/**************************************************************************** ** ** Copyright (C) 2017 The Qt Company Ltd. ** Copyright (C) 2017 Eurogiciel, author: ** Contact: https://www.qt.io/licensing/ ** ** This file is part of the config.tests of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** Commercial License Usage ** Licensees holding valid commercial Qt licenses may use this file in ** accordance with the commercial license agreement provided with the ** Software or, alternatively, in accordance with the terms contained in ** a written agreement between you and The Qt Company. For licensing terms ** and conditions see https://www.qt.io/terms-conditions. For further ** information use the contact form at https://www.qt.io/contact-us. ** ** GNU Lesser General Public License Usage ** Alternatively, this file may be used under the terms of the GNU Lesser ** General Public License version 3 as published by the Free Software ** Foundation and appearing in the file LICENSE.LGPL3 included in the ** packaging of this file. Please review the following information to ** ensure the GNU Lesser General Public License version 3 requirements ** will be met: https://www.gnu.org/licenses/lgpl-3.0.html. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU ** General Public License version 2.0 or (at your option) the GNU General ** Public license version 3 or any later version approved by the KDE Free ** Qt Foundation. The licenses are as published by the Free Software ** Foundation and appearing in the file LICENSE.GPL2 and LICENSE.GPL3 ** included in the packaging of this file. Please review the following ** information to ensure the GNU General Public License requirements will ** be met: https://www.gnu.org/licenses/gpl-2.0.html and ** https://www.gnu.org/licenses/gpl-3.0.html. ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "qwaylandxdgshell_p.h" #include #include #include #include #include #include QT_BEGIN_NAMESPACE namespace QtWaylandClient { QWaylandXdgSurface::Toplevel::Toplevel(QWaylandXdgSurface *xdgSurface) : QtWayland::xdg_toplevel(xdgSurface->get_toplevel()) , m_xdgSurface(xdgSurface) { if (auto *decorationManager = m_xdgSurface->m_shell->decorationManager()) m_decoration = decorationManager->createToplevelDecoration(object()); QWindow *window = xdgSurface->window()->window(); requestWindowStates(window->windowStates()); requestWindowFlags(window->flags()); } QWaylandXdgSurface::Toplevel::~Toplevel() { if (m_applied.states & Qt::WindowActive) { QWaylandWindow *window = m_xdgSurface->window(); window->display()->handleWindowDeactivated(window); } // The protocol spec requires that the decoration object is deleted before xdg_toplevel. delete m_decoration; m_decoration = nullptr; if (isInitialized()) destroy(); } void QWaylandXdgSurface::Toplevel::applyConfigure() { if (!(m_applied.states & (Qt::WindowMaximized|Qt::WindowFullScreen))) m_normalSize = m_xdgSurface->m_window->window()->frameGeometry().size(); if ((m_pending.states & Qt::WindowActive) && !(m_applied.states & Qt::WindowActive)) m_xdgSurface->m_window->display()->handleWindowActivated(m_xdgSurface->m_window); if (!(m_pending.states & Qt::WindowActive) && (m_applied.states & Qt::WindowActive)) m_xdgSurface->m_window->display()->handleWindowDeactivated(m_xdgSurface->m_window); // TODO: none of the other plugins send WindowActive either, but is it on purpose? Qt::WindowStates statesWithoutActive = m_pending.states & ~Qt::WindowActive; m_xdgSurface->m_window->handleWindowStatesChanged(statesWithoutActive); if (m_pending.size.isEmpty()) { // An empty size in the configure means it's up to the client to choose the size bool normalPending = !