[xemacs-hg @ 2003-01-12 11:07:58 by michaels] modules/ChangeLog: 2002-12-16 Ben Wing <ben@xemacs.org> * postgresql/postgresql.c: remove ifdef USE_KKCC. src/ChangeLog: 2003-01-08 Mike Sperber <mike@xemacs.org> * console.h (CDFW_CONSOLE): Don't lead to a crash if we're dealing with a dead window/frame/device/console. 2002-12-20 Mike Sperber <mike@xemacs.org> * ui-gtk.c: Fix typo from Ben's patch: emacs_ffi_data is a typedef, not a struct. emacs_gtk_object_data is a typedef, not a struct. * gtk-glue.c (gdk_event_to_emacs_event): Fix typos from Ben's patch: le -> emacs_event + rearrange the code. * event-gtk.c (gtk_event_to_emacs_event): Fix typos from Ben's patch: ..._UNDERLYING_GDK_EVENT -> ..._GDK_EVENT, ev -> key_event. * device-gtk.c: Fix typo from Ben's patch: x_keysym_map_hash_table -> x_keysym_map_hashtable. 2002-12-19 Mike Sperber <mike@xemacs.org> * menubar-x.c (set_frame_menubar): Initialize protect_me field of popup_data. 2002-12-16 Ben Wing <ben@xemacs.org> Major cleanup of KKCC, etc. KKCC, pdump-related: -- descriptions are written for all objects. this required some changes in the format of some objects, e.g. extents, popup-data, coding system, lstream, lcrecord-list. -- KKCC now handles weakness in markers, hash tables, elsewhere correctly (formerly, you'd eventually get a stack overflow due to endlessly expanding markers). -- textual changes: lrecord_description -> memory_description, struct_description -> sized_memory_description. -- extensive comment describing descriptions and pdump. -- redo XD_UNION so it works inline and change its format to provide sufficient info for pdump. implement XD_UNION in pdump. also add XD_UNION_DYNAMIC_SIZE, which works like XD_UNION except for when auto-computing structure sizes. -- add support for XD_INDIRECT in description offsets (used by extents). -- add support for "description maps", allowing for indirect descriptions that are retrieved from an object at run-time. this generalizes XD_CODING_SYSTEM_END, XD_SPECIFIER_END, etc., which have now been eliminated. -- add a fifth field "flags" to memory_description, to support flags that can be specified for this particular line. Currently defined flags are XD_FLAG_NO_KKCC (KKCC should ignore this entry; useful for the weakness above in markers, etc.), XD_FLAG_NO_PDUMP (pdump should ignore this entry), XD_FLAG_UNION_DEFAULT_ENTRY (in union maps, this specifies a "default" entry for all remaining values), and XD_FLAG_FREE_LISP_OBJECT (for use with lcrecord-lists). -- clean up the kkcc-itis in events, so that the differences between event data as separate objects and as a union are now minimized to a small number of places. with the new XD_UNION, we no longer need event data as separate objects, so this code is no longer ifdef USE_KKCC, but instead ifdef EVENT_DATA_AS_OBJECTS, not used by default. make sure that we explicitly free the separate event data objects when no longer in use, to maintain the invariant the event processing causes no consing. -- also remove other USE_KKCC ifdefs when not necessary. -- allow for KKCC compilation under MS Windows. -- fix README.kkcc. -- dump_add_root_object -> dump_add_root_lisp_object. -- implement dump_add_root_block and use this to handle dump_add_opaque. -- factor out some code duplicated in kkcc and pdump. Other allocation/object-related: -- change various *slots.h so MARKED_SLOT() call no longer includes semicolon. -- free_marker() takes a Lisp_Object not a direct pointer. -- make bit vectors lcrecords, like vectors, and eliminate code that essentially duplicated the lcrecord handling. -- additional asserts in FREE_FIXED_TYPE, formerly duplicated in the various callers of this. -- all lcrecord allocation functions now zero out the returned lcrecords. unnecessary calls to zero_lcrecord removed. add long comment describing these functions. -- extract out process and coding system slots, like for buffers, frames, etc. -- lcrecords now set the type of items sitting on the free list to lcrecord_type_free. -- changes to the way that gap arrays are allocated, for kkcc's benefit -- now, one single memory block with a stretchy array on the end, instead of a separate block holding the array. Error-checking-related: -- now can compile with C++ under MS Windows. clean up compile errors discovered that way. (a few were real problems) -- add C++ error-checking code to verify problems with mismatched GCPRO/UNGCPRO. (there were a few in the kkcc code.) add long comment about how to catch insufficient GCPRO (yes, it's possible using C++). -- add debug_p4(), a simple object printer, when debug_print() doesn't work. -- add dp() and db() as short synonyms of debug_print(), debug_backtrace(). -- `print' tries EXTREMELY hard to avoid core dumping when printing when crashing or from debug_print(), and tries as hard as it reasonably can in other situations. -- Correct the message output upon crashing to be more up-to-date. Event-related: -- document event-matches-key-specifier-p better. -- generalize the dispatch queues formerly duplicated in the various event implementations. add event methods to drain pending events. generalize and clean up QUIT handling, removing event-specific quit processing. allow arbitrary keystrokes, not just ASCII, to be the QUIT char. among other things, this should fix some longstanding bugs in X quit handling. long comment describing the various event queues. -- implement delaying of XFlush() if there are pending expose events. SOMEONE PLEASE TRY THIS OUT. -- Fix `xemacs -batch -l dunnet' under Cygwin. Try to fix under MS Windows but not quite there yet. Other: -- class -> class_ and no more C++ games with this item. new -> new_ in the lwlib code, so far not elsewhere. -- use `struct htentry' not `struct hentry' in elhash.c to avoid debugger confusion with hash.c. -- new macros ALIST_LOOP_3, ALIST_LOOP_4. * README.kkcc: * alloc.c: * alloc.c (deadbeef_memory): * alloc.c (allocate_lisp_storage): * alloc.c (copy_lisp_object): * alloc.c (ALLOCATE_FIXED_TYPE_1): * alloc.c (FREE_FIXED_TYPE): * alloc.c (make_vector_internal): * alloc.c (make_bit_vector_internal): * alloc.c (make_key_data): * 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 (struct string_chars_block): * alloc.c (mark_lcrecord_list): * alloc.c (make_lcrecord_list): * alloc.c (alloc_managed_lcrecord): * alloc.c (free_managed_lcrecord): * alloc.c (alloc_automanaged_lcrecord): * alloc.c (staticpro_1): * alloc.c (staticpro): * alloc.c (lispdesc_indirect_count_1): * alloc.c (lispdesc_indirect_description_1): * alloc.c (lispdesc_one_description_line_size): * alloc.c (lispdesc_structure_size): * alloc.c (mark_object_maybe_checking_free): * alloc.c (mark_with_description): * alloc.c (mark_struct_contents): * alloc.c (mark_object): * alloc.c (tick_lcrecord_stats): * alloc.c (free_cons): * alloc.c (free_key_data): * alloc.c (free_button_data): * alloc.c (free_motion_data): * alloc.c (free_process_data): * alloc.c (free_timeout_data): * alloc.c (free_magic_data): * alloc.c (free_magic_eval_data): * alloc.c (free_eval_data): * alloc.c (free_misc_user_data): * alloc.c (free_marker): * alloc.c (compact_string_chars): * alloc.c (gc_sweep): * alloc.c (garbage_collect_1): * alloc.c (Fgarbage_collect): * alloc.c (common_init_alloc_early): * alloc.c (init_alloc_early): * alloc.c (init_alloc_once_early): * buffer.c: * buffer.c (mark_buffer): * buffer.c (MARKED_SLOT): * buffer.c (cleanup_buffer_undo_lists): * buffer.c (Fget_file_buffer): * buffer.h (MARKED_SLOT): * bufslots.h: * bytecode.c: * callint.c: * casetab.c: * chartab.c: * chartab.c (symbol_to_char_table_type): * cmdloop.c: * cmdloop.c (Fcommand_loop_1): * config.h.in (new): * conslots.h: * console-gtk-impl.h (struct gtk_frame): * console-impl.h: * console-impl.h (struct console): * console-impl.h (MARKED_SLOT): * console-impl.h (CONSOLE_QUIT_EVENT): * console-msw-impl.h (XM_BUMPQUEUE): * console-msw.c (write_string_to_mswindows_debugging_output): * console-msw.h: * console-stream-impl.h: * console-stream-impl.h (struct stream_console): * console-stream.c: * console-stream.c (stream_init_console): * console-stream.h: * console-tty.c: * console-tty.h: * console-x.h: * console.c: * console.c (mark_console): * console.c (MARKED_SLOT): * console.c (allocate_console): * console.c (get_console_variant): * console.c (create_console): * console.c (delete_console_internal): * console.c (Fset_input_mode): * console.c (Fcurrent_input_mode): * console.c (common_init_complex_vars_of_console): * console.h: * console.h (console_variant): * console.h (device_metrics): * data.c: * data.c (Faref): * data.c (Faset): * data.c (decode_weak_list_type): * database.c: * debug.c (xemacs_debug_loop): * debug.c (FROB): * debug.c (Fadd_debug_class_to_check): * debug.c (Fdelete_debug_class_to_check): * debug.c (Fset_debug_classes_to_check): * debug.c (Fset_debug_class_types_to_check): * debug.c (Fdebug_types_being_checked): * debug.h (DASSERT): * device-gtk.c: * device-impl.h (struct device): * device-impl.h (MARKED_SLOT): * device-msw.c: * device-x.c: * device-x.c (x_init_device_class): * device-x.c (x_comp_visual_info): * device-x.c (x_try_best_visual_class): * device-x.c (x_init_device): * device-x.c (construct_name_list): * device-x.c (x_get_resource_prefix): * device-x.c (Fx_get_resource): * device-x.c (Fx_display_visual_class): * device.c: * device.c (MARKED_SLOT): * device.c (allocate_device): * device.c (Fmake_device): * device.c (delete_device_internal): * device.c (Fset_device_class): * device.h: * devslots.h: * devslots.h (MARKED_SLOT): * dialog-msw.c: * dired-msw.c (mswindows_ls_sort_fcn): * dired-msw.c (mswindows_get_files): * dired-msw.c (mswindows_format_file): * doprnt.c (parse_doprnt_spec): * dumper.c: * dumper.c (struct): * dumper.c (dump_add_root_block): * dumper.c (dump_add_root_struct_ptr): * dumper.c (dump_add_root_lisp_object): * dumper.c (pdump_struct_list_elt): * dumper.c (pdump_get_entry_list): * dumper.c (pdump_backtrace): * dumper.c (pdump_bump_depth): * dumper.c (pdump_register_sub): * dumper.c (pdump_register_object): * dumper.c (pdump_register_struct_contents): * dumper.c (pdump_register_struct): * dumper.c (pdump_store_new_pointer_offsets): * dumper.c (pdump_dump_data): * dumper.c (pdump_reloc_one): * dumper.c (pdump_allocate_offset): * dumper.c (pdump_scan_by_alignment): * dumper.c (pdump_dump_root_blocks): * dumper.c (pdump_dump_rtables): * dumper.c (pdump_dump_root_lisp_objects): * dumper.c (pdump): * dumper.c (pdump_load_finish): * dumper.c (pdump_file_get): * dumper.c (pdump_resource_get): * dumper.c (pdump_load): * editfns.c (save_excursion_restore): * editfns.c (user_login_name): * editfns.c (save_restriction_restore): * elhash.c: * elhash.c (htentry): * elhash.c (struct Lisp_Hash_Table): * elhash.c (HTENTRY_CLEAR_P): * elhash.c (LINEAR_PROBING_LOOP): * elhash.c (check_hash_table_invariants): * elhash.c (mark_hash_table): * elhash.c (hash_table_equal): * elhash.c (print_hash_table_data): * elhash.c (free_hentries): * elhash.c (make_general_lisp_hash_table): * elhash.c (decode_hash_table_weakness): * elhash.c (decode_hash_table_test): * elhash.c (Fcopy_hash_table): * elhash.c (resize_hash_table): * elhash.c (pdump_reorganize_hash_table): * elhash.c (find_htentry): * elhash.c (Fgethash): * elhash.c (Fputhash): * elhash.c (remhash_1): * elhash.c (Fremhash): * elhash.c (Fclrhash): * elhash.c (copy_compress_hentries): * elhash.c (elisp_maphash_unsafe): * elhash.c (finish_marking_weak_hash_tables): * elhash.c (prune_weak_hash_tables): * elhash.h: * emacs.c: * emacs.c (main_1): * emacs.c (main): * emacs.c (shut_down_emacs): * emodules.h (dump_add_root_lisp_object): * eval.c: * eval.c (unwind_to_catch): * eval.c (maybe_signal_error_1): * eval.c (maybe_signal_continuable_error_1): * eval.c (maybe_signal_error): * eval.c (maybe_signal_continuable_error): * eval.c (maybe_signal_error_2): * eval.c (maybe_signal_continuable_error_2): * eval.c (maybe_signal_ferror): * eval.c (maybe_signal_continuable_ferror): * eval.c (maybe_signal_ferror_with_frob): * eval.c (maybe_signal_continuable_ferror_with_frob): * eval.c (maybe_syntax_error): * eval.c (maybe_sferror): * eval.c (maybe_invalid_argument): * eval.c (maybe_invalid_constant): * eval.c (maybe_invalid_operation): * eval.c (maybe_invalid_change): * eval.c (maybe_invalid_state): * eval.c (Feval): * eval.c (call_trapping_problems): * eval.c (call_with_suspended_errors): * eval.c (warn_when_safe_lispobj): * eval.c (warn_when_safe): * eval.c (vars_of_eval): * event-Xt.c: * event-Xt.c (maybe_define_x_key_as_self_inserting_character): * event-Xt.c (x_to_emacs_keysym): * event-Xt.c (x_event_to_emacs_event): * event-Xt.c (emacs_Xt_enqueue_focus_event): * event-Xt.c (emacs_Xt_format_magic_event): * event-Xt.c (emacs_Xt_compare_magic_event): * event-Xt.c (emacs_Xt_hash_magic_event): * event-Xt.c (emacs_Xt_handle_magic_event): * event-Xt.c (Xt_timeout_to_emacs_event): * event-Xt.c (Xt_process_to_emacs_event): * event-Xt.c (signal_special_Xt_user_event): * event-Xt.c (emacs_Xt_next_event): * event-Xt.c (emacs_Xt_event_handler): * event-Xt.c (emacs_Xt_drain_queue): * event-Xt.c (emacs_Xt_event_pending_p): * event-Xt.c (check_if_pending_expose_event): * event-Xt.c (reinit_vars_of_event_Xt): * event-Xt.c (vars_of_event_Xt): * event-gtk.c: * event-gtk.c (IS_MODIFIER_KEY): * event-gtk.c (emacs_gtk_format_magic_event): * event-gtk.c (emacs_gtk_compare_magic_event): * event-gtk.c (emacs_gtk_hash_magic_event): * event-gtk.c (emacs_gtk_handle_magic_event): * event-gtk.c (gtk_to_emacs_keysym): * event-gtk.c (gtk_timeout_to_emacs_event): * event-gtk.c (gtk_process_to_emacs_event): * event-gtk.c (dragndrop_data_received): * event-gtk.c (signal_special_gtk_user_event): * event-gtk.c (emacs_gtk_next_event): * event-gtk.c (gtk_event_to_emacs_event): * event-gtk.c (generic_event_handler): * event-gtk.c (emacs_shell_event_handler): * event-gtk.c (emacs_gtk_drain_queue): * event-gtk.c (emacs_gtk_event_pending_p): * event-gtk.c (reinit_vars_of_event_gtk): * event-gtk.c (vars_of_event_gtk): * event-msw.c: * event-msw.c (struct winsock_stream): * event-msw.c (winsock_reader): * event-msw.c (winsock_writer): * event-msw.c (mswindows_enqueue_dispatch_event): * event-msw.c (mswindows_enqueue_misc_user_event): * event-msw.c (mswindows_enqueue_magic_event): * event-msw.c (mswindows_enqueue_process_event): * event-msw.c (mswindows_enqueue_mouse_button_event): * event-msw.c (mswindows_enqueue_keypress_event): * event-msw.c (mswindows_dequeue_dispatch_event): * event-msw.c (emacs_mswindows_drain_queue): * event-msw.c (mswindows_need_event_in_modal_loop): * event-msw.c (mswindows_need_event): * event-msw.c (mswindows_wm_timer_callback): * event-msw.c (dde_eval_string): * event-msw.c (Fdde_alloc_advise_item): * event-msw.c (mswindows_dde_callback): * event-msw.c (mswindows_wnd_proc): * event-msw.c (remove_timeout_mapper): * event-msw.c (emacs_mswindows_remove_timeout): * event-msw.c (emacs_mswindows_event_pending_p): * event-msw.c (emacs_mswindows_format_magic_event): * event-msw.c (emacs_mswindows_compare_magic_event): * event-msw.c (emacs_mswindows_hash_magic_event): * event-msw.c (emacs_mswindows_handle_magic_event): * event-msw.c (emacs_mswindows_select_console): * event-msw.c (emacs_mswindows_unselect_console): * event-msw.c (reinit_vars_of_event_mswindows): * event-msw.c (vars_of_event_mswindows): * event-stream.c: * event-stream.c (mark_command_builder): * event-stream.c (reset_command_builder_event_chain): * event-stream.c (allocate_command_builder): * event-stream.c (copy_command_builder): * event-stream.c (command_builder_append_event): * event-stream.c (event_stream_event_pending_p): * event-stream.c (event_stream_force_event_pending): * event-stream.c (maybe_read_quit_event): * event-stream.c (event_stream_drain_queue): * event-stream.c (remove_quit_p_event): * event-stream.c (event_stream_quit_p): * event-stream.c (echo_key_event): * event-stream.c (maybe_kbd_translate): * event-stream.c (execute_help_form): * event-stream.c (event_stream_generate_wakeup): * event-stream.c (enqueue_dispatch_event): * event-stream.c (enqueue_magic_eval_event): * event-stream.c (Fenqueue_eval_event): * event-stream.c (enqueue_misc_user_event): * event-stream.c (enqueue_misc_user_event_pos): * event-stream.c (next_event_internal): * event-stream.c (Fnext_event): * event-stream.c (Faccept_process_output): * event-stream.c (execute_internal_event): * event-stream.c (munge_keymap_translate): * event-stream.c (command_builder_find_leaf_no_mule_processing): * event-stream.c (command_builder_find_leaf): * event-stream.c (lookup_command_event): * event-stream.c (is_scrollbar_event): * event-stream.c (execute_command_event): * event-stream.c (Fdispatch_event): * event-stream.c (Fread_key_sequence): * event-stream.c (dribble_out_event): * event-stream.c (vars_of_event_stream): * event-tty.c (tty_timeout_to_emacs_event): * event-tty.c (emacs_tty_next_event): * event-tty.c (emacs_tty_drain_queue): * event-tty.c (reinit_vars_of_event_tty): * event-unixoid.c: * event-unixoid.c (find_tty_or_stream_console_from_fd): * event-unixoid.c (read_event_from_tty_or_stream_desc): * event-unixoid.c (drain_tty_devices): * event-unixoid.c (poll_fds_for_input): * events.c: * events.c (deinitialize_event): * events.c (zero_event): * events.c (mark_event): * events.c (print_event_1): * events.c (print_event): * events.c (event_equal): * events.c (event_hash): * events.c (Fmake_event): * events.c (Fdeallocate_event): * events.c (Fcopy_event): * events.c (map_event_chain_remove): * events.c (character_to_event): * events.c (event_to_character): * events.c (Fevent_to_character): * events.c (format_event_object): * events.c (upshift_event): * events.c (downshift_event): * events.c (event_upshifted_p): * events.c (Fevent_live_p): * events.c (Fevent_type): * events.c (Fevent_timestamp): * events.c (CHECK_EVENT_TYPE): * events.c (CHECK_EVENT_TYPE2): * events.c (CHECK_EVENT_TYPE3): * events.c (Fevent_key): * events.c (Fevent_button): * events.c (Fevent_modifier_bits): * events.c (event_x_y_pixel_internal): * events.c (event_pixel_translation): * events.c (Fevent_process): * events.c (Fevent_function): * events.c (Fevent_object): * events.c (Fevent_properties): * events.c (syms_of_events): * events.c (vars_of_events): * events.h: * events.h (struct event_stream): * events.h (struct Lisp_Key_Data): * events.h (KEY_DATA_KEYSYM): * events.h (EVENT_KEY_KEYSYM): * events.h (struct Lisp_Button_Data): * events.h (EVENT_BUTTON_BUTTON): * events.h (struct Lisp_Motion_Data): * events.h (EVENT_MOTION_X): * events.h (struct Lisp_Process_Data): * events.h (EVENT_PROCESS_PROCESS): * events.h (struct Lisp_Timeout_Data): * events.h (EVENT_TIMEOUT_INTERVAL_ID): * events.h (struct Lisp_Eval_Data): * events.h (EVENT_EVAL_FUNCTION): * events.h (struct Lisp_Misc_User_Data): * events.h (EVENT_MISC_USER_FUNCTION): * events.h (struct Lisp_Magic_Eval_Data): * events.h (EVENT_MAGIC_EVAL_INTERNAL_FUNCTION): * events.h (struct Lisp_Magic_Data): * events.h (EVENT_MAGIC_UNDERLYING): * events.h (EVENT_MAGIC_GDK_EVENT): * events.h (struct Lisp_Event): * events.h (XEVENT_CHANNEL): * events.h (SET_EVENT_TIMESTAMP_ZERO): * events.h (SET_EVENT_CHANNEL): * events.h (SET_EVENT_NEXT): * events.h (XSET_EVENT_TYPE): * events.h (struct command_builder): * extents.c: * extents.c (gap_array_adjust_markers): * extents.c (gap_array_recompute_derived_values): * extents.c (gap_array_move_gap): * extents.c (gap_array_make_gap): * extents.c (gap_array_insert_els): * extents.c (gap_array_delete_els): * extents.c (gap_array_make_marker): * extents.c (gap_array_delete_marker): * extents.c (gap_array_move_marker): * extents.c (make_gap_array): * extents.c (free_gap_array): * extents.c (extent_list_num_els): * extents.c (extent_list_insert): * extents.c (mark_extent_auxiliary): * extents.c (allocate_extent_auxiliary): * extents.c (decode_extent_at_flag): * extents.c (verify_extent_mapper): * extents.c (symbol_to_glyph_layout): * extents.c (syms_of_extents): * faces.c: * file-coding.c: * file-coding.c (struct_detector_category_description =): * file-coding.c (detector_category_dynarr_description_1): * file-coding.c (struct_detector_description =): * file-coding.c (detector_dynarr_description_1): * file-coding.c (MARKED_SLOT): * file-coding.c (mark_coding_system): * file-coding.c (coding_system_extra_description_map): * file-coding.c (coding_system_description): * file-coding.c (allocate_coding_system): * file-coding.c (symbol_to_eol_type): * file-coding.c (Fcoding_system_aliasee): * file-coding.c (set_coding_stream_coding_system): * file-coding.c (struct convert_eol_coding_system): * file-coding.c (struct undecided_coding_system): * file-coding.c (undecided_mark_coding_stream): * file-coding.c (coding_category_symbol_to_id): * file-coding.c (struct gzip_coding_system): * file-coding.c (coding_system_type_create): * file-coding.h: * file-coding.h (struct Lisp_Coding_System): * file-coding.h (CODING_SYSTEM_SLOT_DECLARATION): * file-coding.h (coding_system_variant): * file-coding.h (struct coding_system_methods): * file-coding.h (DEFINE_CODING_SYSTEM_TYPE_WITH_DATA): * file-coding.h (INITIALIZE_CODING_SYSTEM_TYPE_WITH_DATA): * file-coding.h (struct coding_stream): * fileio.c (Fsubstitute_in_file_name): * floatfns.c: * fns.c: * fns.c (base64_encode_1): * frame-gtk.c: * frame-gtk.c (Fgtk_start_drag_internal): * frame-impl.h (struct frame): * frame-impl.h (MARKED_SLOT): * frame-msw.c: * frame-x.c: * frame-x.c (Fcde_start_drag_internal): * frame-x.c (Foffix_start_drag_internal): * frame.c: * frame.c (MARKED_SLOT): * frame.c (allocate_frame_core): * frame.c (delete_frame_internal): * frame.c (Fmouse_position_as_motion_event): * frameslots.h: * frameslots.h (MARKED_SLOT_ARRAY): * free-hook.c: * glyphs-msw.c (mswindows_widget_instantiate): * glyphs-x.c: * glyphs-x.c (convert_EImage_to_XImage): * glyphs.c: * glyphs.c (process_image_string_instantiator): * glyphs.c (mark_image_instance): * glyphs.c (allocate_image_instance): * glyphs.c (unmap_subwindow): * glyphs.c (map_subwindow): * glyphs.c (syms_of_glyphs): * glyphs.c (specifier_type_create_image): * glyphs.h: * glyphs.h (struct text_image_instance): * glyphs.h (struct Lisp_Image_Instance): * gmalloc.c: * gmalloc.c ("C"): * gpmevent.c (Freceive_gpm_event): * gpmevent.c (gpm_next_event_cb): * gpmevent.c (vars_of_gpmevent): * gtk-glue.c (gdk_event_to_emacs_event): * gtk-xemacs.c (gtk_xemacs_class_init): * gui-msw.c: * gui-msw.c (mswindows_handle_gui_wm_command): * gui-msw.c (mswindows_translate_menu_or_dialog_item): * gui-x.c: * gui-x.c (mark_popup_data): * gui-x.c (snarf_widget_value_mapper): * gui-x.c (gcpro_popup_callbacks): * gui-x.c (ungcpro_popup_callbacks): * gui-x.c (free_popup_widget_value_tree): * gui-x.c (popup_selection_callback): * gui-x.h: * gui-x.h (struct popup_data): * gui.c: * gui.c (allocate_gui_item): * gutter.c (decode_gutter_position): * hash.c (NULL_ENTRY): * indent.c (vmotion_1): * indent.c (vmotion_pixels): * input-method-motif.c (res): * input-method-xlib.c (IMInstantiateCallback): * input-method-xlib.c (XIM_init_device): * input-method-xlib.c (res): * intl-encap-win32.c: * intl-encap-win32.c (qxeSHGetDataFromIDList): * intl-win32.c: * intl-win32.c (mswindows_multibyte_cp_type): * intl-win32.c (struct mswindows_multibyte_coding_system): * keymap.c: * keymap.c (make_key_description): * keymap.c (keymap_store): * keymap.c (get_keyelt): * keymap.c (keymap_lookup_1): * keymap.c (define_key_parser): * keymap.c (key_desc_list_to_event): * keymap.c (event_matches_key_specifier_p): * keymap.c (meta_prefix_char_p): * keymap.c (ensure_meta_prefix_char_keymapp): * keymap.c (Fdefine_key): * keymap.c (struct raw_lookup_key_mapper_closure): * keymap.c (raw_lookup_key): * keymap.c (raw_lookup_key_mapper): * keymap.c (lookup_keys): * keymap.c (lookup_events): * keymap.c (Flookup_key): * keymap.c (struct map_keymap_unsorted_closure): * keymap.c (map_keymap_unsorted_mapper): * keymap.c (map_keymap_sorted): * keymap.c (map_keymap_mapper): * keymap.c (map_keymap): * keymap.c (accessible_keymaps_mapper_1): * keymap.c (Faccessible_keymaps): * keymap.c (Fsingle_key_description): * keymap.c (raw_keys_to_keys): * keymap.c (format_raw_keys): * keymap.c (where_is_recursive_mapper): * keymap.c (where_is_internal): * keymap.c (describe_map_mapper_shadow_search): * keymap.c (keymap_lookup_inherited_mapper): * keymap.c (describe_map_mapper): * keymap.h (event_matches_key_specifier_p): * lisp.h: * lisp.h (this): * lisp.h (RETURN_NOT_REACHED): * lisp.h (struct Lisp_Vector): * lisp.h (struct Lisp_Bit_Vector): * lisp.h (UNGCPRO_1): * lisp.h (NUNGCPRO): * lisp.h (NNUNGCPRO): * lisp.h (DECLARE_INLINE_HEADER): * lrecord.h: * lrecord.h (struct lrecord_header): * lrecord.h (struct lcrecord_header): * lrecord.h (lrecord_type): * lrecord.h (struct lrecord_implementation): * lrecord.h (RECORD_DUMPABLE): * lrecord.h (memory_description_type): * lrecord.h (data_description_entry_flags): * lrecord.h (struct memory_description): * lrecord.h (struct sized_memory_description): * lrecord.h (XD_INDIRECT): * lrecord.h (XD_IS_INDIRECT): * lrecord.h (XD_DYNARR_DESC): * lrecord.h (DEFINE_BASIC_LRECORD_IMPLEMENTATION): * lrecord.h (MAKE_LRECORD_IMPLEMENTATION): * lrecord.h (MAKE_EXTERNAL_LRECORD_IMPLEMENTATION): * lrecord.h (alloc_lcrecord_type): * lstream.c: * lstream.c (Lstream_new): * lstream.c (lisp_buffer_marker): * lstream.h: * lstream.h (lstream_implementation): * lstream.h (DEFINE_LSTREAM_IMPLEMENTATION): * lstream.h (DEFINE_LSTREAM_IMPLEMENTATION_WITH_DATA): * marker.c: * marker.c (copy_marker_1): * mem-limits.h: * menubar-gtk.c: * menubar-gtk.c (gtk_popup_menu): * menubar-msw.c: * menubar-msw.c (mswindows_popup_menu): * menubar-x.c (make_dummy_xbutton_event): * menubar-x.c (command_builder_operate_menu_accelerator): * menubar-x.c (menu_accelerator_safe_compare): * menubar-x.c (menu_accelerator_safe_mod_compare): * mule-charset.c: * mule-charset.c (make_charset): * mule-charset.c (Fcharset_property): * mule-coding.c: * mule-coding.c (ccs_description_1): * mule-coding.c (ccs_description =): * mule-coding.c (ccsd_description_1): * mule-coding.c (ccsd_description =): * nt.c (getpwnam): * nt.c (init_mswindows_environment): * nt.c (get_cached_volume_information): * nt.c (mswindows_is_executable): * nt.c (read_unc_volume): * nt.c (mswindows_access): * nt.c (mswindows_link): * nt.c (mswindows_fstat): * nt.c (mswindows_stat): * nt.c (mswindows_executable_type): * nt.c (Fmswindows_short_file_name): * nt.c (Fmswindows_long_file_name): * objects-impl.h (struct Lisp_Color_Instance): * objects-impl.h (struct Lisp_Font_Instance): * objects-tty.c: * objects-x.c (allocate_nearest_color): * objects.c: * objects.c (Fmake_color_instance): * objects.c (Fmake_font_instance): * objects.c (font_instantiate): * opaque.c: * opaque.c (make_opaque): * opaque.c (make_opaque_ptr): * opaque.c (reinit_opaque_early): * opaque.c (init_opaque_once_early): * print.c: * print.c (printing_badness): * print.c (printing_major_badness): * print.c (print_internal): * print.c (debug_p4): * print.c (dp): * print.c (debug_backtrace): * process-nt.c (nt_create_process): * process-nt.c (get_internet_address): * process-unix.c: * process-unix.c (struct unix_process_data): * process-unix.c (get_internet_address): * process-unix.c (unix_alloc_process_data): * process-unix.c (unix_create_process): * process-unix.c (try_to_initialize_subtty): * process-unix.c (unix_kill_child_process): * process-unix.c (process_type_create_unix): * process.c: * process.c (mark_process): * process.c (MARKED_SLOT): * process.c (make_process_internal): * process.c (Fprocess_tty_name): * process.c (decode_signal): * process.h: * procimpl.h: * procimpl.h (struct process_methods): * procimpl.h (struct Lisp_Process): * rangetab.c: * realpath.c (readlink_and_correct_case): * redisplay-x.c (x_window_output_end): * redisplay-x.c (x_redraw_exposed_area): * redisplay-x.c (x_clear_frame): * redisplay.c: * redisplay.h: * redisplay.h (struct rune_dglyph): * redisplay.h (struct rune): * scrollbar.c: * scrollbar.c (create_scrollbar_instance): * specifier.c: * specifier.c (specifier_empty_extra_description_1): * specifier.c (make_specifier_internal): * specifier.c (decode_locale_type): * specifier.c (decode_how_to_add_specification): * specifier.h: * specifier.h (struct specifier_methods): * specifier.h (DEFINE_SPECIFIER_TYPE_WITH_DATA): * specifier.h (INITIALIZE_SPECIFIER_TYPE_WITH_DATA): * symbols.c: * symbols.c (Fsetplist): * symbols.c (default_value): * symbols.c (decode_magic_handler_type): * symbols.c (handler_type_from_function_symbol): * symbols.c (Fdefvaralias): * symbols.c (init_symbols_once_early): * symbols.c (reinit_symbols_early): * symsinit.h: * sysdep.c (sys_subshell): * sysdep.c (tty_init_sys_modes_on_device): * syswindows.h: * text.c (dfc_convert_to_external_format): * text.c (dfc_convert_to_internal_format): * text.c (reinit_eistring_early): * text.c (init_eistring_once_early): * text.c (reinit_vars_of_text): * text.h: * text.h (INC_IBYTEPTR_FMT): * text.h (DEC_IBYTEPTR_FMT): * toolbar.c: * toolbar.c (decode_toolbar_position): * tooltalk.c: * ui-gtk.c: * unexnt.c: * unexnt.c (_start): * unexnt.c (unexec): * unexnt.c (get_section_info): * unicode.c: * unicode.c (vars_of_unicode): * window.c: * window.c (allocate_window): * window.c (new_window_mirror): * window.c (update_mirror_internal): * winslots.h:

