[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:

/* Primitive operations on floating point for XEmacs Lisp interpreter.
   Copyright (C) 1988, 1993, 1994 Free Software Foundation, Inc.

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 19.30. */

/* ANSI C requires only these float functions:
   acos, asin, atan, atan2, ceil, cos, cosh, exp, fabs, floor, fmod,
   frexp, ldexp, log, log10, modf, pow, sin, sinh, sqrt, tan, tanh.

   Define HAVE_INVERSE_HYPERBOLIC if you have acosh, asinh, and atanh.
   Define HAVE_CBRT if you have cbrt().
   Define HAVE_RINT if you have rint().
   If you don't define these, then the appropriate routines will be simulated.

   Define HAVE_MATHERR if on a system supporting the SysV matherr() callback.
   (This should happen automatically.)

   Define FLOAT_CHECK_ERRNO if the float library routines set errno.
   This has no effect if HAVE_MATHERR is defined.

   Define FLOAT_CATCH_SIGILL if the float library routines signal SIGILL.
   (What systems actually do this?  Let me know. -jwz)

   Define FLOAT_CHECK_DOMAIN if the float library doesn't handle errors by
   either setting errno, or signalling SIGFPE/SIGILL.  Otherwise, domain and
   range checking will happen before calling the float routines.  This has
   no effect if HAVE_MATHERR is defined (since matherr will be called when
   a domain error occurs).
 */

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

/* The code uses emacs_rint, so that it works to undefine HAVE_RINT
   if `rint' exists but does not work right.  */
#ifdef HAVE_RINT
#define emacs_rint rint
#else
static double
emacs_rint (double x)
{
  double r = floor (x + 0.5);
  double diff = fabs (r - x);
  /* Round to even and correct for any roundoff errors.  */
  if (diff >= 0.5 && (diff > 0.5 || r != 2.0 * floor (r / 2.0)))
    r += r < x ? 1.0 : -1.0;
  return r;
}
#endif

/* Nonzero while executing in floating point.
   This tells float_error what to do.  */
static int in_float;

/* If an argument is out of range for a mathematical function,
   here is the actual argument value to use in the error message.  */
static Lisp_Object float_error_arg, float_error_arg2;
static const char *float_error_fn_name;

/* Evaluate the floating point expression D, recording NUM
   as the original argument for error messages.
   D is normally an assignment expression.
   Handle errors which may result in signals or may set errno.

   Note that float_error may be declared to return void, so you can't
   just cast the zero after the colon to (SIGTYPE) to make the types
   check properly.  */
#ifdef FLOAT_CHECK_ERRNO
#define IN_FLOAT(d, name, num)				\
  do {							\
    float_error_arg = num;				\
    float_error_fn_name = name;				\
    in_float = 1; errno = 0; (d); in_float = 0;		\
    if (errno != 0) in_float_error ();			\
  } while (0)
#define IN_FLOAT2(d, name, num, num2)			\
  do {							\
    float_error_arg = num;				\
    float_error_arg2 = num2;				\
    float_error_fn_name = name;				\
    in_float = 2; errno = 0; (d); in_float = 0;		\
    if (errno != 0) in_float_error ();			\
  } while (0)
#else
#define IN_FLOAT(d, name, num) (in_float = 1, (d), in_float = 0)
#define IN_FLOAT2(d, name, num, num2) (in_float = 2, (d), in_float = 0)
#endif


#define arith_error(op,arg) \
  Fsignal (Qarith_error, list2 (build_msg_string (op), arg))
#define range_error(op,arg) \
  Fsignal (Qrange_error, list2 (build_msg_string (op), arg))
#define range_error2(op,a1,a2) \
  Fsignal (Qrange_error, list3 (build_msg_string (op), a1, a2))
#define domain_error(op,arg) \
  Fsignal (Qdomain_error, list2 (build_msg_string (op), arg))
#define domain_error2(op,a1,a2) \
  Fsignal (Qdomain_error, list3 (build_msg_string (op), a1, a2))


