/**************************************************************************** ** ** Copyright (C) 2016 The Qt Company Ltd. ** Contact: https://www.qt.io/licensing/ ** ** This file is part of the plugins 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 "qwindowsmousehandler.h" #include "qwindowskeymapper.h" #include "qwindowscontext.h" #include "qwindowswindow.h" #include "qwindowsintegration.h" #include "qwindowsscreen.h" #include #include #include #include #include #include #include #include #include /* Touch is supported from Windows 7 onwards and data structures * are present in the Windows SDK's, but not in older MSVC Express * versions. */ #if defined(Q_CC_MINGW) || !defined(TOUCHEVENTF_MOVE) typedef struct tagTOUCHINPUT { LONG x; LONG y; HANDLE hSource; DWORD dwID; DWORD dwFlags; DWORD dwMask; DWORD dwTime; ULONG_PTR dwExtraInfo; DWORD cxContact; DWORD cyContact; } TOUCHINPUT, *PTOUCHINPUT; typedef TOUCHINPUT const * PCTOUCHINPUT; # define TOUCHEVENTF_MOVE 0x0001 # define TOUCHEVENTF_DOWN 0x0002 # define TOUCHEVENTF_UP 0x0004 # define TOUCHEVENTF_INRANGE 0x0008 # define TOUCHEVENTF_PRIMARY 0x0010 # define TOUCHEVENTF_NOCOALESCE 0x0020 # define TOUCHEVENTF_PALM 0x0080 # define TOUCHINPUTMASKF_CONTACTAREA 0x0004 # define TOUCHINPUTMASKF_EXTRAINFO 0x0002 #endif // if defined(Q_CC_MINGW) || !defined(TOUCHEVENTF_MOVE) QT_BEGIN_NAMESPACE static inline void compressMouseMove(MSG *msg) { // Compress mouse move events if (msg->message == WM_MOUSEMOVE) { MSG mouseMsg; while (PeekMessage(&mouseMsg, msg->hwnd, WM_MOUSEFIRST, WM_MOUSELAST, PM_NOREMOVE)) { if (mouseMsg.message == WM_MOUSEMOVE) { #define PEEKMESSAGE_IS_BROKEN 1 #ifdef PEEKMESSAGE_IS_BROKEN // Since the Windows PeekMessage() function doesn't // correctly return the wParam for WM_MOUSEMOVE events // if there is a key release event in the queue // _before_ the mouse event, we have to also consider // key release events (kls 2003-05-13): MSG keyMsg; bool done = false; while (PeekMessage(&keyMsg, 0, WM_KEYFIRST, WM_KEYLAST, PM_NOREMOVE)) { if (keyMsg.time < mouseMsg.time) { if ((keyMsg.lParam & 0xC0000000) == 0x40000000) { PeekMessage(&keyMsg, 0, keyMsg.message, keyMsg.message, PM_REMOVE); } else { done = true; break; } } else { break; // no key event before the WM_MOUSEMOVE event } } if (done) break; #else // Actually the following 'if' should work instead of // the above key event checking, but apparently // PeekMessage() is broken :-( if (mouseMsg.wParam != msg.wParam) break; // leave the message in the queue because // the key state has changed #endif // Update the passed in MSG structure with the // most recent one. msg->lParam = mouseMsg.lParam; msg->wParam = mouseMsg.wParam; // Extract the x,y coordinates from the lParam as we do in the WndProc msg->pt.x = GET_X_LPARAM(mouseMsg.lParam); msg->pt.y = GET_Y_LPARAM(mouseMsg.lParam); ClientToScreen(msg->hwnd, &(msg->pt)); // Remove the mouse move message PeekMessage(&mouseMsg, msg->hwnd, WM_MOUSEMOVE, WM_MOUSEMOVE, PM_REMOVE); } else { break; // there was no more WM_MOUSEMOVE event } } } } static inline QTouchDevice *createTouchDevice() { enum { QT_SM_TABLETPC = 86, QT_SM_DIGITIZER = 94, QT_SM_MAXIMUMTOUCHES = 95, QT_NID_INTEGRATED_TOUCH = 0x1, QT_NID_EXTERNAL_TOUCH = 0x02, QT_NID_MULTI_INPUT = 0x40, QT_NID_READY = 0x80 }; if (QSysInfo::windowsVersion() < QSysInfo::WV_WINDOWS7) return 0; const int digitizers = GetSystemMetrics(QT_SM_DIGITIZER); if (!