/* XEmacs routines to deal with range tables.
   Copyright (C) 1995 Sun Microsystems, Inc.
   Copyright (C) 1995, 2002 Ben Wing.

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: Not in FSF. */

/* Written by Ben Wing, August 1995. */

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

Lisp_Object Qrange_tablep;
Lisp_Object Qrange_table;


/************************************************************************/
/*                            Range table object                        */
/************************************************************************/

/* We use a sorted array of ranges.

   #### We should be using the gap array stuff from extents.c.  This
   is not hard but just requires moving that stuff out of that file. */

static Lisp_Object
mark_range_table (Lisp_Object obj)
{
  Lisp_Range_Table *rt = XRANGE_TABLE (obj);
  int i;

  for (i = 0; i < Dynarr_length (rt->entries); i++)
    mark_object (Dynarr_at (rt->entries, i).val);
  return Qnil;
}

static void
print_range_table (Lisp_Object obj, Lisp_Object printcharfun, int escapeflag)
{
  Lisp_Range_Table *rt = XRANGE_TABLE (obj);
  int i;

  write_c_string (printcharfun, "#s(range-table data (");
  for (i = 0; i < Dynarr_length (rt->entries); i++)
    {
      struct range_table_entry *rte = Dynarr_atp (rt->entries, i);
      if (i > 0)
	write_c_string (printcharfun, " ");
      if (rte->first == rte->last)
	write_fmt_string (printcharfun, "%ld ", (long) (rte->first));
      else
	write_fmt_string (printcharfun, "(%ld %ld) ", (long) (rte->first),
			  (long) (rte->last));
      print_internal (rte->val, printcharfun, 1);
    }
  write_c_string (printcharfun, "))");
}

static int
range_table_equal (Lisp_Object obj1, Lisp_Object obj2, int depth)
{
  Lisp_Range_Table *rt1 = XRANGE_TABLE (obj1);
  Lisp_Range_Table *rt2 = XRANGE_TABLE (obj2);
  int i;

  if (Dynarr_length (rt1->entries) != Dynarr_length (rt2->entries))
    return 0;

  for (i = 0; i < Dynarr_length (rt1->entries); i++)
    {
      struct range_table_entry *rte1 = Dynarr_atp (rt1->entries, i);
      struct range_table_entry *rte2 = Dynarr_atp (rt2->entries, i);

      if (rte1->first != rte2->first
	  || rte1->last != rte2->last
	  || !internal_equal (rte1->val, rte2->val, depth + 1))
	return 0;
    }

  return 1;
}

static unsigned long
range_table_entry_hash (struct range_table_entry *rte, int depth)
{
  return HASH3 (rte->first, rte->last, internal_hash (rte->val, depth + 1));
}

static unsigned long
range_table_hash (Lisp_Object obj, int depth)
{
  Lisp_Range_Table *rt = XRANGE_TABLE (obj);
  int i;
  int size = Dynarr_length (rt->entries);
  unsigned long hash = size;

  /* approach based on internal_array_hash(). */
  if (size <= 5)
    {
      for (i = 0; i < size; i++)
	hash = HASH2 (hash,
		      range_table_entry_hash (Dynarr_atp (rt->entries, i),
					      depth));
      return hash;
    }

  /* just pick five elements scattered throughout the array.
     A slightly better approach would be to offset by some
     noise factor from the points chosen below. */
  for (i = 0; i < 5; i++)
    hash = HASH2 (hash, range_table_entry_hash (Dynarr_atp (rt->entries,
							    i*size/5),
						depth));
  return hash;
}

static const struct memory_description rte_description_1[] = {
  { XD_LISP_OBJECT, offsetof (range_table_entry, val) },
  { XD_END }
};

static const struct sized_memory_description rte_description = {
  sizeof (range_table_entry),
  rte_description_1
};

static const struct memory_description rted_description_1[] = {
  XD_DYNARR_DESC (range_table_entry_dynarr, &rte_description),
  { XD_END }
};

static const struct sized_memory_description rted_description = {
  sizeof (range_table_entry_dynarr),
  rted_description_1
};

static const struct memory_description range_table_description[] = {
  { XD_STRUCT_PTR,  offsetof (Lisp_Range_Table, entries),  1, &rted_description },
  { XD_END }
};

DEFINE_LRECORD_IMPLEMENTATION ("range-table", range_table,
			       1, /*dumpable-flag*/
                               mark_range_table, print_range_table, 0,
			       range_table_equal, range_table_hash,
			       range_table_description,
			       Lisp_Range_Table);

/************************************************************************/
/*                        Range table operations                        */
/************************************************************************/

#ifdef ERROR_CHECK_STRUCTURES

static void
verify_range_table (Lisp_Range_Table *rt)
{
  int i;

  for (i = 0; i < Dynarr_length (rt->entries); i++)
    {
      struct range_table_entry *rte = Dynarr_atp (rt->entries, i);
      assert (rte->last >= rte->first);
      if (i > 0)
	assert (Dynarr_at (rt->entries, i - 1).last < rte->first);
    }
}

#else

#define verify_range_table(rt)

#endif

/* Look up in a range table without the Dynarr wrapper.
   Used also by the unified range table format. */

static Lisp_Object
get_range_table (EMACS_INT pos, int nentries, struct range_table_entry *tab,
		 Lisp_Object default_)
{
  int left = 0, right = nentries;

  /* binary search for the entry.  Based on similar code in
     extent_list_locate(). */
  while (left != right)
    {
      /* RIGHT might not point to a valid entry (i.e. it's at the end
	 of the list), so NEWPOS must round down. */
      int newpos = (left + right) >> 1;
      struct range_table_entry *entry = tab + newpos;
      if (pos > entry->last)
	left = newpos+1;
      else if (pos < entry->first)
	right = newpos;
      else
	return entry->val;
    }

  return default_;
}

DEFUN ("range-table-p", Frange_table_p, 1, 1, 0, /*
Return non-nil if OBJECT is a range table.
*/
       (object))
{
  return RANGE_TABLEP (object) ? Qt : Qnil;
}

DEFUN ("make-range-table", Fmake_range_table, 0, 0, 0, /*
Return a new, empty range table.
You can manipulate it using `put-range-table', `get-range-table',
`remove-range-table', and `clear-range-table'.
*/
       ())
{
  Lisp_Range_Table *rt = alloc_lcrecord_type (Lisp_Range_Table,
					      &lrecord_range_table);
  rt->entries = Dynarr_new (range_table_entry);
  return wrap_range_table (rt);
}

DEFUN ("copy-range-table", Fcopy_range_table, 1, 1, 0, /*
Return a new range table which is a copy of RANGE-TABLE.
It will contain the same values for the same ranges as RANGE-TABLE.
The values will not themselves be copied.
*/
       (range_table))
{
  Lisp_Range_Table *rt, *rtnew;

  CHECK_RANGE_TABLE (range_table);
  rt = XRANGE_TABLE (range_table);

  rtnew = alloc_lcrecord_type (Lisp_Range_Table, &lrecord_range_table);
  rtnew->entries = Dynarr_new (range_table_entry);

  Dynarr_add_many (rtnew->entries, Dynarr_atp (rt->entries, 0),
		   Dynarr_length (rt->entries));
  return wrap_range_table (rtnew);
}

DEFUN ("get-range-table", Fget_range_table, 2, 3, 0, /*
Find value for position POS in RANGE-TABLE.
If there is no corresponding value, return DEFAULT (defaults to nil).
*/
       (pos, range_table, default_))
{
  Lisp_Range_Table *rt;

  CHECK_RANGE_TABLE (range_table);
  rt = XRANGE_TABLE (range_table);

  CHECK_INT_COERCE_CHAR (pos);

  return get_range_table (XINT (pos), Dynarr_length (rt->entries),
			  Dynarr_atp (rt->entries, 0), default_);
}

void
put_range_table (Lisp_Object table, EMACS_INT first,
		 EMACS_INT last, Lisp_Object val)
{
  int i;
  int insert_me_here = -1;
  Lisp_Range_Table *rt = XRANGE_TABLE (table);

  /* Now insert in the proper place.  This gets tricky because
     we may be overlapping one or more existing ranges and need
     to fix them up. */

