488 lines
15 KiB
C
488 lines
15 KiB
C
/*
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* Copyright © 2008 Ian Osgood <iano@quirkster.com>
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* Copyright © 2008 Jamey Sharp <jamey@minilop.net>
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* Copyright © 2008 Josh Triplett <josh@freedesktop.org>
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* Copyright © 2008 Ulrich Eckhardt <doomster@knuut.de>
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*
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* Permission is hereby granted, free of charge, to any person
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* obtaining a copy of this software and associated documentation
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* files (the "Software"), to deal in the Software without
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* restriction, including without limitation the rights to use, copy,
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* modify, merge, publish, distribute, sublicense, and/or sell copies
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* of the Software, and to permit persons to whom the Software is
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* furnished to do so, subject to the following conditions:
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*
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* The above copyright notice and this permission notice shall be
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* included in all copies or substantial portions of the Software.
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*
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* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
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* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
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* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
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* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR ANY
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* CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF
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* CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
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* WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
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*
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* Except as contained in this notice, the names of the authors or
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* their institutions shall not be used in advertising or otherwise to
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* promote the sale, use or other dealings in this Software without
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* prior written authorization from the authors.
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*/
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#include <stdlib.h>
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#include <xcb/xcb.h>
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#define XK_MISCELLANY
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#define XK_XKB_KEYS
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#define XK_LATIN1
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#define XK_LATIN2
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#define XK_LATIN3
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#define XK_LATIN4
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#define XK_CYRILLIC
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#define XK_GREEK
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#define XK_ARMENIAN
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#include <X11/keysymdef.h>
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#include "xcb_keysyms.h"
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/* Private declaration */
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enum tag_t {
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TAG_COOKIE,
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TAG_VALUE
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};
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struct _XCBKeySymbols
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{
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xcb_connection_t *c;
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enum tag_t tag;
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union {
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xcb_get_keyboard_mapping_cookie_t cookie;
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xcb_get_keyboard_mapping_reply_t *reply;
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} u;
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};
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static void xcb_convert_case(xcb_keysym_t sym,
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xcb_keysym_t *lower,
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xcb_keysym_t *upper);
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static void xcb_key_symbols_get_reply (xcb_key_symbols_t *syms,
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xcb_generic_error_t **e);
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/* public implementation */
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xcb_key_symbols_t *
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xcb_key_symbols_alloc (xcb_connection_t *c)
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{
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xcb_key_symbols_t *syms;
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xcb_keycode_t min_keycode;
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xcb_keycode_t max_keycode;
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if (!c)
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return NULL;
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syms = malloc (sizeof (xcb_key_symbols_t));
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syms->c = c;
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syms->tag = TAG_COOKIE;
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min_keycode = xcb_get_setup (c)->min_keycode;
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max_keycode = xcb_get_setup (c)->max_keycode;
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syms->u.cookie = xcb_get_keyboard_mapping(c,
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min_keycode,
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max_keycode - min_keycode + 1);
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return syms;
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}
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void
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xcb_key_symbols_free (xcb_key_symbols_t *syms)
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{
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if (syms)
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{
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if (syms->tag == TAG_VALUE)
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free (syms->u.reply);
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free (syms);
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syms = NULL;
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}
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}
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/* Use of the 'col' parameter:
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A list of KeySyms is associated with each KeyCode. The list is intended
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to convey the set of symbols on the corresponding key. If the list
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(ignoring trailing NoSymbol entries) is a single KeySym ``K'', then the
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list is treated as if it were the list ``K NoSymbol K NoSymbol''. If the
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list (ignoring trailing NoSymbol entries) is a pair of KeySyms ``K1
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K2'', then the list is treated as if it were the list ``K1 K2 K1 K2''.
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If the list (ignoring trailing NoSymbol entries) is a triple of KeySyms
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``K1 K2 K3'', then the list is treated as if it were the list ``K1 K2 K3
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NoSymbol''. When an explicit ``void'' element is desired in the list,
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the value VoidSymbol can be used.
