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view lisp/term/linux.el @ 5038:9410323e4b0d
major dynarr fixes
-------------------- ChangeLog entries follow: --------------------
src/ChangeLog addition:
2010-02-20 Ben Wing <ben@xemacs.org>
* device-x.c (Fx_get_resource):
* dynarr.c:
* dynarr.c (Dynarr_realloc):
* dynarr.c (Dynarr_newf):
* dynarr.c (Dynarr_lisp_realloc):
* dynarr.c (Dynarr_lisp_newf):
* dynarr.c (Dynarr_resize):
* dynarr.c (Dynarr_insert_many):
* dynarr.c (Dynarr_delete_many):
* dynarr.c (Dynarr_memory_usage):
* dynarr.c (stack_like_free):
* file-coding.c (coding_reader):
* file-coding.c (gzip_convert):
* gutter.c (output_gutter):
* lisp.h:
* lisp.h (Dynarr_declare):
* lisp.h (DYNARR_SET_LISP_IMP):
* lisp.h (CHECK_NATNUM):
* profile.c (create_timing_profile_table):
* redisplay-output.c (sync_rune_structs):
* redisplay-output.c (sync_display_line_structs):
* redisplay-output.c (redisplay_output_window):
* redisplay.c:
* redisplay.c (get_display_block_from_line):
* redisplay.c (add_ichar_rune_1):
* redisplay.c (ensure_modeline_generated):
* redisplay.c (generate_displayable_area):
* redisplay.c (regenerate_window):
* redisplay.c (update_line_start_cache):
* signal.c:
* signal.c (check_quit):
Lots of rewriting of dynarr code.
(1) Lots of documentation added. Also fix places that
referenced a now-bogus internals node concerning redisplay
critical sections.
(2) Rename:
Dynarr_add_lisp_string -> Dynarr_add_ext_lisp_string
Dynarr_set_length -> Dynarr_set_lengthr ("restricted")
Dynarr_increment -> Dynarr_incrementr
Dynarr_resize_if -> Dynarr_resize_to_add
(3) New functions:
Dynarr_elsize = dy->elsize_
Dynarr_set_length(): Set length, resizing as necessary
Dynarr_set_length_and_zero(): Set length, resizing as necessary,
zeroing out new elements
Dynarr_increase_length(), Dynarr_increase_length_and_zero():
Optimization of Dynarr_set_length(), Dynarr_set_length_and_zero()
when size is known to increase
Dynarr_resize_to_fit(): Resize as necessary to fit a given length.
Dynarr_set(): Set element at a given position, increasing length
as necessary and setting any newly created positions to 0
(4) Use Elemcount, Bytecount.
(5) Rewrite many macros as inline functions.
| author | Ben Wing <ben@xemacs.org> |
|---|---|
| date | Sat, 20 Feb 2010 03:46:22 -0600 |
| parents | 8d7c4af1d6af |
| children | 308d34e9f07d |
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;;; linux.el --- define function key sequences for the Linux console ;; Author: Ben Wing ;; Keywords: terminals ;; Copyright (C) 1996 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: FSF 21.0.103. ;;; (All the define-keys are our own.) ;;; Commentary: ;;; Code: ;; The Linux console handles Latin-1 by default. (if-fboundp 'set-terminal-coding-system (unless (declare-fboundp (terminal-coding-system)) (set-terminal-coding-system 'iso-8859-1))) ;; Make Latin-1 input characters work, too. ;; Meta will continue to work, because the kernel ;; turns that into Escape. (let ((value (current-input-mode))) ;; The third arg only matters in that it is not t or nil. (set-input-mode (nth 0 value) (nth 1 value) 'iso-8859-1 (nth 3 value))) ;; The defines below seem to get automatically set in recent Termcaps. ;; It was probably the case that in 1996, there was no good Linux termcap, ;; which is why such a file was needed. ; ;; Termcap or terminfo should set