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;; Copyright (C) 2003-2008 Shawn Betts
;; This file is part of stumpwm.
;; stumpwm 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.
;; stumpwm is distributed in the hope that it will be useful,
;; but WITHOUT ANY WARRANTY; without even the implied warranty of
;; GNU General Public License for more details.
;; You should have received a copy of the GNU General Public License
;; along with this software; see the file COPYING. If not, write to
;; the Free Software Foundation, Inc., 59 Temple Place, Suite 330,
;; Boston, MA 02111-1307 USA
;; Commentary:
;; This file handles keymaps
;; Code:
(in-package stumpwm)
(export '(*top-map*
(defvar *top-map* nil
"The top level key map. This is where you'll find the binding for the
@dfn{prefix map}.")
(defstruct key
keysym shift control meta alt hyper super)
(defstruct kmap
(defstruct binding
key command)
(defun make-sparse-keymap ()
"Create an empty keymap. If you want to create a new list of bindings
in the key binding tree, this is where you start. To hang frame
related bindings off @kbd{C-t C-f} one might use the following code:
\(defvar *my-frame-bindings*
(let ((m (stumpwm:make-sparse-keymap)))
(stumpwm:define-key m (stumpwm:kbd \"f\") \"curframe\")
(stumpwm:define-key m (stumpwm:kbd \"M-b\") \"move-focus left\")
m ; NOTE: this is important
\(stumpwm:define-key stumpwm:*root-map* (stumpwm:kbd \"C-f\") '*my-frame-bindings*)
@end example"
(defun lookup-command (keymap command)
"Return a list of keys that are bound to command"
(loop for i in (kmap-bindings keymap)
when (equal command (binding-command i))
collect (binding-key i)))
(defun lookup-key (keymap key &optional accept-default)
(labels ((retcmd (key)
(when key (binding-command key))))
(or (retcmd (find key (kmap-bindings keymap) :key 'binding-key :test 'equalp))
(and accept-default
(retcmd (find t (kmap-bindings keymap) :key 'binding-key))))))
(defun key-mods-p (key)
(or (key-shift key)
(key-control key)
(key-meta key)
(key-alt key)
(key-hyper key)
(key-super key)))
(defun x11-mods (key &optional with-numlock)
"Return the modifiers for key in a format that clx
understands. if WITH-NUMLOCK is non-nil then include the numlock
modifier. Most of the time numlock just gets in the way."
(let (mods)
(when (key-shift key) (push :shift mods))
(when (key-control key) (push :control mods))
(when (key-meta key) (setf mods (append (modifiers-meta *modifiers*) mods)))
(when (key-alt key) (setf mods (append (modifiers-alt *modifiers*) mods)))
(when (key-hyper key) (setf mods (append (modifiers-hyper *modifiers*) mods)))
(when (key-super key) (setf mods (append (modifiers-super *modifiers*) mods)))
(when with-numlock (setf mods (append (modifiers-numlock *modifiers*) mods)))
(apply 'xlib:make-state-mask mods)))
(defun report-kbd-parse-error (c stream)
(format stream "Failed to parse key string: ~s" (slot-value c 'string)))
(define-condition kbd-parse-error (stumpwm-error)
((string :initarg :string))
(:report report-kbd-parse-error)
(:documentation "Raised when a kbd string failed to parse."))
(defun parse-mods (mods end)
"MODS is a sequence of <MOD CHAR> #\- pairs. Return a list suitable
for passing as the last argument to (apply #'make-key ...)"
(unless (evenp end)
(signal 'kbd-parse-error :string mods))
(apply #'nconc (loop for i from 0 below end by 2
if (char/= (char mods (1+ i)) #\-)
do (signal 'kbd-parse)
collect (case (char mods i)
(#\M (list :meta t))
(#\A (list :alt t))
(#\C (list :control t))
(#\H (list :hyper t))
(#\s (list :super t))
(#\S (list :shift t))
(t (signal 'kbd-parse-error :string mods))))))
(defun parse-key (string)
"Parse STRING and return a key structure. Raise an error of type
kbd-parse if the key failed to parse."