/* Convert float to Lisp Integer if it fits, else signal a range
   error using the given arguments.  */
static Lisp_Object
float_to_int (double x, const char *name, Lisp_Object num, Lisp_Object num2)
{
  if (x >= ((EMACS_INT) 1 << (VALBITS-1))
      || x <= - ((EMACS_INT) 1 << (VALBITS-1)) - (EMACS_INT) 1)
  {
    if (!UNBOUNDP (num2))
      range_error2 (name, num, num2);
    else
      range_error (name, num);
  }
  return (make_int ((EMACS_INT) x));
}


static void
in_float_error (void)
{
  switch (errno)
  {
  case 0:
    break;
  case EDOM:
    if (in_float == 2)
      domain_error2 (float_error_fn_name, float_error_arg, float_error_arg2);
    else
      domain_error (float_error_fn_name, float_error_arg);
    break;
  case ERANGE:
    range_error (float_error_fn_name, float_error_arg);
    break;
  default:
    arith_error (float_error_fn_name, float_error_arg);
    break;
  }
}


static Lisp_Object
mark_float (Lisp_Object obj)
{
  return Qnil;
}

static int
float_equal (Lisp_Object obj1, Lisp_Object obj2, int depth)
{
  return (extract_float (obj1) == extract_float (obj2));
}

static Hashcode
float_hash (Lisp_Object obj, int depth)
{
  /* mod the value down to 32-bit range */
  /* #### change for 64-bit machines */
  return (unsigned long) fmod (extract_float (obj), 4e9);
}

static const struct memory_description float_description[] = {
  { XD_END }
};

DEFINE_BASIC_LRECORD_IMPLEMENTATION ("float", float,
				     1, /*dumpable-flag*/
				     mark_float, print_float, 0, float_equal,
				     float_hash, float_description,
				     Lisp_Float);

/* Extract a Lisp number as a `double', or signal an error.  */

double
extract_float (Lisp_Object num)
{
  if (FLOATP (num))
    return XFLOAT_DATA (num);

  if (INTP (num))
    return (double) XINT (num);

  return extract_float (wrong_type_argument (Qnumberp, num));
}

/* Trig functions.  */

DEFUN ("acos", Facos, 1, 1, 0, /*
Return the inverse cosine of NUMBER.
*/
       (number))
{
  double d = extract_float (number);
#ifdef FLOAT_CHECK_DOMAIN
  if (d > 1.0 || d < -1.0)
    domain_error ("acos", number);
#endif
  IN_FLOAT (d = acos (d), "acos", number);
  return make_float (d);
}

DEFUN ("asin", Fasin, 1, 1, 0, /*
Return the inverse sine of NUMBER.
*/
       (number))
{
  double d = extract_float (number);
#ifdef FLOAT_CHECK_DOMAIN
  if (d > 1.0 || d < -1.0)
    domain_error ("asin", number);
#endif
  IN_FLOAT (d = asin (d), "asin", number);
  return make_float (d);
}

DEFUN ("atan", Fatan, 1, 2, 0, /*
Return the inverse tangent of NUMBER.
If optional second argument NUMBER2 is provided,
return atan2 (NUMBER, NUMBER2).
*/
       (number, number2))
{
  double d = extract_float (number);

  if (NILP (number2))
    IN_FLOAT (d = atan (d), "atan", number);
  else
    {
      double d2 = extract_float (number2);
#ifdef FLOAT_CHECK_DOMAIN
      if (d == 0.0 && d2 == 0.0)
	domain_error2 ("atan", number, number2);
#endif
      IN_FLOAT2 (d = atan2 (d, d2), "atan", number, number2);
    }
  return make_float (d);
}

DEFUN ("cos", Fcos, 1, 1, 0, /*
Return the cosine of NUMBER.
*/
       (number))
{
  double d = extract_float (number);
  IN_FLOAT (d = cos (d), "cos", number);
  return make_float (d);
}

DEFUN ("sin", Fsin, 1, 1, 0, /*
Return the sine of NUMBER.
*/
       (number))
{
  double d = extract_float (number);
  IN_FLOAT (d = sin (d), "sin", number);
  return make_float (d);
}

DEFUN ("tan", Ftan, 1, 1, 0, /*
Return the tangent of NUMBER.
*/
       (number))
{
  double d = extract_float (number);
  double c = cos (d);
#ifdef FLOAT_CHECK_DOMAIN
  if (c == 0.0)
    domain_error ("tan", number);
#endif
  IN_FLOAT (d = (sin (d) / c), "tan", number);
  return make_float (d);
}

