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Co-operate with the byte-optimizer in the bytecomp.el labels implementation. lisp/ChangeLog addition: 2012-05-05 Aidan Kehoe <kehoea@parhasard.net> Co-operate with the byte-optimizer in the bytecomp.el labels implementation, don't work against it. * byte-optimize.el: * byte-optimize.el (byte-compile-inline-expand): Call #'byte-compile-unfold-lambda explicitly here, don't assume that the byte-optimizer will do it. * byte-optimize.el (byte-compile-unfold-lambda): Call #'byte-optimize-body on the body, don't just mapcar #'byte-optimize-form along it. * byte-optimize.el (byte-optimize-lambda): New. Optimize a lambda form. * byte-optimize.el (byte-optimize-form-code-walker): Descend lambda expressions, defun, and defmacro, relevant for lexically-oriented operators like #'labels. * byte-optimize.el (byte-optimize-body): Only return a non-eq object if we've actually optimized something * bytecomp.el (byte-compile-initial-macro-environment): In the labels implementation, work with the byte optimizer, not against it; warn when labels are defined but not used, automatically inline labels that are used only once. * bytecomp.el (byte-recompile-directory): No need to wrap #'byte-compile-report-error in a lambda with #'call-with-condition-handler here. * bytecomp.el (byte-compile-form): Don't inline compiled-function objects, they're probably labels. * bytecomp.el (byte-compile-funcall): No longer inline lambdas, trust the byte optimizer to have done it properly, even for labels. * cl-extra.el (cl-macroexpand-all): Treat labels established by the byte compiler distinctly from those established by cl-macs.el. * cl-macs.el (cl-do-proclaim): Treat labels established by the byte compiler distinctly from those established by cl-macs.el. * gui.el (make-gui-button): When referring to the #'gui-button-action label, quote it using function, otherwise there's a warning from the byte compiler.
author Aidan Kehoe <kehoea@parhasard.net>
date Sat, 05 May 2012 20:48:24 +0100
parents 308d34e9f07d
children
line wrap: on
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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 3 of the License, 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.  If not, see <http://www.gnu.org/licenses/>.

;;; 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