533 lines
12 KiB
C++
533 lines
12 KiB
C++
/*
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* synergy -- mouse and keyboard sharing utility
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* Copyright (C) 2004 Chris Schoeneman
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*
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* This package is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License
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* found in the file COPYING that should have accompanied this file.
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*
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* This package is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*/
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#include "CKeyState.h"
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#include "IEventQueue.h"
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#include "CLog.h"
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#include <string.h>
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//
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// CKeyState
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//
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CKeyState::CKeyState() :
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m_halfDuplex(0),
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m_mask(0)
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{
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memset(&m_keys, 0, sizeof(m_keys));
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memset(&m_serverKeyMap, 0, sizeof(m_serverKeyMap));
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memset(&m_keyToMask, 0, sizeof(m_keyToMask));
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}
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CKeyState::~CKeyState()
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{
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// do nothing
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}
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void
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CKeyState::setKeyDown(KeyButton button, bool down)
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{
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button &= kButtonMask;
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updateKeyState(button, button, down);
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}
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void
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CKeyState::setToggled(KeyModifierMask modifier)
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{
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if (isToggle(modifier)) {
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const KeyButtons& buttons = m_maskToKeys[getIndexForModifier(modifier)];
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for (KeyButtons::const_iterator j = buttons.begin();
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j != buttons.end(); ++j) {
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m_keys[(*j) & kButtonMask] |= kToggled;
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}
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}
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}
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void
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CKeyState::sendKeyEvent(
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void* target, bool press, bool isAutoRepeat,
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KeyID key, KeyModifierMask mask,
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SInt32 count, KeyButton button)
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{
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if (isHalfDuplex(m_keyToMask[button])) {
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if (isAutoRepeat) {
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// ignore auto-repeat on half-duplex keys
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}
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else {
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EVENTQUEUE->addEvent(CEvent(getKeyDownEvent(), target,
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CKeyInfo::alloc(key, mask, button, 1)));
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EVENTQUEUE->addEvent(CEvent(getKeyUpEvent(), target,
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CKeyInfo::alloc(key, mask, button, 1)));
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}
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}
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else {
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if (isAutoRepeat) {
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EVENTQUEUE->addEvent(CEvent(getKeyRepeatEvent(), target,
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CKeyInfo::alloc(key, mask, button, count)));
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}
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else if (press) {
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EVENTQUEUE->addEvent(CEvent(getKeyDownEvent(), target,
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CKeyInfo::alloc(key, mask, button, 1)));
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}
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else {
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EVENTQUEUE->addEvent(CEvent(getKeyUpEvent(), target,
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CKeyInfo::alloc(key, mask, button, 1)));
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}
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}
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}
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void
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CKeyState::updateKeys()
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{
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static const KeyModifierMask s_masks[] = {
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KeyModifierShift,
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KeyModifierControl,
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KeyModifierAlt,
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KeyModifierMeta,
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KeyModifierSuper,
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KeyModifierModeSwitch,
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KeyModifierCapsLock,
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KeyModifierNumLock,
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KeyModifierScrollLock
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};
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// reset our state
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memset(&m_keys, 0, sizeof(m_keys));
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memset(&m_serverKeyMap, 0, sizeof(m_serverKeyMap));
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memset(&m_keyToMask, 0, sizeof(m_keyToMask));
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for (UInt32 i = 0; i < sizeof(m_maskToKeys)/sizeof(m_maskToKeys[0]); ++i) {
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m_maskToKeys[i].clear();
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}
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// let subclass set the state
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doUpdateKeys();
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// figure out the active modifiers
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m_mask = 0;
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for (UInt32 i = 0; i < sizeof(s_masks) / sizeof(s_masks[0]); ++i) {
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if (isModifierActive(s_masks[i])) {
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m_mask |= s_masks[i];
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}
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}
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LOG((CLOG_DEBUG2 "modifiers on update: 0x%04x", m_mask));
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}
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void
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CKeyState::setHalfDuplexMask(KeyModifierMask mask)
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{
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m_halfDuplex = mask & (KeyModifierCapsLock |
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KeyModifierNumLock |
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KeyModifierScrollLock);
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}
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void
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CKeyState::fakeKeyDown(KeyID id, KeyModifierMask mask, KeyButton button)
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{
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// get the sequence of keys to simulate key press and the final
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// modifier state.
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Keystrokes keys;
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KeyButton localID =
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(KeyButton)(mapKey(keys, id, mask, false) & kButtonMask);
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if (keys.empty()) {
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// do nothing if there are no associated keys
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LOG((CLOG_DEBUG2 "cannot map key 0x%08x", id));
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return;
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}
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// generate key events
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fakeKeyEvents(keys, 1);
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// note that key is down
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updateKeyState((KeyButton)(button & kButtonMask), localID, true);
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}
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void
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CKeyState::fakeKeyRepeat(
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KeyID id, KeyModifierMask mask,
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SInt32 count, KeyButton button)
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{
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button &= kButtonMask;
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// if we haven't seen this button go down then ignore it
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KeyButton oldLocalID = m_serverKeyMap[button];
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if (oldLocalID == 0) {
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return;
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}
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// get the sequence of keys to simulate key repeat and the final
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// modifier state.
