/******************************************************************** KWin - the KDE window manager This file is part of the KDE project. Copyright (C) 2013 Martin Gräßlin This program 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 of the License, or (at your option) any later version. This program 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 this program. If not, see . *********************************************************************/ #include "input.h" #include "client.h" #include "effects.h" #include "globalshortcuts.h" #include "logind.h" #include "main.h" #ifdef KWIN_BUILD_TABBOX #include "tabbox/tabbox.h" #endif #include "unmanaged.h" #include "screens.h" #include "workspace.h" #if HAVE_INPUT #include "libinput/connection.h" #endif #if HAVE_WAYLAND #include "abstract_backend.h" #include "wayland_server.h" #include "virtual_terminal.h" #include #endif // Qt #include #include // KDE #include #if HAVE_XKB #include #include #endif // system #include #include namespace KWin { #if HAVE_XKB Xkb::Xkb() : m_context(xkb_context_new(static_cast(0))) , m_keymap(NULL) , m_state(NULL) , m_shiftModifier(0) , m_controlModifier(0) , m_altModifier(0) , m_metaModifier(0) , m_modifiers(Qt::NoModifier) { if (!m_context) { qCDebug(KWIN_CORE) << "Could not create xkb context"; } else { // load default keymap xkb_keymap *keymap = xkb_keymap_new_from_names(m_context, nullptr, XKB_KEYMAP_COMPILE_NO_FLAGS); if (keymap) { updateKeymap(keymap); } else { qCDebug(KWIN_CORE) << "Could not create default xkb keymap"; } } } Xkb::~Xkb() { xkb_state_unref(m_state); xkb_keymap_unref(m_keymap); xkb_context_unref(m_context); } void Xkb::installKeymap(int fd, uint32_t size) { if (!m_context) { return; } char *map = reinterpret_cast(mmap(NULL, size, PROT_READ, MAP_SHARED, fd, 0)); if (map == MAP_FAILED) { return; } xkb_keymap *keymap = xkb_keymap_new_from_string(m_context, map, XKB_KEYMAP_FORMAT_TEXT_V1, XKB_MAP_COMPILE_PLACEHOLDER); munmap(map, size); if (!keymap) { qCDebug(KWIN_CORE) << "Could not map keymap from file"; return; } updateKeymap(keymap); } void Xkb::updateKeymap(xkb_keymap *keymap) { Q_ASSERT(keymap); xkb_state *state = xkb_state_new(keymap); if (!state) { qCDebug(KWIN_CORE) << "Could not create XKB state"; xkb_keymap_unref(keymap); return; } // now release the old ones xkb_state_unref(m_state); xkb_keymap_unref(m_keymap); m_keymap = keymap; m_state = state; m_shiftModifier = xkb_keymap_mod_get_index(m_keymap, XKB_MOD_NAME_SHIFT); m_controlModifier = xkb_keymap_mod_get_index(m_keymap, XKB_MOD_NAME_CTRL); m_altModifier = xkb_keymap_mod_get_index(m_keymap, XKB_MOD_NAME_ALT); m_metaModifier = xkb_keymap_mod_get_index(m_keymap, XKB_MOD_NAME_LOGO); } void Xkb::updateModifiers(uint32_t modsDepressed, uint32_t modsLatched, uint32_t modsLocked, uint32_t group) { if (!m_keymap || !m_state) { return; } xkb_state_update_mask(m_state, modsDepressed, modsLatched, modsLocked, 0, 0, group); updateModifiers(); } void Xkb::updateKey(uint32_t key, InputRedirection::KeyboardKeyState state) { if (!m_keymap || !m_state) { return; } xkb_state_update_key(m_state, key + 8, static_cast(state)); updateModifiers(); } void Xkb::updateModifiers() { Qt::KeyboardModifiers mods = Qt::NoModifier; if (xkb_state_mod_index_is_active(m_state, m_shiftModifier, XKB_STATE_MODS_EFFECTIVE) == 1) { mods |= Qt::ShiftModifier; } if (xkb_state_mod_index_is_active(m_state, m_altModifier, XKB_STATE_MODS_EFFECTIVE) == 1) { mods |= Qt::AltModifier; } if (xkb_state_mod_index_is_active(m_state, m_controlModifier, XKB_STATE_MODS_EFFECTIVE) == 1) { mods |= Qt::ControlModifier; } if (xkb_state_mod_index_is_active(m_state, m_metaModifier, XKB_STATE_MODS_EFFECTIVE) == 