/* Bessel functions */
#if 0 /* Leave these out unless we find there's a reason for them.  */

DEFUN ("bessel-j0", Fbessel_j0, 1, 1, 0, /*
Return the bessel function j0 of NUMBER.
*/
       (number))
{
  double d = extract_float (number);
  IN_FLOAT (d = j0 (d), "bessel-j0", number);
  return make_float (d);
}

DEFUN ("bessel-j1", Fbessel_j1, 1, 1, 0, /*
Return the bessel function j1 of NUMBER.
*/
       (number))
{
  double d = extract_float (number);
  IN_FLOAT (d = j1 (d), "bessel-j1", number);
  return make_float (d);
}

DEFUN ("bessel-jn", Fbessel_jn, 2, 2, 0, /*
Return the order N bessel function output jn of NUMBER.
The first number (the order) is truncated to an integer.
*/
       (number1, number2))
{
  int i1 = extract_float (number1);
  double f2 = extract_float (number2);

  IN_FLOAT (f2 = jn (i1, f2), "bessel-jn", number1);
  return make_float (f2);
}

DEFUN ("bessel-y0", Fbessel_y0, 1, 1, 0, /*
Return the bessel function y0 of NUMBER.
*/
       (number))
{
  double d = extract_float (number);
  IN_FLOAT (d = y0 (d), "bessel-y0", number);
  return make_float (d);
}

DEFUN ("bessel-y1", Fbessel_y1, 1, 1, 0, /*
Return the bessel function y1 of NUMBER.
*/
       (number))
{
  double d = extract_float (number);
  IN_FLOAT (d = y1 (d), "bessel-y0", number);
  return make_float (d);
}

DEFUN ("bessel-yn", Fbessel_yn, 2, 2, 0, /*
Return the order N bessel function output yn of NUMBER.
The first number (the order) is truncated to an integer.
*/
       (number1, number2))
{
  int i1 = extract_float (number1);
  double f2 = extract_float (number2);

  IN_FLOAT (f2 = yn (i1, f2), "bessel-yn", number1);
  return make_float (f2);
}

#endif /* 0 (bessel functions) */

/* Error functions. */
#if 0 /* Leave these out unless we see they are worth having.  */

DEFUN ("erf", Ferf, 1, 1, 0, /*
Return the mathematical error function of NUMBER.
*/
       (number))
{
  double d = extract_float (number);
  IN_FLOAT (d = erf (d), "erf", number);
  return make_float (d);
}

DEFUN ("erfc", Ferfc, 1, 1, 0, /*
Return the complementary error function of NUMBER.
*/
       (number))
{
  double d = extract_float (number);
  IN_FLOAT (d = erfc (d), "erfc", number);
  return make_float (d);
}

DEFUN ("log-gamma", Flog_gamma, 1, 1, 0, /*
Return the log gamma of NUMBER.
*/
       (number))
{
  double d = extract_float (number);
  IN_FLOAT (d = lgamma (d), "log-gamma", number);
  return make_float (d);
}

#endif /* 0 (error functions) */


/* Root and Log functions. */

DEFUN ("exp", Fexp, 1, 1, 0, /*
Return the exponential base e of NUMBER.
*/
       (number))
{
  double d = extract_float (number);
#ifdef FLOAT_CHECK_DOMAIN
  if (d > 709.7827)   /* Assume IEEE doubles here */
    range_error ("exp", number);
  else if (d < -709.0)
    return make_float (0.0);
  else
#endif
    IN_FLOAT (d = exp (d), "exp", number);
  return make_float (d);
}

DEFUN ("expt", Fexpt, 2, 2, 0, /*
Return the exponential NUMBER1 ** NUMBER2.
*/
       (number1, number2))
{
  if (INTP (number1) && /* common lisp spec */
      INTP (number2)) /* don't promote, if both are ints */
    {
      EMACS_INT retval;
      EMACS_INT x = XINT (number1);
      EMACS_INT y = XINT (number2);

      if (y < 0)
	{
	  if (x == 1)
	    retval = 1;
	  else if (x == -1)
	    retval = (y & 1) ? -1 : 1;
	  else
	    retval = 0;
	}
      else
	{
	  retval = 1;
	  while (y > 0)
	    {
	      if (y & 1)
		retval *= x;
	      x *= x;
	      y = (EMACS_UINT) y >> 1;
	    }
	}
      return make_int (retval);
    }