these next four? ; (define-key function-key-map "\e[A" [up]) ; (define-key function-key-map "\e[B" [down]) ; (define-key function-key-map "\e[C" [right]) ; (define-key function-key-map "\e[D" [left]) ; (define-key function-key-map "\e[[A" [f1]) ; (define-key function-key-map "\e[[B" [f2]) ; (define-key function-key-map "\e[[C" [f3]) ; (define-key function-key-map "\e[[D" [f4]) ; (define-key function-key-map "\e[[E" [f5]) ; (define-key function-key-map "\e[17~" [f6]) ; (define-key function-key-map "\e[18~" [f7]) ; (define-key function-key-map "\e[19~" [f8]) ; (define-key function-key-map "\e[20~" [f9]) ; (define-key function-key-map "\e[21~" [f10]) ; (define-key function-key-map "\e[23~" [f11]) ; (define-key function-key-map "\e[24~" [f12]) ; (define-key function-key-map "\e[25~" [f13]) ; (define-key function-key-map "\e[26~" [f14]) ; (define-key function-key-map "\e[28~" [f15]) ; (define-key function-key-map "\e[29~" [f16]) ; (define-key function-key-map "\e[31~" [f17]) ; (define-key function-key-map "\e[32~" [f18]) ; (define-key function-key-map "\e[33~" [f19]) ; (define-key function-key-map "\e[34~" [f20]) ;; But they come out f13-f20 (see above), which are not what we ;; normally call the shifted function keys. F11 = Shift-F1, F2 = ;; Shift-F2. What a mess, see below. (define-key function-key-map "\e[25~" [(shift f3)]) (define-key function-key-map "\e[26~" [(shift f4)]) (define-key function-key-map "\e[28~" [(shift f5)]) (define-key function-key-map "\e[29~" [(shift f6)]) (define-key function-key-map "\e[31~" [(shift f7)]) (define-key function-key-map "\e[32~" [(shift f8)]) (define-key function-key-map "\e[33~" [(shift f9)]) (define-key function-key-map "\e[34~" [(shift f10)]) ;; I potentially considered these. They would make people's Shift-F1 and ;; Shift-F2 bindings work -- but of course they would fail to work if the ;; person also put F11 and F12 bindings. It might also be confusing because ;; the person with no bindings who hits f11 gets "error shift-f1 unbound". ;; #### If only there were a proper way around this. ;(define-key global-map 'f11 [(shift f1)]) ;(define-key global-map 'f12 [(shift f2)]) ; (define-key function-key-map "\e[1~" [home]) ;; seems to not get handled correctly automatically (define-key function-key-map "\e[2~" [insert]) ; (define-key function-key-map "\e[3~" [delete]) ; (define-key function-key-map "\e[4~" [end]) ; (define-key function-key-map "\e[5~" [prior]) ; (define-key function-key-map "\e[6~" [next]) ; (define-key function-key-map "\e[G" [kp-5]) ; (define-key function-key-map "\eOp" [kp-0]) ; (define-key function-key-map "\eOq" [kp-1]) ; (define-key function-key-map "\eOr" [kp-2]) ; (define-key function-key-map "\eOs" [kp-3]) ; (define-key function-key-map "\eOt" [kp-4]) ; (define-key function-key-map "\eOu" [kp-5]) ; (define-key function-key-map "\eOv" [kp-6]) ; (define-key function-key-map "\eOw" [kp-7]) ; (define-key function-key-map "\eOx" [kp-8]) ; (define-key function-key-map "\eOy" [kp-9]) ; (define-key function-key-map "\eOl" [kp-add]) ; (define-key function-key-map "\eOS" [kp-subtract]) ; (define-key function-key-map "\eOM" [kp-enter]) ; (define-key function-key-map "\eOR" [kp-multiply]) ; (define-key function-key-map "\eOQ" [kp-divide]) ; (define-key function-key-map "\eOn" [kp-decimal]) ; (define-key function-key-map "\eOP" [kp-numlock]) ;;; linux.el ends here