1) { mods |= Qt::MetaModifier; } m_modifiers = mods; } xkb_keysym_t Xkb::toKeysym(uint32_t key) { if (!m_state) { return XKB_KEY_NoSymbol; } return xkb_state_key_get_one_sym(m_state, key + 8); } QString Xkb::toString(xkb_keysym_t keysym) { if (!m_state || keysym == XKB_KEY_NoSymbol) { return QString(); } QByteArray byteArray(7, 0); int ok = xkb_keysym_to_utf8(keysym, byteArray.data(), byteArray.size()); if (ok == -1 || ok == 0) { return QString(); } return QString::fromUtf8(byteArray.constData()); } Qt::Key Xkb::toQtKey(xkb_keysym_t keysym) { int key = Qt::Key_unknown; KKeyServer::symXToKeyQt(keysym, &key); return static_cast(key); } #endif KWIN_SINGLETON_FACTORY(InputRedirection) InputRedirection::InputRedirection(QObject *parent) : QObject(parent) #if HAVE_XKB , m_xkb(new Xkb()) #endif , m_pointerWindow() , m_shortcuts(new GlobalShortcutsManager(this)) { #if HAVE_INPUT if (Application::usesLibinput()) { if (VirtualTerminal::self()) { setupLibInput(); } else { connect(kwinApp(), &Application::virtualTerminalCreated, this, &InputRedirection::setupLibInput); } } #endif } InputRedirection::~InputRedirection() { s_self = NULL; } #if HAVE_WAYLAND static KWayland::Server::SeatInterface *findSeat() { auto server = waylandServer(); if (!server) { return nullptr; } return server->seat(); } #endif void InputRedirection::setupLibInput() { #if HAVE_INPUT if (!Application::usesLibinput()) { return; } if (m_libInput) { return; } LibInput::Connection *conn = LibInput::Connection::create(this); m_libInput = conn; if (conn) { conn->setup(); connect(conn, &LibInput::Connection::pointerButtonChanged, this, &InputRedirection::processPointerButton); connect(conn, &LibInput::Connection::pointerAxisChanged, this, &InputRedirection::processPointerAxis); connect(conn, &LibInput::Connection::keyChanged, this, &InputRedirection::processKeyboardKey); connect(conn, &LibInput::Connection::pointerMotion, this, [this] (QPointF delta, uint32_t time) { processPointerMotion(m_globalPointer + delta, time); } ); connect(conn, &LibInput::Connection::pointerMotionAbsolute, this, [this] (QPointF orig, QPointF screen, uint32_t time) { Q_UNUSED(orig) processPointerMotion(screen, time); } ); connect(conn, &LibInput::Connection::touchDown, this, &InputRedirection::processTouchDown); connect(conn, &LibInput::Connection::touchUp, this, &InputRedirection::processTouchUp); connect(conn, &LibInput::Connection::touchMotion, this, &InputRedirection::processTouchMotion); connect(conn, &LibInput::Connection::touchCanceled, this, &InputRedirection::cancelTouch); connect(conn, &LibInput::Connection::touchFrame, this, &InputRedirection::touchFrame); if (screens()) { setupLibInputWithScreens(); } else { connect(kwinApp(), &Application::screensCreated, this, &InputRedirection::setupLibInputWithScreens); } #if HAVE_WAYLAND if (auto s = findSeat()) { s->setHasKeyboard(conn->hasKeyboard()); s->setHasPointer(conn->hasPointer()); s->setHasTouch(conn->hasTouch()); connect(conn, &LibInput::Connection::hasKeyboardChanged, this, [this, s] (bool set) { if (m_libInput->isSuspended()) { return; } s->setHasKeyboard(set); } ); connect(conn, &LibInput::Connection::hasPointerChanged, this, [this, s] (bool set) { if (m_libInput->isSuspended()) { return; } s->setHasPointer(set); } ); connect(conn, &LibInput::Connection::hasTouchChanged, this, [this, s] (bool set) { if (m_libInput->isSuspended()) { return; } s->setHasTouch(set); } ); } connect(VirtualTerminal::self(), &VirtualTerminal::activeChanged, m_libInput, [this] (bool active) { if (!active) { m_libInput->deactivate(); } } ); #endif } #endif } void InputRedirection::setupLibInputWithScreens() { #if HAVE_INPUT