  {
    double f1 = extract_float (number1);
    double f2 = extract_float (number2);
    /* Really should check for overflow, too */
    if (f1 == 0.0 && f2 == 0.0)
      f1 = 1.0;
# ifdef FLOAT_CHECK_DOMAIN
    else if ((f1 == 0.0 && f2 < 0.0) || (f1 < 0 && f2 != floor(f2)))
      domain_error2 ("expt", number1, number2);
# endif /* FLOAT_CHECK_DOMAIN */
    IN_FLOAT2 (f1 = pow (f1, f2), "expt", number1, number2);
    return make_float (f1);
  }
}

DEFUN ("log", Flog, 1, 2, 0, /*
Return the natural logarithm of NUMBER.
If second optional argument BASE is given, return the logarithm of
NUMBER using that base.
*/
       (number, base))
{
  double d = extract_float (number);
#ifdef FLOAT_CHECK_DOMAIN
  if (d <= 0.0)
    domain_error2 ("log", number, base);
#endif
  if (NILP (base))
    IN_FLOAT (d = log (d), "log", number);
  else
    {
      double b = extract_float (base);
#ifdef FLOAT_CHECK_DOMAIN
      if (b <= 0.0 || b == 1.0)
	domain_error2 ("log", number, base);
#endif
      if (b == 10.0)
	IN_FLOAT2 (d = log10 (d), "log", number, base);
      else
	IN_FLOAT2 (d = (log (d) / log (b)), "log", number, base);
    }
  return make_float (d);
}


DEFUN ("log10", Flog10, 1, 1, 0, /*
Return the logarithm base 10 of NUMBER.
*/
       (number))
{
  double d = extract_float (number);
#ifdef FLOAT_CHECK_DOMAIN
  if (d <= 0.0)
    domain_error ("log10", number);
#endif
  IN_FLOAT (d = log10 (d), "log10", number);
  return make_float (d);
}


DEFUN ("sqrt", Fsqrt, 1, 1, 0, /*
Return the square root of NUMBER.
*/
       (number))
{
  double d = extract_float (number);
#ifdef FLOAT_CHECK_DOMAIN
  if (d < 0.0)
    domain_error ("sqrt", number);
#endif
  IN_FLOAT (d = sqrt (d), "sqrt", number);
  return make_float (d);
}


DEFUN ("cube-root", Fcube_root, 1, 1, 0, /*
Return the cube root of NUMBER.
*/
       (number))
{
  double d = extract_float (number);
#ifdef HAVE_CBRT
  IN_FLOAT (d = cbrt (d), "cube-root", number);
#else
  if (d >= 0.0)
    IN_FLOAT (d = pow (d, 1.0/3.0), "cube-root", number);
  else
    IN_FLOAT (d = -pow (-d, 1.0/3.0), "cube-root", number);
#endif
  return make_float (d);
}

/* Inverse trig functions. */

DEFUN ("acosh", Facosh, 1, 1, 0, /*
Return the inverse hyperbolic cosine of NUMBER.
*/
       (number))
{
  double d = extract_float (number);
#ifdef FLOAT_CHECK_DOMAIN
  if (d < 1.0)
    domain_error ("acosh", number);
#endif
#ifdef HAVE_INVERSE_HYPERBOLIC
  IN_FLOAT (d = acosh (d), "acosh", number);
#else
  IN_FLOAT (d = log (d + sqrt (d*d - 1.0)), "acosh", number);
#endif
  return make_float (d);
}

DEFUN ("asinh", Fasinh, 1, 1, 0, /*
Return the inverse hyperbolic sine of NUMBER.
*/
       (number))
{
  double d = extract_float (number);
#ifdef HAVE_INVERSE_HYPERBOLIC
  IN_FLOAT (d = asinh (d), "asinh", number);
#else
  IN_FLOAT (d = log (d + sqrt (d*d + 1.0)), "asinh", number);
#endif
  return make_float (d);
}