  /* First delete all sections of any existing ranges that overlap
     the new range. */
  for (i = 0; i < Dynarr_length (rt->entries); i++)
    {
      struct range_table_entry *entry = Dynarr_atp (rt->entries, i);
      /* We insert before the first range that begins at or after the
	 new range. */
      if (entry->first >= first && insert_me_here < 0)
	insert_me_here = i;
      if (entry->last < first)
	/* completely before the new range. */
	continue;
      if (entry->first > last)
	/* completely after the new range.  No more possibilities of
	   finding overlapping ranges. */
	break;
      if (entry->first < first && entry->last <= last)
	{
	  /* looks like:

	                 [ NEW ]
	         [ EXISTING ]

	   */
	  /* truncate the end off of it. */
	  entry->last = first - 1;
	}
      else if (entry->first < first && entry->last > last)
	/* looks like:

	         [ NEW ]
	       [ EXISTING ]

	 */
	/* need to split this one in two. */
	{
	  struct range_table_entry insert_me_too;

	  insert_me_too.first = last + 1;
	  insert_me_too.last = entry->last;
	  insert_me_too.val = entry->val;
	  entry->last = first - 1;
	  Dynarr_insert_many (rt->entries, &insert_me_too, 1, i + 1);
	}
      else if (entry->last > last)
	{
	  /* looks like:

	       [ NEW ]
	         [ EXISTING ]

	   */
	  /* truncate the start off of it. */
	  entry->first = last + 1;
	}
      else
	{
	  /* existing is entirely within new. */
	  Dynarr_delete_many (rt->entries, i, 1);
	  i--; /* back up since everything shifted one to the left. */
	}
    }

  /* Someone asked us to delete the range, not insert it. */
  if (UNBOUNDP (val))
    return;

  /* Now insert the new entry, maybe at the end. */

  if (insert_me_here < 0)
    insert_me_here = i;

  {
    struct range_table_entry insert_me;

    insert_me.first = first;
    insert_me.last = last;
    insert_me.val = val;

    Dynarr_insert_many (rt->entries, &insert_me, 1, insert_me_here);
  }

  /* Now see if we can combine this entry with adjacent ones just
     before or after. */

  if (insert_me_here > 0)
    {
      struct range_table_entry *entry = Dynarr_atp (rt->entries,
						    insert_me_here - 1);
      if (EQ (val, entry->val) && entry->last == first - 1)
	{
	  entry->last = last;
	  Dynarr_delete_many (rt->entries, insert_me_here, 1);
	  insert_me_here--;
	  /* We have morphed into a larger range.  Update our records
	     in case we also combine with the one after. */
	  first = entry->first;
	}
    }

  if (insert_me_here < Dynarr_length (rt->entries) - 1)
    {
      struct range_table_entry *entry = Dynarr_atp (rt->entries,
						    insert_me_here + 1);
      if (EQ (val, entry->val) && entry->first == last + 1)
	{
	  entry->first = first;
	  Dynarr_delete_many (rt->entries, insert_me_here, 1);
	}
    }
}

DEFUN ("put-range-table", Fput_range_table, 4, 4, 0, /*
Set the value for range (START, END) to be VALUE in RANGE-TABLE.
*/
       (start, end, value, range_table))
{
  EMACS_INT first, last;

  CHECK_RANGE_TABLE (range_table);
  CHECK_INT_COERCE_CHAR (start);
  first = XINT (start);
  CHECK_INT_COERCE_CHAR (end);
  last = XINT (end);
  if (first > last)
    invalid_argument_2 ("start must be <= end", start, end);

  put_range_table (range_table, first, last, value);
  verify_range_table (XRANGE_TABLE (range_table));
  return Qnil;
}

DEFUN ("remove-range-table", Fremove_range_table, 3, 3, 0, /*
Remove the value for range (START, END) in RANGE-TABLE.
*/
       (start, end, range_table))
{
  return Fput_range_table (start, end, Qunbound, range_table);
}

DEFUN ("clear-range-table", Fclear_range_table, 1, 1, 0, /*
Flush RANGE-TABLE.
*/
       (range_table))
{
  CHECK_RANGE_TABLE (range_table);
  Dynarr_reset (XRANGE_TABLE (range_table)->entries);
  return Qnil;
}

DEFUN ("map-range-table", Fmap_range_table, 2, 2, 0, /*
Map FUNCTION over entries in RANGE-TABLE, calling it with three args,
the beginning and end of the range and the corresponding value.

Results are guaranteed to be correct (i.e. each entry processed
exactly once) if FUNCTION modifies or deletes the current entry
\(i.e. passes the current range to `put-range-table' or
`remove-range-table'), but not otherwise.
*/
       (function, range_table))
{
  Lisp_Range_Table *rt;
  int i;

  CHECK_RANGE_TABLE (range_table);
  CHECK_FUNCTION (function);

  rt = XRANGE_TABLE (range_table);

  /* Do not "optimize" by pulling out the length computation below!
     FUNCTION may have changed the table. */
  for (i = 0; i < Dynarr_length (rt->entries); i++)
    {
      struct range_table_entry *entry = Dynarr_atp (rt->entries, i);
      EMACS_INT first, last;
      Lisp_Object args[4];
      int oldlen;

    again:
      first = entry->first;
      last = entry->last;
      oldlen = Dynarr_length (rt->entries);
      args[0] = function;
      args[1] = make_int (first);
      args[2] = make_int (last);
      args[3] = entry->val;
      Ffuncall (countof (args), args);
      /* Has FUNCTION removed the entry? */
      if (oldlen > Dynarr_length (rt->entries)
	  && i < Dynarr_length (rt->entries)
	  && (first != entry->first || last != entry->last))
	goto again;
      }

  return Qnil;
}


/************************************************************************/
/*                         Range table read syntax                      */
/************************************************************************/

static int
rangetab_data_validate (Lisp_Object keyword, Lisp_Object value,
			Error_Behavior errb)
{
  Lisp_Object rest;

  /* #### should deal with errb */
  EXTERNAL_LIST_LOOP (rest, value)
    {
      Lisp_Object range = XCAR (rest);
      rest = XCDR (rest);
      if (!CONSP (rest))
	sferror ("Invalid list format", value);
      if (!INTP (range) && !CHARP (range)
	  && !(CONSP (range) && CONSP (XCDR (range))
	       && NILP (XCDR (XCDR (range)))
	       && (INTP (XCAR (range)) || CHARP (XCAR (range)))
	       && (INTP (XCAR (XCDR (range))) || CHARP (XCAR (XCDR (range))))))
	sferror ("Invalid range format", range);
    }

  return 1;
}

static Lisp_Object
rangetab_instantiate (Lisp_Object data)
{
  Lisp_Object rangetab = Fmake_range_table ();

  if (!NILP (data))
    {
      data = Fcar (Fcdr (data)); /* skip over 'data keyword */
      while (!NILP (data))
	{
	  Lisp_Object range = Fcar (data);
	  Lisp_Object val = Fcar (Fcdr (data));

	  data = Fcdr (Fcdr (data));
	  if (CONSP (range))
	    Fput_range_table (Fcar (range), Fcar (Fcdr (range)), val,
			      rangetab);
	  else
	    Fput_range_table (range, range, val, rangetab);
	}
    }

  return rangetab;
}


/************************************************************************/
/*                         Unified range tables                         */
/************************************************************************/

/* A "unified range table" is a format for storing range tables
   as contiguous blocks of memory.  This is used by the regexp
   code, which needs to use range tables to properly handle []
   constructs in the presence of extended characters but wants to
   store an entire compiled pattern as a contiguous block of memory.