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The first four elements of the list are split into two groups of
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KeySyms. Group 1 contains the first and second KeySyms; Group 2 contains
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the third and fourth KeySyms. Within each group, if the second element
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of the group is NoSymbol , then the group should be treated as if the
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second element were the same as the first element, except when the first
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element is an alphabetic KeySym ``K'' for which both lowercase and
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uppercase forms are defined. In that case, the group should be treated
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as if the first element were the lowercase form of ``K'' and the second
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element were the uppercase form of ``K.''
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The standard rules for obtaining a KeySym from a KeyPress event make use
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of only the Group 1 and Group 2 KeySyms; no interpretation of other
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KeySyms in the list is given. Which group to use is determined by the
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modifier state. Switching between groups is controlled by the KeySym
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named MODE SWITCH, by attaching that KeySym to some KeyCode and
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attaching that KeyCode to any one of the modifiers Mod1 through Mod5.
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This modifier is called the group modifier. For any KeyCode, Group 1 is
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used when the group modifier is off, and Group 2 is used when the group
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modifier is on.
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The Lock modifier is interpreted as CapsLock when the KeySym named
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XK_Caps_Lock is attached to some KeyCode and that KeyCode is attached to
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the Lock modifier. The Lock modifier is interpreted as ShiftLock when
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the KeySym named XK_Shift_Lock is attached to some KeyCode and that
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KeyCode is attached to the Lock modifier. If the Lock modifier could be
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interpreted as both CapsLock and ShiftLock, the CapsLock interpretation
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is used.
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The operation of keypad keys is controlled by the KeySym named
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XK_Num_Lock, by attaching that KeySym to some KeyCode and attaching that
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KeyCode to any one of the modifiers Mod1 through Mod5 . This modifier is
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called the numlock modifier. The standard KeySyms with the prefix
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``XK_KP_'' in their name are called keypad KeySyms; these are KeySyms
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with numeric value in the hexadecimal range 0xFF80 to 0xFFBD inclusive.
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In addition, vendor-specific KeySyms in the hexadecimal range 0x11000000
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to 0x1100FFFF are also keypad KeySyms.
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Within a group, the choice of KeySym is determined by applying the first
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rule that is satisfied from the following list:
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* The numlock modifier is on and the second KeySym is a keypad KeySym. In
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this case, if the Shift modifier is on, or if the Lock modifier is on
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and is interpreted as ShiftLock, then the first KeySym is used,
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otherwise the second KeySym is used.
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* The Shift and Lock modifiers are both off. In this case, the first
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KeySym is used.
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* The Shift modifier is off, and the Lock modifier is on and is
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interpreted as CapsLock. In this case, the first KeySym is used, but
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if that KeySym is lowercase alphabetic, then the corresponding
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uppercase KeySym is used instead.
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* The Shift modifier is on, and the Lock modifier is on and is
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interpreted as CapsLock. In this case, the second KeySym is used, but
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if that KeySym is lowercase alphabetic, then the corresponding
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uppercase KeySym is used instead.
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* The Shift modifier is on, or the Lock modifier is on and is
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interpreted as ShiftLock, or both. In this case, the second KeySym is
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used.