DEFUN ("atanh", Fatanh, 1, 1, 0, /*
Return the inverse hyperbolic tangent of NUMBER.
*/
       (number))
{
  double d = extract_float (number);
#ifdef FLOAT_CHECK_DOMAIN
  if (d >= 1.0 || d <= -1.0)
    domain_error ("atanh", number);
#endif
#ifdef HAVE_INVERSE_HYPERBOLIC
  IN_FLOAT (d = atanh (d), "atanh", number);
#else
  IN_FLOAT (d = 0.5 * log ((1.0 + d) / (1.0 - d)), "atanh", number);
#endif
  return make_float (d);
}

DEFUN ("cosh", Fcosh, 1, 1, 0, /*
Return the hyperbolic cosine of NUMBER.
*/
       (number))
{
  double d = extract_float (number);
#ifdef FLOAT_CHECK_DOMAIN
  if (d > 710.0 || d < -710.0)
    range_error ("cosh", number);
#endif
  IN_FLOAT (d = cosh (d), "cosh", number);
  return make_float (d);
}

DEFUN ("sinh", Fsinh, 1, 1, 0, /*
Return the hyperbolic sine of NUMBER.
*/
       (number))
{
  double d = extract_float (number);
#ifdef FLOAT_CHECK_DOMAIN
  if (d > 710.0 || d < -710.0)
    range_error ("sinh", number);
#endif
  IN_FLOAT (d = sinh (d), "sinh", number);
  return make_float (d);
}

DEFUN ("tanh", Ftanh, 1, 1, 0, /*
Return the hyperbolic tangent of NUMBER.
*/
       (number))
{
  double d = extract_float (number);
  IN_FLOAT (d = tanh (d), "tanh", number);
  return make_float (d);
}

/* Rounding functions */

DEFUN ("abs", Fabs, 1, 1, 0, /*
Return the absolute value of NUMBER.
*/
       (number))
{
  if (FLOATP (number))
    {
      IN_FLOAT (number = make_float (fabs (XFLOAT_DATA (number))),
		"abs", number);
      return number;
    }

  if (INTP (number))
    return (XINT (number) >= 0) ? number : make_int (- XINT (number));

  return Fabs (wrong_type_argument (Qnumberp, number));
}

DEFUN ("float", Ffloat, 1, 1, 0, /*
Return the floating point number numerically equal to NUMBER.
*/
       (number))
{
  if (INTP (number))
    return make_float ((double) XINT (number));

  if (FLOATP (number))		/* give 'em the same float back */
    return number;

  return Ffloat (wrong_type_argument (Qnumberp, number));
}

DEFUN ("logb", Flogb, 1, 1, 0, /*
Return largest integer <= the base 2 log of the magnitude of NUMBER.
This is the same as the exponent of a float.
*/
       (number))
{
  double f = extract_float (number);

  if (f == 0.0)
    return make_int (- (EMACS_INT)(((EMACS_UINT) 1) << (VALBITS - 1))); /* most-negative-fixnum */
#ifdef HAVE_LOGB
  {
    Lisp_Object val;
    IN_FLOAT (val = make_int ((EMACS_INT) logb (f)), "logb", number);
    return val;
  }
#else
#ifdef HAVE_FREXP
  {
    int exqp;
    IN_FLOAT (frexp (f, &exqp), "logb", number);
    return make_int (exqp - 1);
  }
#else
  {
    int i;
    double d;
    EMACS_INT val;
    if (f < 0.0)
      f = -f;
    val = -1;
    while (f < 0.5)
      {
        for (i = 1, d = 0.5; d * d >= f; i += i)
          d *= d;
        f /= d;
        val -= i;
      }
    while (f >= 1.0)
      {
        for (i = 1, d = 2.0; d * d <= f; i += i)
          d *= d;
        f /= d;
        val += i;
      }
    return make_int (val);
  }
#endif /* ! HAVE_FREXP */
#endif /* ! HAVE_LOGB */
}

