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).

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;; for more details.
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;also do this: make two frames, one viewing "*scratch*", the other "foo".
;in *scratch*, type (sit-for 20)^J
;wait a couple of seconds, move cursor to foo, type "a"
;a should be inserted in foo.  Cursor highlighting should not change in
;the meantime.

;do it with sleep-for.  move cursor into foo, then back into *scratch*
;before typing.
;repeat also with (accept-process-output nil 20)

;make sure ^G aborts sit-for, sleep-for and accept-process-output:

 (defun tst ()
  (list (condition-case c
	    (sleep-for 20)
	  (quit c))
	(read-char)))

 (tst)^Ja^G    ==>  ((quit) 97) with no signal
 (tst)^J^Ga    ==>  ((quit) 97) with no signal
 (tst)^Jabc^G  ==>  ((quit) 97) with no signal, and "bc" inserted in buffer

; with sit-for only do the 2nd test.
; Do all 3 tests with (accept-proccess-output nil 20)

/*
Additional test cases for accept-process-output, sleep-for, sit-for.
Be sure you do all of the above checking for C-g and focus, too!

; Make sure that timer handlers are run during, not after sit-for:
(defun timer-check ()
  (add-timeout 2 #'(lambda (ignore) (message "timer ran")) nil)
  (sit-for 5)
  (message "after sit-for"))

; The first message should appear after 2 seconds, and the final message
; 3 seconds after that.
; repeat above test with (sleep-for 5) and (accept-process-output nil 5)

; Make sure that process filters are run during, not after sit-for.
(defun fubar ()
  (message "sit-for = %s" (sit-for 30)))
(add-hook 'post-command-hook 'fubar)

; Now type M-x shell RET
; wait for the shell prompt then send: ls RET
; the output of ls should fill immediately, and not wait 30 seconds.

; repeat above test with (sleep-for 30) and (accept-process-output nil 30)



; Make sure that recursive invocations return immediately:
(defmacro test-diff-time (start end)
  `(+ (* (- (car ,end) (car ,start)) 65536.0)
      (- (cadr ,end) (cadr ,start))
      (/ (- (caddr ,end) (caddr ,start)) 1000000.0)))

(defun testee (ignore)
  (sit-for 10))

(defun test-them ()
  (let ((start (current-time))
        end)
    (add-timeout 2 'testee nil)
    (sit-for 5)
    (add-timeout 2 'testee nil)
    (sleep-for 5)
    (add-timeout 2 'testee nil)
    (accept-process-output nil 5)
    (setq end (current-time))
    (test-diff-time start end)))

(test-them) should sit for 15 seconds.