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*/
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xcb_keysym_t xcb_key_symbols_get_keysym (xcb_key_symbols_t *syms,
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xcb_keycode_t keycode,
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int col)
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{
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xcb_keysym_t *keysyms;
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xcb_keysym_t keysym_null = { XCB_NO_SYMBOL };
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xcb_keysym_t lsym;
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xcb_keysym_t usym;
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xcb_keycode_t min_keycode;
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xcb_keycode_t max_keycode;
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int per;
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if (!syms)
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return keysym_null;
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xcb_key_symbols_get_reply (syms, NULL);
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keysyms = xcb_get_keyboard_mapping_keysyms (syms->u.reply);
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min_keycode = xcb_get_setup (syms->c)->min_keycode;
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max_keycode = xcb_get_setup (syms->c)->max_keycode;
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per = syms->u.reply->keysyms_per_keycode;
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if ((col < 0) || ((col >= per) && (col > 3)) ||
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(keycode < min_keycode) ||
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(keycode > max_keycode))
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return keysym_null;
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keysyms = &keysyms[(keycode - min_keycode) * per];
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if (col < 4)
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{
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if (col > 1)
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{
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while ((per > 2) && (keysyms[per - 1] == XCB_NO_SYMBOL))
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per--;
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if (per < 3)
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col -= 2;
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}
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if ((per <= (col|1)) || (keysyms[col|1] == XCB_NO_SYMBOL))
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{
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xcb_convert_case(keysyms[col&~1], &lsym, &usym);
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if (!(col & 1))
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return lsym;
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else if (usym == lsym)
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return keysym_null;
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else
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return usym;
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}
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}
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return keysyms[col];
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}
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xcb_keycode_t *
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xcb_key_symbols_get_keycode(xcb_key_symbols_t *syms,
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xcb_keysym_t keysym)
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{
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xcb_keysym_t ks;
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int j, nresult = 0;
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xcb_keycode_t i, min, max, *result = NULL;
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if(syms)
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{
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xcb_key_symbols_get_reply (syms, NULL);
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min = xcb_get_setup(syms->c)->min_keycode;
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max = xcb_get_setup(syms->c)->max_keycode;
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for(j = 0; j < syms->u.reply->keysyms_per_keycode; j++)
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for(i = min; i && i <= max; i++)
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{
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ks = xcb_key_symbols_get_keysym(syms, i, j);
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if(ks == keysym)
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{
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nresult++;
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result = realloc(result, sizeof(xcb_keycode_t) * (nresult + 1));
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result[nresult - 1] = i;
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result[nresult] = XCB_NO_SYMBOL;
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}
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}
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}
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return result;
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}
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xcb_keysym_t
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xcb_key_press_lookup_keysym (xcb_key_symbols_t *syms,
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xcb_key_press_event_t *event,
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int col)
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{
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return xcb_key_symbols_get_keysym (syms, event->detail, col);
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}
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xcb_keysym_t
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xcb_key_release_lookup_keysym (xcb_key_symbols_t *syms,
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xcb_key_release_event_t *event,
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int col)
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{
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return xcb_key_symbols_get_keysym (syms, event->detail, col);
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}
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int
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xcb_refresh_keyboard_mapping (xcb_key_symbols_t *syms,
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xcb_mapping_notify_event_t *event)