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Keystrokes keys;
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KeyButton localID = (KeyButton)(mapKey(keys, id, mask, true) & kButtonMask);
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if (localID == 0) {
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LOG((CLOG_DEBUG2 "cannot map key 0x%08x", id));
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return;
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}
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if (keys.empty()) {
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// do nothing if there are no associated keys
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return;
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}
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// if the keycode for the auto-repeat is not the same as for the
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// initial press then mark the initial key as released and the new
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// key as pressed. this can happen when we auto-repeat after a
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// dead key. for example, a dead accent followed by 'a' will
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// generate an 'a with accent' followed by a repeating 'a'. the
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// keycodes for the two keysyms might be different.
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if (localID != oldLocalID) {
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// replace key up with previous key id but leave key down
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// alone so it uses the new keycode.
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for (Keystrokes::iterator index = keys.begin();
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index != keys.end(); ++index) {
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if (index->m_key == localID) {
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index->m_key = oldLocalID;
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break;
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}
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}
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// note that old key is now up
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m_keys[oldLocalID] &= ~kDown;
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// map server key to new key
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m_serverKeyMap[button] = localID;
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// note that new key is now down
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m_keys[localID] |= kDown;
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}
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// generate key events
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fakeKeyEvents(keys, count);
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}
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void
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CKeyState::fakeKeyUp(KeyButton button)
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{
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// if we haven't seen this button go down then ignore it
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KeyButton localID = m_serverKeyMap[button & kButtonMask];
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if (localID == 0) {
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return;
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}
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// get the sequence of keys to simulate key release
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Keystrokes keys;
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Keystroke keystroke;
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keystroke.m_key = localID;
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keystroke.m_press = false;
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keystroke.m_repeat = false;
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keys.push_back(keystroke);
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// generate key events
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fakeKeyEvents(keys, 1);
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// note that key is now up
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updateKeyState(button, localID, false);
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}
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void
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CKeyState::fakeToggle(KeyModifierMask modifier)
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{
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const KeyButtons& buttons = m_maskToKeys[getIndexForModifier(modifier)];
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if (buttons.empty() || !isToggle(modifier)) {
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return;
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}
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KeyButton button = buttons[0];
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// get the sequence of keys to simulate key toggle
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Keystrokes keys;
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Keystroke keystroke;
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keystroke.m_key = button;
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keystroke.m_press = true;
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keystroke.m_repeat = false;
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keys.push_back(keystroke);
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keystroke.m_press = false;
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keys.push_back(keystroke);
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// generate key events
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fakeKeyEvents(keys, 1);
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// note the toggle
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m_keys[button] ^= kToggled;
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m_mask ^= modifier;
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}
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bool
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CKeyState::isKeyDown(KeyButton button) const
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{
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return ((m_keys[button & kButtonMask] & kDown) != 0);
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}
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KeyModifierMask
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CKeyState::getActiveModifiers() const
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{
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return m_mask;
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}
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void
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CKeyState::addModifier(KeyModifierMask modifier, const KeyButtons& buttons)
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{
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// the mask must not be zero
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assert(modifier != 0);
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// the mask must have exactly one high bit
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assert((modifier & (modifier - 1)) == 0);
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for (KeyButtons::const_iterator j = buttons.begin();
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j != buttons.end(); ++j) {
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KeyButton button = static_cast<KeyButton>(((*j) & kButtonMask));
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if (button != 0) {
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m_keyToMask[button] = modifier;
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}
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}
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// index keys by mask
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m_maskToKeys[getIndexForModifier(modifier)] = buttons;
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}
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bool
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CKeyState::mapModifier(Keystrokes& keys, Keystrokes& undo,
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KeyModifierMask mask, bool desireActive) const
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{
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// look up modifier
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const KeyButtons& buttons = m_maskToKeys[getIndexForModifier(mask)];
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if (buttons.empty()) {
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return false;
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}
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// ignore if already in desired state
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if (isModifierActive(mask) == desireActive) {
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return true;
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}
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// initialize keystroke
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Keystroke keystroke;
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keystroke.m_repeat = false;
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// handle toggles
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if (isToggle(mask)) {
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keystroke.m_key = buttons[0];
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keystroke.m_press = true;
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keys.push_back(keystroke);
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keystroke.m_press = false;
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keys.push_back(keystroke);
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keystroke.m_press = false;
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undo.push_back(keystroke);
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keystroke.m_press = true;
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undo.push_back(keystroke);
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}
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else if (desireActive) {
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// press
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keystroke.m_key = buttons[0];
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keystroke.m_press = true;
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keys.push_back(keystroke);
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keystroke.m_press = false;
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undo.push_back(keystroke);
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}
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else {
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// releasing a modifier is quite different from pressing one.