(let* ((p (when (> (length string) 2)
(position #\- string :from-end t :end (- (length string) 1))))
(mods (parse-mods string (if p (1+ p) 0)))
(keysym (stumpwm-name->keysym (subseq string (if p (1+ p) 0)))))
(if keysym
(apply 'make-key :keysym keysym mods)
(signal 'kbd-parse-error :string string))))
(defun parse-key-seq (keys)
"KEYS is a key sequence. Parse it and return the list of keys."
(mapcar 'parse-key (split-string keys)))
(defun kbd (keys)
"This compiles a key string into a key structure used by
`define-key', `undefine-key', `set-prefix-key' and
;; XXX: define-key needs to be fixed to handle a list of keys
(first (parse-key-seq keys)))
(defun copy-key-into (from to)
"copy the contents of TO into FROM."
(setf (key-keysym to) (key-keysym from)
(key-shift to) (key-shift from)
(key-control to) (key-control from)
(key-meta to) (key-meta from)
(key-alt to) (key-alt from)
(key-hyper to) (key-hyper from)
(key-super to) (key-super from)))
(defun print-mods (key)
(concatenate 'string
(when (key-control key) "C-")
(when (key-meta key) "M-")
(when (key-alt key) "A-")
(when (key-shift key) "S-")
(when (key-super key) "s-")
(when (key-hyper key) "H-")))
(defun print-key (key)
(format nil "~a~a"
(print-mods key)
(keysym->stumpwm-name (key-keysym key))))
(defun print-key-seq (seq)
(format nil "^5*~{~a~^ ~}^n" (mapcar 'print-key seq)))
(defun define-key (map key command)
"Add a keybinding mapping for the key, @var{key}, to the command,
@var{command}, in the specified keymap. If @var{command} is nil, remove an
exising binding. For example,
\(stumpwm:define-key stumpwm:*root-map* (stumpwm:kbd \"C-z\") \"echo Zzzzz...\")
@end example
Now when you type C-t C-z, you'll see the text ``Zzzzz...'' pop up."
(declare (type kmap map) (type (or key (eql t)) key))
(let ((binding (find key (kmap-bindings map) :key 'binding-key :test 'equalp)))
(if command
(setf (kmap-bindings map)
(append (if binding
(delete binding (kmap-bindings map))
(kmap-bindings map))
(list (make-binding :key key :command command))))
(setf (kmap-bindings map) (delete binding (kmap-bindings map))))
;; We need to tell the X server when changing the top-map bindings.
(when (eq map *top-map*)
;; Not really needed. Keep it for backward compatibility.
(defun undefine-key (map key)
"Clear the key binding in the specified keybinding."
(define-key map key nil))
(defun lookup-key-sequence (kmap key-seq)
"Return the command bound to the key sequenc, KEY-SEQ, in keymap KMAP."
(when (kmap-symbol-p kmap)
(setf kmap (symbol-value kmap)))
(check-type kmap kmap)
(let* ((key (car key-seq))
(cmd (lookup-key kmap key)))
(cond ((null (cdr key-seq))
(if (kmap-or-kmap-symbol-p cmd)
(lookup-key-sequence cmd (cdr key-seq))
(t nil))))
(defun kmap-symbol-p (x)
(and (symbolp x)
(boundp x)
(kmap-p (symbol-value x))))
(defun kmap-or-kmap-symbol-p (x)
(or (kmap-p x)
(kmap-symbol-p x)))
(defun dereference-kmaps (kmaps)
(mapcar (lambda (m)
(if (kmap-symbol-p m)
(symbol-value m)
(defun search-kmap (command keymap &key (test 'equal))
"Search the keymap for the specified binding. Return the key
sequences that run binding."
(labels ((search-it (cmd kmap key-seq)
(when (kmap-symbol-p kmap)
(setf kmap (symbol-value kmap)))
(check-type kmap kmap)
(loop for i in (kmap-bindings kmap)
if (funcall test (binding-command i) cmd)
collect (cons (binding-key i) key-seq)
else if (kmap-or-kmap-symbol-p (binding-command i))
append (search-it cmd (binding-command i) (cons (binding-key i) key-seq)))))
(mapcar 'reverse (search-it command keymap nil))))
;;; The Top Map
(defvar *top-map-list* nil)
(defun push-top-map (new-top)
(push *top-map* *top-map-list*)
(setf *top-map* new-top)
(defun pop-top-map ()
(when *top-map-list*
(setf *top-map* (pop *top-map-list*))