DEFUN ("ceiling", Fceiling, 1, 1, 0, /*
Return the smallest integer no less than NUMBER.  (Round toward +inf.)
*/
       (number))
{
  if (FLOATP (number))
    {
      double d;
      IN_FLOAT ((d = ceil (XFLOAT_DATA (number))), "ceiling", number);
      return (float_to_int (d, "ceiling", number, Qunbound));
    }

  if (INTP (number))
    return number;

  return Fceiling (wrong_type_argument (Qnumberp, number));
}


DEFUN ("floor", Ffloor, 1, 2, 0, /*
Return the largest integer no greater than NUMBER.  (Round towards -inf.)
With optional second argument DIVISOR, return the largest integer no
greater than NUMBER/DIVISOR.
*/
       (number, divisor))
{
  CHECK_INT_OR_FLOAT (number);

  if (! NILP (divisor))
    {
      EMACS_INT i1, i2;

      CHECK_INT_OR_FLOAT (divisor);

      if (FLOATP (number) || FLOATP (divisor))
	{
	  double f1 = extract_float (number);
	  double f2 = extract_float (divisor);

	  if (f2 == 0)
	    Fsignal (Qarith_error, Qnil);

	  IN_FLOAT2 (f1 = floor (f1 / f2), "floor", number, divisor);
	  return float_to_int (f1, "floor", number, divisor);
	}

      i1 = XINT (number);
      i2 = XINT (divisor);

      if (i2 == 0)
	Fsignal (Qarith_error, Qnil);

      /* With C's /, the result is implementation-defined if either operand
	 is negative, so use only nonnegative operands.  */
      i1 = (i2 < 0
	    ? (i1 <= 0  ?  -i1 / -i2  :  -1 - ((i1 - 1) / -i2))
	    : (i1 < 0  ?  -1 - ((-1 - i1) / i2)  :  i1 / i2));

      return (make_int (i1));
    }

  if (FLOATP (number))
    {
      double d;
      IN_FLOAT ((d = floor (XFLOAT_DATA (number))), "floor", number);
      return (float_to_int (d, "floor", number, Qunbound));
    }

  return number;
}

DEFUN ("round", Fround, 1, 1, 0, /*
Return the nearest integer to NUMBER.
*/
       (number))
{
  if (FLOATP (number))
    {
      double d;
      /* Screw the prevailing rounding mode.  */
      IN_FLOAT ((d = emacs_rint (XFLOAT_DATA (number))), "round", number);
      return (float_to_int (d, "round", number, Qunbound));
    }

  if (INTP (number))
    return number;

  return Fround (wrong_type_argument (Qnumberp, number));
}

DEFUN ("truncate", Ftruncate, 1, 1, 0, /*
Truncate a floating point number to an integer.
Rounds the value toward zero.
*/
       (number))
{
  if (FLOATP (number))
    return float_to_int (XFLOAT_DATA (number), "truncate", number, Qunbound);

  if (INTP (number))
    return number;

  return Ftruncate (wrong_type_argument (Qnumberp, number));
}

/* Float-rounding functions. */

DEFUN ("fceiling", Ffceiling, 1, 1, 0, /*
Return the smallest integer no less than NUMBER, as a float.
\(Round toward +inf.\)
*/
       (number))
{
  double d = extract_float (number);
  IN_FLOAT (d = ceil (d), "fceiling", number);
  return make_float (d);
}

DEFUN ("ffloor", Fffloor, 1, 1, 0, /*
Return the largest integer no greater than NUMBER, as a float.
\(Round towards -inf.\)
*/
       (number))
{
  double d = extract_float (number);
  IN_FLOAT (d = floor (d), "ffloor", number);
  return make_float (d);
}

DEFUN ("fround", Ffround, 1, 1, 0, /*
Return the nearest integer to NUMBER, as a float.
*/
       (number))
{
  double d = extract_float (number);
  IN_FLOAT (d = emacs_rint (d), "fround", number);
  return make_float (d);
}

DEFUN ("ftruncate", Fftruncate, 1, 1, 0, /*
Truncate a floating point number to an integral float value.
Rounds the value toward zero.
*/
       (number))
{
  double d = extract_float (number);
  if (d >= 0.0)
    IN_FLOAT (d = floor (d), "ftruncate", number);
  else
    IN_FLOAT (d = ceil (d), "ftruncate", number);
  return make_float (d);
}

