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().

/*
 * Very simple sample module. Illustrates most of the salient features
 * of Emacs dynamic modules.
 * (C) Copyright 1998, 1999 J. Kean Johnston. All rights reserved.
 * (C) Copyright 2002 Jerry James.
 *
 * This sample module code 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.
 */

#include <config.h>
#include "lisp.h"

/*
 * This sample introduces three new Lisp objects to the Lisp reader.
 * The first, a simple boolean value, and the second a string. The
 * Third is a sample function that simply prints a message.
 */
int sample_bool;
Lisp_Object Vsample_string;

DEFUN ("sample-function", Fsample_function, 0, 0, "", /*
This is a sample function loaded dynamically.

You will notice in the source code for this module that the
declaration is identical to internal Emacs functions.  This
makes it possible to use the exact same code in a dumped
version of Emacs.
*/
        ())
{
  message ("Eureka! It worked");
  return Qt;
}

/*
 * Each dynamically loaded Emacs module is given a name at compile
 * time. This is a short name, and must be a valid part of a C
 * identifier.  This name is used to construct the name of several
 * functions which must appear in the module source code.
 * The first such function, modules_of_XXXX, should load in any dependent
 * modules. This function is optional, and the module will still load if
 * it is not present in the module.
 *
 * The second function, which is NOT optional, is syms_of_XXXX, in which
 * all functions that the module will be provided are declared. This
 * function will contain calls to DEFSUBR().
 *
 * The third function, which is also NOT optional, is vars_of_XXXX, in
 * which you declare all variables that the module provides. This
 * function will contain calls to DEFVAR_LISP(), DEFVAR_BOOL() etc.
 *
 * When declaring functions and variables in the syms_of_XXXX and
 * vars_of_XXXX functions, you use the exact same syntax that you
 * would as if this module were being compiled into the pure Emacs.
 *
 * The fourth function, which is optional, is unload_XXXX, in which actions
 * that must be taken to unload the module are listed.  XEmacs will unbind
 * functions and variables for you.  Anything else that must be done should
 * appear in this function.
 *
 * All four of these functions are declared as void functions,
 * taking no parameters. Since this sample module is called 'sample',
 * the functions will be named 'modules_of_sample', 'syms_of_sample',
 * 'vars_of_sample', and 'unload_sample'.
 */

void
modules_of_sample()
{
  /*
   * This function isn't actually required as we will not be loading
   * in any dependent modules, but if we were, we would do something like:
   * emodules_load ("dependent.ell", "sample2", "1.0.0");
   */
}

void
syms_of_sample()
{
  DEFSUBR(Fsample_function);
}

void
vars_of_sample()
{
  DEFVAR_LISP ("sample-string", &Vsample_string /*
This is a sample string, declared in a dynamic module.

The syntax and conventions used for all normal Emacs variables
apply equally to modules, using an identical syntax.
*/ );

  DEFVAR_BOOL ("sample-boolean", &sample_bool /*
*Sample boolean value, in a dynamic module.

This is a user-settable variable, as indicated by the *
as the first character of the description. Declared in
a module exactly as it would be internally in Emacs.
*/ );
}

#ifdef HAVE_SHLIB
void
unload_sample()
{
  /* We don't need to do anything here in the sample case.  However, if you
     create any new types with INIT_LRECORD_IMPLEMENTATION (sample_type), then
     UNDEF_LRECORD_IMPLEMENTATION (sample_type) must appear here.  Also, any
     symbols declared with DEFSYMBOL (Qsample_var), or one of its variants,
     must have a corresponding unstaticpro_nodump (&Qsample_var) here. */
}
#endif