if (!screens() || !m_libInput) { return; } m_libInput->setScreenSize(screens()->size()); connect(screens(), &Screens::sizeChanged, this, [this] { m_libInput->setScreenSize(screens()->size()); } ); // set pos to center of all screens connect(screens(), &Screens::changed, this, &InputRedirection::updatePointerAfterScreenChange); m_globalPointer = screens()->geometry().center(); emit globalPointerChanged(m_globalPointer); // sanitize updatePointerAfterScreenChange(); #endif } void InputRedirection::updatePointerWindow() { // TODO: handle pointer grab aka popups Toplevel *t = findToplevel(m_globalPointer.toPoint()); auto oldWindow = m_pointerWindow; if (!oldWindow.isNull() && t == m_pointerWindow.data()) { return; } #if HAVE_WAYLAND if (auto seat = findSeat()) { // disconnect old surface if (oldWindow) { disconnect(oldWindow.data(), &Toplevel::geometryChanged, this, &InputRedirection::updateFocusedPointerPosition); if (AbstractBackend *b = waylandServer()->backend()) { if (auto p = seat->focusedPointer()) { if (auto c = p->cursor()) { disconnect(c, &KWayland::Server::Cursor::changed, b, &AbstractBackend::installCursorFromServer); } } } } if (t && t->surface()) { seat->setFocusedPointerSurface(t->surface(), t->pos()); connect(t, &Toplevel::geometryChanged, this, &InputRedirection::updateFocusedPointerPosition); if (AbstractBackend *b = waylandServer()->backend()) { b->installCursorFromServer(); if (auto p = seat->focusedPointer()) { if (auto c = p->cursor()) { connect(c, &KWayland::Server::Cursor::changed, b, &AbstractBackend::installCursorFromServer); } } } } else { seat->setFocusedPointerSurface(nullptr); t = nullptr; } } #endif if (!t) { m_pointerWindow.clear(); return; } m_pointerWindow = QWeakPointer(t); } void InputRedirection::updateFocusedPointerPosition() { #if HAVE_WAYLAND if (m_pointerWindow.isNull()) { return; } if (workspace()->getMovingClient()) { // don't update while moving return; } if (auto seat = findSeat()) { if (m_pointerWindow.data()->surface() != seat->focusedPointerSurface()) { return; } seat->setFocusedPointerSurfacePosition(m_pointerWindow.data()->pos()); } #endif } void InputRedirection::updateFocusedTouchPosition() { #if HAVE_WAYLAND if (m_touchWindow.isNull()) { return; } if (auto seat = findSeat()) { if (m_touchWindow.data()->surface() != seat->focusedTouchSurface()) { return; } seat->setFocusedTouchSurfacePosition(m_touchWindow.data()->pos()); } #endif } void InputRedirection::processPointerMotion(const QPointF &pos, uint32_t time) { // first update to new mouse position // const QPointF oldPos = m_globalPointer; updatePointerPosition(pos); // TODO: check which part of KWin would like to intercept the event QMouseEvent event(QEvent::MouseMove, m_globalPointer.toPoint(), m_globalPointer.toPoint(), Qt::NoButton, qtButtonStates(), keyboardModifiers()); // check whether an effect has a mouse grab if (effects && static_cast(effects)->checkInputWindowEvent(&event)) { // an effect grabbed the pointer, we do not forward the event to surfaces return; } QWeakPointer old = m_pointerWindow; updatePointerWindow(); #if HAVE_WAYLAND if (auto seat = findSeat()) { seat->setTimestamp(time); seat->setPointerPos(pos); } #endif } void InputRedirection::processPointerButton(uint32_t button, InputRedirection::PointerButtonState state, uint32_t time) { m_pointerButtons[button] = state; emit pointerButtonStateChanged(button, state); QMouseEvent event(buttonStateToEvent(state), m_globalPointer.toPoint(), m_globalPointer.toPoint(), buttonToQtMouseButton(button), qtButtonStates(), keyboardModifiers()); // check whether an effect has a mouse grab if (effects && static_cast(effects)->checkInputWindowEvent(&event)) { // an