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{
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if (event->request == XCB_MAPPING_KEYBOARD && syms) {
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if (syms->tag == TAG_VALUE) {
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xcb_keycode_t min_keycode;
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xcb_keycode_t max_keycode;
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if (syms->u.reply) {
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free (syms->u.reply);
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syms->u.reply = NULL;
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}
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syms->tag = TAG_COOKIE;
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min_keycode = xcb_get_setup (syms->c)->min_keycode;
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max_keycode = xcb_get_setup (syms->c)->max_keycode;
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syms->u.cookie = xcb_get_keyboard_mapping(syms->c,
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min_keycode,
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max_keycode - min_keycode + 1);
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}
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return 1;
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}
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return 0;
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}
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/* Tests for classes of symbols */
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int
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xcb_is_keypad_key (xcb_keysym_t keysym)
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{
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return ((keysym >= XK_KP_Space) && (keysym <= XK_KP_Equal));
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}
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int
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xcb_is_private_keypad_key (xcb_keysym_t keysym)
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{
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return ((keysym >= 0x11000000) && (keysym <= 0x1100FFFF));
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}
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int
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xcb_is_cursor_key (xcb_keysym_t keysym)
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{
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return ((keysym >= XK_Home) && (keysym <= XK_Select));
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}
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int
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xcb_is_pf_key (xcb_keysym_t keysym)
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{
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return ((keysym >= XK_KP_F1) && (keysym <= XK_KP_F4));
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}
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int
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xcb_is_function_key (xcb_keysym_t keysym)
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{
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return ((keysym >= XK_F1) && (keysym <= XK_F35));
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}
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int
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xcb_is_misc_function_key (xcb_keysym_t keysym)
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{
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return ((keysym >= XK_Select) && (keysym <= XK_Break));
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}
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int
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xcb_is_modifier_key (xcb_keysym_t keysym)
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{
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return (((keysym >= XK_Shift_L) && (keysym <= XK_Hyper_R)) ||
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((keysym >= XK_ISO_Lock) && (keysym <= XK_ISO_Last_Group_Lock)) ||
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(keysym == XK_Mode_switch) ||
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(keysym == XK_Num_Lock));
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}
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/* private functions */
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void
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xcb_convert_case(xcb_keysym_t sym,
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xcb_keysym_t *lower,
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xcb_keysym_t *upper)
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{
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*lower = sym;
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*upper = sym;
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switch(sym >> 8)
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{
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case 0: /* Latin 1 */
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if ((sym >= XK_A) && (sym <= XK_Z))
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*lower += (XK_a - XK_A);
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else if ((sym >= XK_a) && (sym <= XK_z))
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*upper -= (XK_a - XK_A);
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else if ((sym >= XK_Agrave) && (sym <= XK_Odiaeresis))
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*lower += (XK_agrave - XK_Agrave);
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else if ((sym >= XK_agrave) && (sym <= XK_odiaeresis))
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*upper -= (XK_agrave - XK_Agrave);
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else if ((sym >= XK_Ooblique) && (sym <= XK_Thorn))
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*lower += (XK_oslash - XK_Ooblique);
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else if ((sym >= XK_oslash) && (sym <= XK_thorn))
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*upper -= (XK_oslash - XK_Ooblique);
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break;
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case 1: /* Latin 2 */
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/* Assume the KeySym is a legal value (ignore discontinuities) */
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if (sym == XK_Aogonek)
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*lower = XK_aogonek;