(digitizers & (QT_NID_INTEGRATED_TOUCH | QT_NID_EXTERNAL_TOUCH))) return 0; const int tabletPc = GetSystemMetrics(QT_SM_TABLETPC); const int maxTouchPoints = GetSystemMetrics(QT_SM_MAXIMUMTOUCHES); qCDebug(lcQpaEvents) << "Digitizers:" << hex << showbase << (digitizers & ~QT_NID_READY) << "Ready:" << (digitizers & QT_NID_READY) << dec << noshowbase << "Tablet PC:" << tabletPc << "Max touch points:" << maxTouchPoints; QTouchDevice *result = new QTouchDevice; result->setType(digitizers & QT_NID_INTEGRATED_TOUCH ? QTouchDevice::TouchScreen : QTouchDevice::TouchPad); QTouchDevice::Capabilities capabilities = QTouchDevice::Position | QTouchDevice::Area | QTouchDevice::NormalizedPosition; if (result->type() == QTouchDevice::TouchPad) capabilities |= QTouchDevice::MouseEmulation; result->setCapabilities(capabilities); result->setMaximumTouchPoints(maxTouchPoints); return result; } /*! \class QWindowsMouseHandler \brief Windows mouse handler Dispatches mouse and touch events. Separate for code cleanliness. \internal \ingroup qt-lighthouse-win */ QWindowsMouseHandler::QWindowsMouseHandler() : m_windowUnderMouse(0), m_trackedWindow(0), m_touchDevice(Q_NULLPTR), m_leftButtonDown(false), m_previousCaptureWindow(0) { } QTouchDevice *QWindowsMouseHandler::ensureTouchDevice() { if (!m_touchDevice) m_touchDevice = createTouchDevice(); return m_touchDevice; } Qt::MouseButtons QWindowsMouseHandler::queryMouseButtons() { Qt::MouseButtons result = 0; const bool mouseSwapped = GetSystemMetrics(SM_SWAPBUTTON); if (GetAsyncKeyState(VK_LBUTTON) < 0) result |= mouseSwapped ? Qt::RightButton: Qt::LeftButton; if (GetAsyncKeyState(VK_RBUTTON) < 0) result |= mouseSwapped ? Qt::LeftButton : Qt::RightButton; if (GetAsyncKeyState(VK_MBUTTON) < 0) result |= Qt::MidButton; if (GetAsyncKeyState(VK_XBUTTON1) < 0) result |= Qt::XButton1; if (GetAsyncKeyState(VK_XBUTTON2) < 0) result |= Qt::XButton2; return result; } bool QWindowsMouseHandler::translateMouseEvent(QWindow *window, HWND hwnd, QtWindows::WindowsEventType et, MSG msg, LRESULT *result) { #ifdef Q_COMPILER_CLASS_ENUM enum : quint64 { signatureMask = 0xffffff00, miWpSignature = 0xff515700 }; #else static const quint64 signatureMask = 0xffffff00; static const quint64 miWpSignature = 0xff515700; #endif // !Q_COMPILER_CLASS_ENUM if (et == QtWindows::MouseWheelEvent) return translateMouseWheelEvent(window, hwnd, msg, result); Qt::MouseEventSource source = Qt::MouseEventNotSynthesized; // Check for events synthesized from touch. Lower byte is touch index, 0 means pen. static const bool passSynthesizedMouseEvents = !(QWindowsIntegration::instance()->options() & QWindowsIntegration::DontPassOsMouseEventsSynthesizedFromTouch); // Check for events synthesized from touch. Lower 7 bits are touch/pen index, bit 8 indicates touch. // However, when tablet support is active, extraInfo is a packet serial number. This is not a problem // since we do not want to ignore mouse events coming from a tablet. const quint64 extraInfo = quint64(GetMessageExtraInfo()); if ((extraInfo & signatureMask) == miWpSignature) { if (extraInfo & 0x80) { // Bit 7 indicates touch event, else tablet pen. source = Qt::MouseEventSynthesizedBySystem; if (!passSynthesizedMouseEvents) return false; } } const QPoint winEventPosition(GET_X_LPARAM(msg.lParam), GET_Y_LPARAM(msg.lParam)); if (et & QtWindows::NonClientEventFlag) { const QPoint globalPosition = winEventPosition; const QPoint clientPosition = QWindowsGeometryHint::mapFromGlobal(hwnd, globalPosition); const Qt::MouseButtons buttons = QWindowsMouseHandler::queryMouseButtons(); QWindowSystemInterface::handleFrameStrutMouseEvent(window, clientPosition, globalPosition, buttons, QWindowsKeyMapper::queryKeyboardModifiers(), source); return false; // Allow further event processing (dragging of windows). } *result = 0; if (msg.message == WM_MOUSELEAVE) { qCDebug(lcQpaEvents) << "WM_MOUSELEAVE for " << window << " previous window under mouse = " << m_windowUnderMouse << " tracked window =" << m_trackedWindow; // When moving out of a window, WM_MOUSEMOVE within the moved-to window is received first, // so if m_trackedWindow is not the window here, it means the cursor has left the // application. if (window == m_trackedWindow) { QWindow *leaveTarget = m_windowUnderMouse ? m_windowUnderMouse : m_trackedWindow; qCDebug(lcQpaEvents) << "Generating leave event for " << leaveTarget; QWindowSystemInterface::handleLeaveEvent(leaveTarget); m_trackedWindow = 0; m_windowUnderMouse = 0; } return