   Unified range tables are designed so that they can be placed
   at an arbitrary (possibly mis-aligned) place in memory.
   (Dealing with alignment is a pain in the ass.)

   WARNING: No provisions for garbage collection are currently made.
   This means that there must not be any Lisp objects in a unified
   range table that need to be marked for garbage collection.
   Good candidates for objects that can go into a range table are

   -- numbers and characters (do not need to be marked)
   -- nil, t (marked elsewhere)
   -- charsets and coding systems (automatically marked because
				   they are in a marked list,
				   and can't be removed)

   Good but slightly less so:

   -- symbols (could be uninterned, but that is not likely)

   Somewhat less good:

   -- buffers, frames, devices (could get deleted)


   It is expected that you work with range tables in the normal
   format and then convert to unified format when you are done
   making modifications.  As such, no functions are provided
   for modifying a unified range table.  The only operations
   you can do to unified range tables are

   -- look up a value
   -- retrieve all the ranges in an iterative fashion

*/

/* The format of a unified range table is as follows:

   -- The first byte contains the number of bytes to skip to find the
      actual start of the table.  This deals with alignment constraints,
      since the table might want to go at any arbitrary place in memory.
   -- The next three bytes contain the number of bytes to skip (from the
      *first* byte) to find the stuff after the table.  It's stored in
      little-endian format because that's how God intended things.  We don't
      necessarily start the stuff at the very end of the table because
      we want to have at least ALIGNOF (EMACS_INT) extra space in case
      we have to move the range table around. (It appears that some
      architectures don't maintain alignment when reallocing.)
   -- At the prescribed offset is a struct unified_range_table, containing
      some number of `struct range_table_entry' entries. */

struct unified_range_table
{
  int nentries;
  struct range_table_entry first;
};

/* Return size in bytes needed to store the data in a range table. */

int
unified_range_table_bytes_needed (Lisp_Object rangetab)
{
  return (sizeof (struct range_table_entry) *
	  (Dynarr_length (XRANGE_TABLE (rangetab)->entries) - 1) +
	  sizeof (struct unified_range_table) +
	  /* ALIGNOF a struct may be too big. */
	  /* We have four bytes for the size numbers, and an extra
	     four or eight bytes for making sure we get the alignment
	     OK. */
	  ALIGNOF (EMACS_INT) + 4);
}

/* Convert a range table into unified format and store in DEST,
   which must be able to hold the number of bytes returned by
   range_table_bytes_needed(). */

void
unified_range_table_copy_data (Lisp_Object rangetab, void *dest)
{
  /* We cast to the above structure rather than just casting to
     char * and adding sizeof(int), because that will lead to
     mis-aligned data on the Alpha machines. */
  struct unified_range_table *un;
  range_table_entry_dynarr *rted = XRANGE_TABLE (rangetab)->entries;
  int total_needed = unified_range_table_bytes_needed (rangetab);
  void *new_dest = ALIGN_PTR ((char *) dest + 4, EMACS_INT);

  * (char *) dest = (char) ((char *) new_dest - (char *) dest);
  * ((unsigned char *) dest + 1) = total_needed & 0xFF;
  total_needed >>= 8;
  * ((unsigned char *) dest + 2) = total_needed & 0xFF;
  total_needed >>= 8;
  * ((unsigned char *) dest + 3) = total_needed & 0xFF;
  un = (struct unified_range_table *) new_dest;
  un->nentries = Dynarr_length (rted);
  memcpy (&un->first, Dynarr_atp (rted, 0),
	  sizeof (struct range_table_entry) * Dynarr_length (rted));
}

/* Return number of bytes actually used by a unified range table. */

int
unified_range_table_bytes_used (void *unrangetab)
{
  return ((* ((unsigned char *) unrangetab + 1))
	  + ((* ((unsigned char *) unrangetab + 2)) << 8)
	  + ((* ((unsigned char *) unrangetab + 3)) << 16));
}

/* Make sure the table is aligned, and move it around if it's not. */
static void
align_the_damn_table (void *unrangetab)
{
  void *cur_dest = (char *) unrangetab + * (char *) unrangetab;
  if (cur_dest != ALIGN_PTR (cur_dest, EMACS_INT))
    {
      int count = (unified_range_table_bytes_used (unrangetab) - 4
		   - ALIGNOF (EMACS_INT));
      /* Find the proper location, just like above. */
      void *new_dest = ALIGN_PTR ((char *) unrangetab + 4, EMACS_INT);
      /* memmove() works in the presence of overlapping data. */
      memmove (new_dest, cur_dest, count);
      * (char *) unrangetab = (char) ((char *) new_dest - (char *) unrangetab);
    }
}

/* Look up a value in a unified range table. */

Lisp_Object
unified_range_table_lookup (void *unrangetab, EMACS_INT pos,
			    Lisp_Object default_)
{
  void *new_dest;
  struct unified_range_table *un;

  align_the_damn_table (unrangetab);
  new_dest = (char *) unrangetab + * (char *) unrangetab;
  un = (struct unified_range_table *) new_dest;

  return get_range_table (pos, un->nentries, &un->first, default_);
}

/* Return number of entries in a unified range table. */

int
unified_range_table_nentries (void *unrangetab)
{
  void *new_dest;
  struct unified_range_table *un;

  align_the_damn_table (unrangetab);
  new_dest = (char *) unrangetab + * (char *) unrangetab;
  un = (struct unified_range_table *) new_dest;
  return un->nentries;
}

/* Return the OFFSETth range (counting from 0) in UNRANGETAB. */
void
unified_range_table_get_range (void *unrangetab, int offset,
			       EMACS_INT *min, EMACS_INT *max,
			       Lisp_Object *val)
{
  void *new_dest;
  struct unified_range_table *un;
  struct range_table_entry *tab;

  align_the_damn_table (unrangetab);
  new_dest = (char *) unrangetab + * (char *) unrangetab;
  un = (struct unified_range_table *) new_dest;

  assert (offset >= 0 && offset < un->nentries);
  tab = (&un->first) + offset;
  *min = tab->first;
  *max = tab->last;
  *val = tab->val;
}


/************************************************************************/
/*                            Initialization                            */
/************************************************************************/

void
syms_of_rangetab (void)
{
  INIT_LRECORD_IMPLEMENTATION (range_table);

  DEFSYMBOL_MULTIWORD_PREDICATE (Qrange_tablep);
  DEFSYMBOL (Qrange_table);

  DEFSUBR (Frange_table_p);
  DEFSUBR (Fmake_range_table);
  DEFSUBR (Fcopy_range_table);
  DEFSUBR (Fget_range_table);
  DEFSUBR (Fput_range_table);
  DEFSUBR (Fremove_range_table);
  DEFSUBR (Fclear_range_table);
  DEFSUBR (Fmap_range_table);
}

void
structure_type_create_rangetab (void)
{
  struct structure_type *st;

  st = define_structure_type (Qrange_table, 0, rangetab_instantiate);

  define_structure_type_keyword (st, Qdata, rangetab_data_validate);
}