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// when we release a modifier we have to release every keycode that
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// is assigned to the modifier since the modifier is active if any
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// one of them is down. when we press a modifier we just have to
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// press one of those keycodes.
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for (KeyButtons::const_iterator j = buttons.begin();
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j != buttons.end(); ++j) {
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if (isKeyDown(*j)) {
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keystroke.m_key = *j;
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keystroke.m_press = false;
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keys.push_back(keystroke);
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keystroke.m_press = true;
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undo.push_back(keystroke);
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}
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}
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}
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return true;
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}
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bool
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CKeyState::isToggle(KeyModifierMask mask) const
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{
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return (mask == KeyModifierCapsLock ||
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mask == KeyModifierNumLock ||
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mask == KeyModifierScrollLock);
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}
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bool
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CKeyState::isHalfDuplex(KeyModifierMask mask) const
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{
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return ((mask & m_halfDuplex) != 0);
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}
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bool
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CKeyState::isModifierActive(KeyModifierMask mask) const
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{
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const KeyButtons& buttons = m_maskToKeys[getIndexForModifier(mask)];
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KeyButtons::const_iterator j = buttons.begin();
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if (j != buttons.end()) {
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if (isToggle(mask)) {
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// modifier is a toggle
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if ((m_keys[*j] & kToggled) != 0) {
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return true;
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}
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}
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else {
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// modifier is not a toggle
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for (; j != buttons.end(); ++j) {
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if ((m_keys[*j] & kDown) != 0) {
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return true;
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}
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}
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}
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}
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return false;
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}
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UInt32
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CKeyState::getIndexForModifier(KeyModifierMask mask) const
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{
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switch (mask) {
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case KeyModifierShift:
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return 0;
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case KeyModifierControl:
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return 1;
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case KeyModifierAlt:
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return 2;
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case KeyModifierMeta:
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return 3;
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case KeyModifierSuper:
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return 4;
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case KeyModifierModeSwitch:
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return 5;
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case KeyModifierCapsLock:
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return 6;
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case KeyModifierNumLock:
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return 7;
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case KeyModifierScrollLock:
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return 8;
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default:
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assert(0 && "invalid modifier mask");
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return 0;
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}
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}
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void
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CKeyState::fakeKeyEvents(const Keystrokes& keys, UInt32 count)
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{
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// do nothing if no keys or no repeats
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if (count == 0 || keys.empty()) {
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return;
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}
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// generate key events
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LOG((CLOG_DEBUG2 "keystrokes:"));
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for (Keystrokes::const_iterator k = keys.begin(); k != keys.end(); ) {
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if (k->m_repeat) {
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// repeat from here up to but not including the next key
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// with m_repeat == false count times.
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Keystrokes::const_iterator start = k;
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while (count-- > 0) {
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// send repeating events
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for (k = start; k != keys.end() && k->m_repeat; ++k) {
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fakeKeyEvent(k->m_key, k->m_press, true);
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}
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}
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// note -- k is now on the first non-repeat key after the
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// repeat keys, exactly where we'd like to continue from.
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}
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else {
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// send event
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fakeKeyEvent(k->m_key, k->m_press, false);
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// next key
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++k;
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}
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}
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}
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void
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CKeyState::fakeKeyEvent(KeyButton button, bool press, bool isAutoRepeat)
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{
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// half-duplex keys are special. we ignore releases and convert
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// a press when the toggle is active to a release.
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KeyModifierMask mask = m_keyToMask[button];
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if (isHalfDuplex(mask)) {
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if (isAutoRepeat || !press) {
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return;
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}
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if (isModifierActive(mask)) {
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press = false;
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}
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}
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// send key event
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LOG((CLOG_DEBUG2 " %d %s%s", button, press ? "down" : "up", isAutoRepeat ? " repeat" : ""));
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doFakeKeyEvent(button, press, isAutoRepeat);
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}
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void
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CKeyState::updateKeyState(KeyButton serverID, KeyButton localID, bool press)
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{
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// ignore bogus keys
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if (serverID == 0 || localID == 0) {
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return;
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}
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// update key state. state doesn't change when auto-repeating.
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if (press) {
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m_serverKeyMap[serverID] = localID;
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m_keys[localID] |= kDown;
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}
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else {
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m_serverKeyMap[serverID] = 0;
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m_keys[localID] &= ~kDown;
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}
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// update modifier state
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KeyModifierMask mask = m_keyToMask[localID];
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if (mask != 0) {
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if (isToggle(mask)) {
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// never report half-duplex keys as down
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if (isHalfDuplex(mask)) {
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m_keys[localID] &= ~kDown;
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press = true;
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}
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// toggle on the press
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if (press) {
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m_keys[localID] ^= kToggled;
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m_mask ^= mask;
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}
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}
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else {
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if (press) {
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m_mask |= mask;
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}
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else if (!isModifierActive(mask)) {
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m_mask &= ~mask;
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}
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}
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LOG((CLOG_DEBUG2 "new mask: 0x%04x", m_mask));
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}
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}
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