effect grabbed the pointer, we do not forward the event to surfaces return; } #if HAVE_XKB if (state == KWin::InputRedirection::PointerButtonPressed) { if (m_shortcuts->processPointerPressed(m_xkb->modifiers(), qtButtonStates())) { return; } } #endif // TODO: check which part of KWin would like to intercept the event #if HAVE_WAYLAND if (auto seat = findSeat()) { seat->setTimestamp(time); state == PointerButtonPressed ? seat->pointerButtonPressed(button) : seat->pointerButtonReleased(button); } #endif } void InputRedirection::processPointerAxis(InputRedirection::PointerAxis axis, qreal delta, uint32_t time) { if (delta == 0) { return; } emit pointerAxisChanged(axis, delta); #if HAVE_XKB if (m_xkb->modifiers() != Qt::NoModifier) { PointerAxisDirection direction = PointerAxisUp; if (axis == PointerAxisHorizontal) { if (delta > 0) { direction = PointerAxisUp; } else { direction = PointerAxisDown; } } else { if (delta > 0) { direction = PointerAxisLeft; } else { direction = PointerAxisRight; } } if (m_shortcuts->processAxis(m_xkb->modifiers(), direction)) { return; } } #endif // TODO: check which part of KWin would like to intercept the event // TODO: Axis support for effect redirection #if HAVE_WAYLAND if (auto seat = findSeat()) { seat->setTimestamp(time); seat->pointerAxis(axis == InputRedirection::PointerAxisHorizontal ? Qt::Horizontal : Qt::Vertical, delta); } #endif } void InputRedirection::processKeyboardKey(uint32_t key, InputRedirection::KeyboardKeyState state, uint32_t time) { #if HAVE_XKB const Qt::KeyboardModifiers oldMods = keyboardModifiers(); m_xkb->updateKey(key, state); if (oldMods != keyboardModifiers()) { emit keyboardModifiersChanged(keyboardModifiers(), oldMods); } #if HAVE_WAYLAND // check for vt-switch if (VirtualTerminal::self()) { const xkb_keysym_t keysym = m_xkb->toKeysym(key); if (state == KWin::InputRedirection::KeyboardKeyPressed && (keysym >= XKB_KEY_XF86Switch_VT_1 && keysym <= XKB_KEY_XF86Switch_VT_12)) { VirtualTerminal::self()->activate(keysym - XKB_KEY_XF86Switch_VT_1 + 1); return; } } #endif // TODO: pass to internal parts of KWin #ifdef KWIN_BUILD_TABBOX if (TabBox::TabBox::self() && TabBox::TabBox::self()->isGrabbed()) { if (state == KWin::InputRedirection::KeyboardKeyPressed) { TabBox::TabBox::self()->keyPress(m_xkb->modifiers() | m_xkb->toQtKey(m_xkb->toKeysym(key))); } return; } #endif if (effects && static_cast< EffectsHandlerImpl* >(effects)->hasKeyboardGrab()) { const xkb_keysym_t keysym = m_xkb->toKeysym(key); // TODO: start auto-repeat // TODO: add modifiers to the event const QEvent::Type type = (state == KeyboardKeyPressed) ? QEvent::KeyPress : QEvent::KeyRelease; QKeyEvent event(type, m_xkb->toQtKey(keysym), m_xkb->modifiers(), m_xkb->toString(keysym)); static_cast< EffectsHandlerImpl* >(effects)->grabbedKeyboardEvent(&event); return; } if (workspace()) { if (Client *c = dynamic_cast(workspace()->getMovingClient())) { // TODO: this does not yet fully support moving of the Client // cursor events change the cursor and on Wayland pointer warping is not possible c->keyPressEvent(m_xkb->toQtKey(m_xkb->toKeysym(key))); return; } } // process global shortcuts if (state == KeyboardKeyPressed) { if (m_shortcuts->processKey(m_xkb->modifiers(), m_xkb->toKeysym(key))) { return; } } #endif #if HAVE_WAYLAND if (auto seat = findSeat()) { seat->setTimestamp(time); // TODO: this needs better integration // check unmanaged Toplevel *t = nullptr; if (!workspace()->unmanagedList().isEmpty()) { // TODO: better check whether this unmanaged should get the key event t = workspace()->unmanagedList().first(); } if (!t) { t = workspace()->activeClient(); } if (t && t->surface()) { if (t->surface() != seat->focusedKeyboardSurface()) { seat->setFocusedKeyboardSurface(t->surface()); } state == InputRedirection::KeyboardKeyPressed ? seat->keyPressed(key) : seat->keyReleased(key); } } #endif } void InputRedirection::processKeyboardModifiers(uint32_t modsDepressed, uint32_t modsLatched, uint32_t modsLocked, uint32_t group) { // TODO: send to proper Client and also send when active Client changes #if HAVE_XKB Qt::KeyboardModifiers oldMods = keyboardModifiers(); m_xkb->updateModifiers(modsDepressed, modsLatched, modsLocked, group); if (oldMods != keyboardModifiers()) { emit keyboardModifiersChanged(keyboardModifiers(), oldMods); } #else Q_UNUSED(modsDepressed) Q_UNUSED(modsLatched) Q_UNUSED(modsLocked) Q_UNUSED(group) #endif } void InputRedirection::processKeymapChange(int fd, uint32_t size) { // TODO: should we pass the keymap to our Clients? Or only to the currently active one and update #if HAVE_XKB m_xkb->installKeymap(fd, size); #else Q_UNUSED(fd) Q_UNUSED(size) #endif } void InputRedirection::processTouchDown(qint32 id, const QPointF &pos, quint32 time) { // TODO: internal handling? #if HAVE_WAYLAND if (auto seat = findSeat()) { seat->setTimestamp(time); if (!seat->isTouchSequence()) { updateTouchWindow(pos); } m_touchIdMapper.insert(id, seat->touchDown(pos)); } #else Q_UNUSED(id) Q_UNUSED(pos) Q_UNUSED(time) #endif } void InputRedirection::updateTouchWindow(const QPointF &pos) { // TODO: handle pointer grab aka popups Toplevel *t = findToplevel(pos.toPoint()); auto oldWindow = m_touchWindow; if (!oldWindow.isNull() && t == oldWindow.data()) { return; } #if HAVE_WAYLAND if (auto seat = findSeat()) { // disconnect old surface if (oldWindow) { disconnect(oldWindow.data(), &Toplevel::geometryChanged, this, &InputRedirection::updateFocusedTouchPosition); } if (t && t->surface()) { seat->setFocusedTouchSurface(t->surface(), t->pos()); connect(t, &Toplevel::geometryChanged, this, &InputRedirection::updateFocusedTouchPosition); } else { seat->setFocusedTouchSurface(nullptr); t = nullptr; } } #endif if (!t) { m_touchWindow.clear(); return; } m_touchWindow = QWeakPointer(t); } void InputRedirection::processTouchUp(qint32 id, quint32 time) { // TODO: internal handling? #if HAVE_WAYLAND if (auto seat = findSeat()) { auto it = m_touchIdMapper.constFind(id); if (it != m_touchIdMapper.constEnd()) { seat->setTimestamp(time); seat->touchUp(it.value()); } } #else Q_UNUSED(id) Q_UNUSED(time) #endif } void InputRedirection::processTouchMotion(qint32 id, const QPointF &pos, quint32 time) { // TODO: internal handling? #if HAVE_WAYLAND if (auto seat = findSeat()) { seat->setTimestamp(time); auto it = m_touchIdMapper.constFind(id); if (it != m_touchIdMapper.constEnd()) { seat->setTimestamp(time); seat->touchMove(it.value(), pos); } } #else Q_UNUSED(id) Q_UNUSED(pos) Q_UNUSED(time) #endif } void InputRedirection::cancelTouch() { #if HAVE_WAYLAND if (auto seat = findSeat()) { seat->cancelTouchSequence(); } #endif } void InputRedirection::touchFrame() { #if HAVE_WAYLAND if (auto seat = findSeat()) { seat->touchFrame(); } #endif } QEvent::Type InputRedirection::buttonStateToEvent(InputRedirection::PointerButtonState state) { switch (state) { case KWin::InputRedirection::PointerButtonReleased: return QEvent::MouseButtonRelease; case KWin::InputRedirection::PointerButtonPressed: return QEvent::MouseButtonPress; } return QEvent::None; } Qt::MouseButton InputRedirection::buttonToQtMouseButton(uint32_t button) { switch (button) { case BTN_LEFT: return Qt::LeftButton; case BTN_MIDDLE: return Qt::MiddleButton; case BTN_RIGHT: return Qt::RightButton; case BTN_BACK: return Qt::XButton1; case BTN_FORWARD: return Qt::XButton2; } return Qt::NoButton; } Qt::MouseButtons InputRedirection::qtButtonStates() const { Qt::MouseButtons buttons; for (auto it = m_pointerButtons.constBegin(); it != m_pointerButtons.constEnd(); ++it) { if (it.value() == KWin::InputRedirection::PointerButtonReleased) { continue; } Qt::MouseButton button = buttonToQtMouseButton(it.key()); if (button != Qt::NoButton) { buttons |= button; } } return buttons; } Toplevel *InputRedirection::findToplevel(const QPoint &pos) { if (!Workspace::self()) { return nullptr; } // TODO: check whether the unmanaged wants input events at all const UnmanagedList &unmanaged = Workspace::self()->unmanagedList(); foreach (Unmanaged *u, unmanaged) { if (u->geometry().contains(pos)) { return u; } } const ToplevelList &stacking = Workspace::self()->stackingOrder(); if (stacking.isEmpty()) { return NULL; } auto it = stacking.end(); do { --it; Toplevel *t = (*it); if (t->isDeleted()) { // a deleted window doesn't get mouse events continue; } if (t->isClient()) { Client *c = static_cast(t); if (!c->isOnCurrentActivity() || !c->isOnCurrentDesktop() || c->isMinimized() || !c->isCurrentTab()) { continue; } } if (t->geometry().contains(pos)) { return t; } } while (it != stacking.begin()); return NULL; } uint8_t InputRedirection::toXPointerButton(uint32_t button) { switch (button) { case BTN_LEFT: return XCB_BUTTON_INDEX_1; case BTN_RIGHT: return XCB_BUTTON_INDEX_3; case BTN_MIDDLE: return XCB_BUTTON_INDEX_2; default: // TODO: add more buttons return XCB_BUTTON_INDEX_ANY; } } uint8_t InputRedirection::toXPointerButton(InputRedirection::PointerAxis axis, qreal delta) { switch (axis) { case PointerAxisVertical: if (delta < 0) { return 4; } else { return 5; } case PointerAxisHorizontal: if (delta < 0) { return 6; } else { return 7; } } return XCB_BUTTON_INDEX_ANY; } Qt::KeyboardModifiers InputRedirection::keyboardModifiers() const { #if HAVE_XKB return m_xkb->modifiers(); #else return Qt::NoModifier; #endif } void InputRedirection::registerShortcut(const QKeySequence &shortcut, QAction *action) { m_shortcuts->registerShortcut(action, shortcut); registerShortcutForGlobalAccelTimestamp(action); } void InputRedirection::registerPointerShortcut(Qt::KeyboardModifiers modifiers, Qt::MouseButton pointerButtons, QAction *action) { m_shortcuts->registerPointerShortcut(action, modifiers, pointerButtons); } void InputRedirection::registerAxisShortcut(Qt::KeyboardModifiers modifiers, PointerAxisDirection axis, QAction *action) { m_shortcuts->registerAxisShortcut(action, modifiers, axis); } void InputRedirection::registerShortcutForGlobalAccelTimestamp(QAction *action) { connect(action, &QAction::triggered, kwinApp(), [action] { QVariant timestamp = action->property("org.kde.kglobalaccel.activationTimestamp"); bool ok = false; const quint32 t = timestamp.toULongLong(&ok); if (ok) { kwinApp()->setX11Time(t); } }); } static bool screenContainsPos(const QPointF &pos) { for (int i = 0; i < screens()->count(); ++i) { if (screens()->geometry(i).contains(pos.toPoint())) { return true; } } return false; } void InputRedirection::updatePointerPosition(const QPointF &pos) { // verify that at least one screen contains the pointer position if (!screenContainsPos(pos)) { return; } m_globalPointer = pos; emit globalPointerChanged(m_globalPointer); } void InputRedirection::updatePointerAfterScreenChange() { if (screenContainsPos(m_globalPointer)) { // pointer still on a screen return; } // pointer no longer on a screen, reposition to closes screen m_globalPointer = screens()->geometry(screens()->number(m_globalPointer.toPoint())).center(); emit globalPointerChanged(m_globalPointer); } } // namespace