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else if (sym >= XK_Lstroke && sym <= XK_Sacute)
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*lower += (XK_lstroke - XK_Lstroke);
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else if (sym >= XK_Scaron && sym <= XK_Zacute)
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*lower += (XK_scaron - XK_Scaron);
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else if (sym >= XK_Zcaron && sym <= XK_Zabovedot)
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*lower += (XK_zcaron - XK_Zcaron);
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else if (sym == XK_aogonek)
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*upper = XK_Aogonek;
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else if (sym >= XK_lstroke && sym <= XK_sacute)
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*upper -= (XK_lstroke - XK_Lstroke);
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else if (sym >= XK_scaron && sym <= XK_zacute)
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*upper -= (XK_scaron - XK_Scaron);
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else if (sym >= XK_zcaron && sym <= XK_zabovedot)
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*upper -= (XK_zcaron - XK_Zcaron);
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else if (sym >= XK_Racute && sym <= XK_Tcedilla)
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*lower += (XK_racute - XK_Racute);
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else if (sym >= XK_racute && sym <= XK_tcedilla)
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*upper -= (XK_racute - XK_Racute);
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break;
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case 2: /* Latin 3 */
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/* Assume the KeySym is a legal value (ignore discontinuities) */
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if (sym >= XK_Hstroke && sym <= XK_Hcircumflex)
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*lower += (XK_hstroke - XK_Hstroke);
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else if (sym >= XK_Gbreve && sym <= XK_Jcircumflex)
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*lower += (XK_gbreve - XK_Gbreve);
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else if (sym >= XK_hstroke && sym <= XK_hcircumflex)
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*upper -= (XK_hstroke - XK_Hstroke);
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else if (sym >= XK_gbreve && sym <= XK_jcircumflex)
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*upper -= (XK_gbreve - XK_Gbreve);
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else if (sym >= XK_Cabovedot && sym <= XK_Scircumflex)
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*lower += (XK_cabovedot - XK_Cabovedot);
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else if (sym >= XK_cabovedot && sym <= XK_scircumflex)
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*upper -= (XK_cabovedot - XK_Cabovedot);
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break;
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case 3: /* Latin 4 */
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/* Assume the KeySym is a legal value (ignore discontinuities) */
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if (sym >= XK_Rcedilla && sym <= XK_Tslash)
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*lower += (XK_rcedilla - XK_Rcedilla);
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else if (sym >= XK_rcedilla && sym <= XK_tslash)
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*upper -= (XK_rcedilla - XK_Rcedilla);
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else if (sym == XK_ENG)
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*lower = XK_eng;
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else if (sym == XK_eng)
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*upper = XK_ENG;
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else if (sym >= XK_Amacron && sym <= XK_Umacron)
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*lower += (XK_amacron - XK_Amacron);
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else if (sym >= XK_amacron && sym <= XK_umacron)
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*upper -= (XK_amacron - XK_Amacron);
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break;
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case 6: /* Cyrillic */
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/* Assume the KeySym is a legal value (ignore discontinuities) */
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if (sym >= XK_Serbian_DJE && sym <= XK_Serbian_DZE)
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*lower -= (XK_Serbian_DJE - XK_Serbian_dje);
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else if (sym >= XK_Serbian_dje && sym <= XK_Serbian_dze)
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*upper += (XK_Serbian_DJE - XK_Serbian_dje);
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else if (sym >= XK_Cyrillic_YU && sym <= XK_Cyrillic_HARDSIGN)
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*lower -= (XK_Cyrillic_YU - XK_Cyrillic_yu);
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else if (sym >= XK_Cyrillic_yu && sym <= XK_Cyrillic_hardsign)
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*upper += (XK_Cyrillic_YU - XK_Cyrillic_yu);
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break;
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case 7: /* Greek */
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/* Assume the KeySym is a legal value (ignore discontinuities) */
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if (sym >= XK_Greek_ALPHAaccent && sym <= XK_Greek_OMEGAaccent)
|
|
*lower += (XK_Greek_alphaaccent - XK_Greek_ALPHAaccent);
|
|
else if (sym >= XK_Greek_alphaaccent && sym <= XK_Greek_omegaaccent &&
|
|
sym != XK_Greek_iotaaccentdieresis &&
|
|
sym != XK_Greek_upsilonaccentdieresis)
|
|
*upper -= (XK_Greek_alphaaccent - XK_Greek_ALPHAaccent);
|
|
else if (sym >= XK_Greek_ALPHA && sym <= XK_Greek_OMEGA)
|
|
*lower += (XK_Greek_alpha - XK_Greek_ALPHA);
|
|
else if (sym >= XK_Greek_alpha && sym <= XK_Greek_omega &&
|
|
sym != XK_Greek_finalsmallsigma)
|
|
*upper -= (XK_Greek_alpha - XK_Greek_ALPHA);
|
|
break;
|
|
case 0x14: /* Armenian */
|
|
if (sym >= XK_Armenian_AYB && sym <= XK_Armenian_fe) {
|
|
*lower = sym | 1;
|
|
*upper = sym & ~1;
|
|
}
|
|
break;
|
|
}
|
|
}
|
|
|
|
void
|
|
xcb_key_symbols_get_reply (xcb_key_symbols_t *syms,
|
|
xcb_generic_error_t **e)
|
|
{
|
|
if (!syms)
|
|
return;
|
|
|
|
if (syms->tag == TAG_COOKIE)
|
|
{
|
|
syms->tag = TAG_VALUE;
|
|
syms->u.reply = xcb_get_keyboard_mapping_reply(syms->c,
|
|
syms->u.cookie,
|
|
e);
|
|
}
|
|
}
|