#ifdef FLOAT_CATCH_SIGILL
static SIGTYPE
float_error (int signo)
{
  if (! in_float)
    fatal_error_signal (signo);

  EMACS_REESTABLISH_SIGNAL (signo, arith_error);
  EMACS_UNBLOCK_SIGNAL (signo);

  in_float = 0;

  /* Was Fsignal(), but it just doesn't make sense for an error
     occurring inside a signal handler to be restartable, considering
     that anything could happen when the error is signaled and trapped
     and considering the asynchronous nature of signal handlers. */
  signal_error (Qarith_error, 0, float_error_arg);
}

/* Another idea was to replace the library function `infnan'
   where SIGILL is signaled.  */

#endif /* FLOAT_CATCH_SIGILL */

/* In C++, it is impossible to determine what type matherr expects
   without some more configure magic.
   We shouldn't be using matherr anyways - it's a non-standard SYSVism. */
#if defined (HAVE_MATHERR) && !defined(__cplusplus)
int
matherr (struct exception *x)
{
  Lisp_Object args;
  if (! in_float)
    /* Not called from emacs-lisp float routines; do the default thing. */
    return 0;

  /* if (!strcmp (x->name, "pow")) x->name = "expt"; */

  args = Fcons (build_string (x->name),
                Fcons (make_float (x->arg1),
                       ((in_float == 2)
                        ? Fcons (make_float (x->arg2), Qnil)
                        : Qnil)));
  switch (x->type)
    {
    case DOMAIN:    Fsignal (Qdomain_error,	 args); break;
    case SING:	    Fsignal (Qsingularity_error, args); break;
    case OVERFLOW:  Fsignal (Qoverflow_error,	 args); break;
    case UNDERFLOW: Fsignal (Qunderflow_error,	 args); break;
    default:	    Fsignal (Qarith_error,	 args); break;
    }
  return 1;	/* don't set errno or print a message */
}
#endif /* HAVE_MATHERR */

void
init_floatfns_very_early (void)
{
# ifdef FLOAT_CATCH_SIGILL
  EMACS_SIGNAL (SIGILL, float_error);
# endif
  in_float = 0;
}

void
syms_of_floatfns (void)
{
  INIT_LRECORD_IMPLEMENTATION (float);

  /* Trig functions.  */

  DEFSUBR (Facos);
  DEFSUBR (Fasin);
  DEFSUBR (Fatan);
  DEFSUBR (Fcos);
  DEFSUBR (Fsin);
  DEFSUBR (Ftan);

  /* Bessel functions */

#if 0
  DEFSUBR (Fbessel_y0);
  DEFSUBR (Fbessel_y1);
  DEFSUBR (Fbessel_yn);
  DEFSUBR (Fbessel_j0);
  DEFSUBR (Fbessel_j1);
  DEFSUBR (Fbessel_jn);
#endif /* 0 */

  /* Error functions. */

#if 0
  DEFSUBR (Ferf);
  DEFSUBR (Ferfc);
  DEFSUBR (Flog_gamma);
#endif /* 0 */

  /* Root and Log functions. */

  DEFSUBR (Fexp);
  DEFSUBR (Fexpt);
  DEFSUBR (Flog);
  DEFSUBR (Flog10);
  DEFSUBR (Fsqrt);
  DEFSUBR (Fcube_root);

  /* Inverse trig functions. */

  DEFSUBR (Facosh);
  DEFSUBR (Fasinh);
  DEFSUBR (Fatanh);
  DEFSUBR (Fcosh);
  DEFSUBR (Fsinh);
  DEFSUBR (Ftanh);

  /* Rounding functions */

  DEFSUBR (Fabs);
  DEFSUBR (Ffloat);
  DEFSUBR (Flogb);
  DEFSUBR (Fceiling);
  DEFSUBR (Ffloor);
  DEFSUBR (Fround);
  DEFSUBR (Ftruncate);

  /* Float-rounding functions. */

  DEFSUBR (Ffceiling);
  DEFSUBR (Fffloor);
  DEFSUBR (Ffround);
  DEFSUBR (Fftruncate);
}

void
vars_of_floatfns (void)
{
  Fprovide (intern ("lisp-float-type"));
}