-region, return nil." (unless (featurep feature) (error "%s is not a currently loaded feature" (symbol-name feature))) (car (feature-symbols feature))) (defun file-symbols (file) "Return the file and list of symbols associated with FILE. The file name in the returned list is the string used to load the file, and may not be the same string as FILE, but it will be equivalent." (or (assoc file load-history) (assoc (file-name-sans-extension file) load-history) (assoc (concat file ".el") load-history) (assoc (concat file ".elc") load-history))) (defun file-provides (file) "Return the list of features provided by FILE." (let ((provides nil)) (dolist (x (cdr (file-symbols file))) (when (eq (car-safe x) 'provide) (push (cdr x) provides))) provides)) (defun file-requires (file) "Return the list of features required by FILE." (let ((requires nil)) (dolist (x (cdr (file-symbols file))) (when (eq (car-safe x) 'require) (push (cdr x) requires))) requires)) (defun file-dependents (file) "Return the list of loaded libraries that depend on FILE. This can include FILE itself." (let ((provides (file-provides file)) (dependents nil)) (dolist (entry load-history) (dolist (x (cdr entry)) (when (and (eq (car-safe x) 'require) (memq (cdr-safe x) provides)) (push (car entry) dependents)))) dependents)) ;; FSFmacs ;(defun read-feature (prompt) ; "Read a feature name \(string\) from the minibuffer, ;prompting with PROMPT and completing from `features', and ;return the feature \(symbol\)." ; (intern (completing-read prompt ; (mapcar #'(lambda (feature) ; (list (symbol-name feature))) ; features) ; nil t))) ;; ;;;###autoload (defun unload-feature (feature &optional force) "Unload the library that provided FEATURE, restoring all its autoloads. If the feature is required by any other loaded code, and optional FORCE is nil, raise an error." (interactive "SFeature: ") (unless (featurep feature) (error "%s is not a currently loaded feature" (symbol-name feature))) (when (not force) (let* ((file (feature-file feature)) (dependents (delete file (copy-sequence (file-dependents file))))) (when dependents (error "Loaded libraries %s depend on %s" (prin1-to-string dependents) file)))) (let* ((flist (feature-symbols feature)) (file (car flist)) (unloading-module nil)) (flet ((reset-aload (x) (let ((aload (get x 'autoload))) (if aload (fset x (cons 'autoload aload)))))) (mapc #'(lambda (x) (cond ((stringp x) nil) ((consp x) ;; Remove any feature names that this file provided. (if (eq (car x) 'provide) (setq features (delq (cdr x) features)) (if (eq (car x) 'module) (setq unloading-module t)))) ((and (boundp x) (fboundp x)) (makunbound x) (fmakunbound x) (reset-aload x)) ((boundp x) (makunbound x)) ((fboundp x) (fmakunbound x) (reset-aload x)))) (cdr flist))) ;; Delete the load-history element for this file. (let ((elt (assoc file load-history))) (setq load-history (delq elt load-history))) ;; If it is a module, really unload it. (if unloading-module (declare-fboundp (unload-module (symbol-name feature)))))) (provide 'loadhist) ;;; loadhist.el ends here