(m_pending.states & (Qt::WindowMaximized|Qt::WindowFullScreen)); if (normalPending && !m_normalSize.isEmpty()) m_xdgSurface->m_window->resizeFromApplyConfigure(m_normalSize); } else { m_xdgSurface->m_window->resizeFromApplyConfigure(m_pending.size); } m_xdgSurface->setSizeHints(); m_applied = m_pending; qCDebug(lcQpaWayland) << "Applied pending xdg_toplevel configure event:" << m_applied.size << m_applied.states; } bool QWaylandXdgSurface::Toplevel::wantsDecorations() { if (m_decoration && m_decoration->pending() == QWaylandXdgToplevelDecorationV1::mode_server_side) return false; return !(m_pending.states & Qt::WindowFullScreen); } void QWaylandXdgSurface::Toplevel::xdg_toplevel_configure(int32_t width, int32_t height, wl_array *states) { m_pending.size = QSize(width, height); auto *xdgStates = static_cast(states->data); size_t numStates = states->size / sizeof(uint32_t); m_pending.states = Qt::WindowNoState; for (size_t i = 0; i < numStates; i++) { switch (xdgStates[i]) { case XDG_TOPLEVEL_STATE_ACTIVATED: m_pending.states |= Qt::WindowActive; break; case XDG_TOPLEVEL_STATE_MAXIMIZED: m_pending.states |= Qt::WindowMaximized; break; case XDG_TOPLEVEL_STATE_FULLSCREEN: m_pending.states |= Qt::WindowFullScreen; break; default: break; } } qCDebug(lcQpaWayland) << "Received xdg_toplevel.configure with" << m_pending.size << "and" << m_pending.states; } void QWaylandXdgSurface::Toplevel::xdg_toplevel_close() { m_xdgSurface->m_window->window()->close(); } void QWaylandXdgSurface::Toplevel::requestWindowFlags(Qt::WindowFlags flags) { if (m_decoration) { if (flags & Qt::FramelessWindowHint) m_decoration->requestMode(QWaylandXdgToplevelDecorationV1::mode_client_side); else m_decoration->unsetMode(); } } void QWaylandXdgSurface::Toplevel::requestWindowStates(Qt::WindowStates states) { // Re-send what's different from the applied state Qt::WindowStates changedStates = m_applied.states ^ states; if (changedStates & Qt::WindowMaximized) { if (states & Qt::WindowMaximized) set_maximized(); else unset_maximized(); } if (changedStates & Qt::WindowFullScreen) { if (states & Qt::WindowFullScreen) set_fullscreen(nullptr); else unset_fullscreen(); } // Minimized state is not reported by the protocol, so always send it if (states & Qt::WindowMinimized) { set_minimized(); m_xdgSurface->window()->handleWindowStatesChanged(states & ~Qt::WindowMinimized); } } QtWayland::xdg_toplevel::resize_edge QWaylandXdgSurface::Toplevel::convertToResizeEdges(Qt::Edges edges) { return static_cast( ((edges & Qt::TopEdge) ? resize_edge_top : 0) | ((edges & Qt::BottomEdge) ? resize_edge_bottom : 0) | ((edges & Qt::LeftEdge) ? resize_edge_left : 0) | ((edges & Qt::RightEdge) ? resize_edge_right : 0)); } QWaylandXdgSurface::Popup::Popup(QWaylandXdgSurface *xdgSurface, QWaylandXdgSurface *parent, QtWayland::xdg_positioner *positioner) : xdg_popup(xdgSurface->get_popup(parent->object(), positioner->object())) , m_xdgSurface(xdgSurface) , m_parent(parent) { } QWaylandXdgSurface::Popup::~Popup() { if (isInitialized()) destroy(); if (m_grabbing) { auto *shell = m_xdgSurface->m_shell; Q_ASSERT(shell->m_topmostGrabbingPopup == this); shell->m_topmostGrabbingPopup = m_parent->m_popup; } } void QWaylandXdgSurface::Popup::grab(QWaylandInputDevice *seat, uint serial) { m_xdgSurface->m_shell->m_topmostGrabbingPopup = this; xdg_popup::grab(seat->wl_seat(), serial); m_grabbing = true; } void QWaylandXdgSurface::Popup::xdg_popup_popup_done() { m_xdgSurface->m_window->window()->close(); } QWaylandXdgSurface::QWaylandXdgSurface(QWaylandXdgShell *shell, ::xdg_surface *surface, QWaylandWindow *window) : QWaylandShellSurface(window) , xdg_surface(surface) , m_shell(shell) , m_window(window) { QWaylandDisplay *display = window->display(); Qt::WindowType type = window->window()->type(); auto *transientParent = window->transientParent(); if (type == Qt::ToolTip && transientParent) { setPopup(transientParent); } else if (type == Qt::Popup && transientParent && display->lastInputDevice()) { setGrabPopup(transientParent, display->lastInputDevice(), display->lastInputSerial()); } else { setToplevel(); if (transientParent) { auto parentXdgSurface = static_cast(transientParent->shellSurface()); if (parentXdgSurface) m_toplevel->set_parent(parentXdgSurface->m_toplevel->object()); } } } QWaylandXdgSurface::~QWaylandXdgSurface() { if (m_toplevel) { delete m_toplevel; m_toplevel = nullptr; } if (m_popup) { delete m_popup; m_popup = nullptr; } destroy(); } void QWaylandXdgSurface::resize(QWaylandInputDevice *inputDevice, Qt::Edges edges) { Q_ASSERT(m_toplevel && m_toplevel->isInitialized()); auto resizeEdges = Toplevel::convertToResizeEdges(edges); m_toplevel->resize(inputDevice->wl_seat(), inputDevice->serial(), resizeEdges); } bool QWaylandXdgSurface::move(QWaylandInputDevice *inputDevice) { if (m_toplevel && m_toplevel->isInitialized()) { m_toplevel->move(inputDevice->wl_seat(), inputDevice->serial()); return true; } return false; } bool QWaylandXdgSurface::showWindowMenu(QWaylandInputDevice *seat) { if (m_toplevel && m_toplevel->isInitialized()) { QPoint position = seat->pointerSurfacePosition().toPoint(); m_toplevel->show_window_menu(seat->wl_seat(), seat->serial(), position.x(), position.y()); return true; } return false; } void QWaylandXdgSurface::setTitle(const QString &title) { if (m_toplevel) m_toplevel->set_title(title); } void QWaylandXdgSurface::setAppId(const QString &appId) { if (m_toplevel) m_toplevel->set_app_id(appId); } void QWaylandXdgSurface::setWindowFlags(Qt::WindowFlags flags) { if (m_toplevel) m_toplevel->requestWindowFlags(flags); } bool QWaylandXdgSurface::isExposed() const { return m_configured || m_pendingConfigureSerial; } bool QWaylandXdgSurface::handleExpose(const QRegion ®ion) { if (!isExposed() && !region.isEmpty()) { m_exposeRegion = region; return true; } return false; } void QWaylandXdgSurface::applyConfigure() { Q_ASSERT(m_pendingConfigureSerial != 0); if (m_toplevel) m_toplevel->applyConfigure(); m_configured = true; ack_configure(m_pendingConfigureSerial); m_pendingConfigureSerial = 0; } bool QWaylandXdgSurface::wantsDecorations() const { return m_toplevel && m_toplevel->wantsDecorations(); } void QWaylandXdgSurface::propagateSizeHints() { setSizeHints(); if (m_toplevel && m_window) m_window->commit(); } void QWaylandXdgSurface::setWindowGeometry(const QRect &rect) { set_window_geometry(rect.x(), rect.y(), rect.width(), rect.height()); } void QWaylandXdgSurface::setSizeHints() { if (m_toplevel && m_window) { const int minWidth = qMax(0, m_window->windowMinimumSize().width()); const int minHeight = qMax(0, m_window->windowMinimumSize().height()); m_toplevel->set_min_size(minWidth, minHeight); int maxWidth = qMax(0, m_window->windowMaximumSize().width()); if (maxWidth == QWINDOWSIZE_MAX) maxWidth = 0; int maxHeight = qMax(0, m_window->windowMaximumSize().height()); if (maxHeight == QWINDOWSIZE_MAX) maxHeight = 0; m_toplevel->set_max_size(maxWidth, maxHeight); } } void QWaylandXdgSurface::requestWindowStates(Qt::WindowStates states) { if (m_toplevel) m_toplevel->requestWindowStates(states); else qCWarning(lcQpaWayland) << "Non-toplevel surfaces can't request window states"; } void QWaylandXdgSurface::setToplevel() { Q_ASSERT(!m_toplevel && !m_popup); m_toplevel = new Toplevel(this); } void QWaylandXdgSurface::setPopup(QWaylandWindow *parent) { Q_ASSERT(!m_toplevel && !m_popup); auto parentXdgSurface = static_cast(parent->shellSurface()); auto positioner = new QtWayland::xdg_positioner(m_shell->create_positioner()); // set_popup expects a position relative to the parent QPoint transientPos = m_window->geometry().topLeft(); // this is absolute transientPos -= parent->geometry().topLeft(); if (parent->decoration()) { transientPos.setX(transientPos.x() + parent->decoration()->margins().left()); transientPos.setY(transientPos.y() + parent->decoration()->margins().top()); } positioner->set_anchor_rect(transientPos.x(), transientPos.y(), 1, 1); positioner->set_anchor(QtWayland::xdg_positioner::anchor_top_left); positioner->set_gravity(QtWayland::xdg_positioner::gravity_bottom_right); positioner->set_size(m_window->geometry().width(), m_window->geometry().height()); m_popup = new Popup(this, parentXdgSurface, positioner); positioner->destroy(); delete positioner; } void QWaylandXdgSurface::setGrabPopup(QWaylandWindow *parent, QWaylandInputDevice *device, int serial) { auto parentXdgSurface = static_cast(parent->shellSurface()); auto *top = m_shell->m_topmostGrabbingPopup; if (top && top->m_xdgSurface != parentXdgSurface) { qCWarning(lcQpaWayland) << "setGrabPopup called for a surface that was not the topmost popup, positions might be off."; parent = top->m_xdgSurface->m_window; } setPopup(parent); m_popup->grab(device, serial); } void QWaylandXdgSurface::xdg_surface_configure(uint32_t serial) { m_pendingConfigureSerial = serial; if (!m_configured) { // We have to do the initial applyConfigure() immediately, since that is the expose. applyConfigure(); m_exposeRegion = QRegion(QRect(QPoint(), m_window->geometry().size())); } else { // Later configures are probably resizes, so we have to queue them up for a time when we // are not painting to the window. m_window->applyConfigureWhenPossible(); } if (!m_exposeRegion.isEmpty()) { m_window->handleExpose(m_exposeRegion); m_exposeRegion = QRegion(); } } QWaylandXdgShell::QWaylandXdgShell(QWaylandDisplay *display, uint32_t id, uint32_t availableVersion) : QtWayland::xdg_wm_base(display->wl_registry(), id, qMin(availableVersion, 1u)) , m_display(display) { display->addRegistryListener(&QWaylandXdgShell::handleRegistryGlobal, this); } QWaylandXdgShell::~QWaylandXdgShell() { m_display->removeListener(&QWaylandXdgShell::handleRegistryGlobal, this); destroy(); } QWaylandXdgSurface *QWaylandXdgShell::getXdgSurface(QWaylandWindow *window) { return new QWaylandXdgSurface(this, get_xdg_surface(window->object()), window); } void QWaylandXdgShell::xdg_wm_base_ping(uint32_t serial) { pong(serial); } void QWaylandXdgShell::handleRegistryGlobal(void *data, wl_registry *registry, uint id, const QString &interface, uint version) { QWaylandXdgShell *xdgShell = static_cast(data); if (interface == QLatin1String(QWaylandXdgDecorationManagerV1::interface()->name)) xdgShell->m_xdgDecorationManager.reset(new QWaylandXdgDecorationManagerV1(registry, id, version)); } } QT_END_NAMESPACE