true; } QWindowsWindow *platformWindow = static_cast(window->handle()); const Qt::MouseButtons buttons = keyStateToMouseButtons(int(msg.wParam)); // If the window was recently resized via mouse doubleclick on the frame or title bar, // we don't get WM_LBUTTONDOWN or WM_LBUTTONDBLCLK for the second click, // but we will get at least one WM_MOUSEMOVE with left button down and the WM_LBUTTONUP, // which will result undesired mouse press and release events. // To avoid those, we ignore any events with left button down if we didn't // get the original WM_LBUTTONDOWN/WM_LBUTTONDBLCLK. if (msg.message == WM_LBUTTONDOWN || msg.message == WM_LBUTTONDBLCLK) { m_leftButtonDown = true; } else { const bool actualLeftDown = buttons & Qt::LeftButton; if (!m_leftButtonDown && actualLeftDown) { // Autocapture the mouse for current window to and ignore further events until release. // Capture is necessary so we don't get WM_MOUSELEAVEs to confuse matters. // This autocapture is released normally when button is released. if (!platformWindow->hasMouseCapture()) { platformWindow->applyCursor(); platformWindow->setMouseGrabEnabled(true); platformWindow->setFlag(QWindowsWindow::AutoMouseCapture); qCDebug(lcQpaEvents) << "Automatic mouse capture for missing buttondown event" << window; } m_previousCaptureWindow = window; return true; } else if (m_leftButtonDown && !actualLeftDown) { m_leftButtonDown = false; } } const QPoint globalPosition = QWindowsGeometryHint::mapToGlobal(hwnd, winEventPosition); // In this context, neither an invisible nor a transparent window (transparent regarding mouse // events, "click-through") can be considered as the window under mouse. QWindow *currentWindowUnderMouse = platformWindow->hasMouseCapture() ? QWindowsScreen::windowAt(globalPosition, CWP_SKIPINVISIBLE | CWP_SKIPTRANSPARENT) : window; // QTBUG-44332: When Qt is running at low integrity level and // a Qt Window is parented on a Window of a higher integrity process // using QWindow::fromWinId() (for example, Qt running in a browser plugin) // ChildWindowFromPointEx() may not find the Qt window (failing with ERROR_ACCESS_DENIED) if (!currentWindowUnderMouse) { const QRect clientRect(QPoint(0, 0), window->size()); if (clientRect.contains(winEventPosition)) currentWindowUnderMouse = window; } compressMouseMove(&msg); // Qt expects the platform plugin to capture the mouse on // any button press until release. if (!platformWindow->hasMouseCapture() && (msg.message == WM_LBUTTONDOWN || msg.message == WM_MBUTTONDOWN || msg.message == WM_RBUTTONDOWN || msg.message == WM_XBUTTONDOWN || msg.message == WM_LBUTTONDBLCLK || msg.message == WM_MBUTTONDBLCLK || msg.message == WM_RBUTTONDBLCLK || msg.message == WM_XBUTTONDBLCLK)) { platformWindow->setMouseGrabEnabled(true); platformWindow->setFlag(QWindowsWindow::AutoMouseCapture); qCDebug(lcQpaEvents) << "Automatic mouse capture " << window; // Implement "Click to focus" for native child windows (unless it is a native widget window). if (!window->isTopLevel() && !window->inherits("QWidgetWindow") && QGuiApplication::focusWindow() != window) window->requestActivate(); } else if (platformWindow->hasMouseCapture() && platformWindow->testFlag(QWindowsWindow::AutoMouseCapture) && (msg.message == WM_LBUTTONUP || msg.message == WM_MBUTTONUP || msg.message == WM_RBUTTONUP || msg.message == WM_XBUTTONUP) && !buttons) { platformWindow->setMouseGrabEnabled(false); qCDebug(lcQpaEvents) << "Releasing automatic mouse capture " << window; } const bool hasCapture = platformWindow->hasMouseCapture(); const bool currentNotCapturing = hasCapture && currentWindowUnderMouse != window; // Enter new window: track to generate leave event. // If there is an active capture, only track if the current window is capturing, // so we don't get extra leave when cursor leaves the application. if (window != m_trackedWindow && !currentNotCapturing) { TRACKMOUSEEVENT tme; tme.cbSize = sizeof(TRACKMOUSEEVENT); tme.dwFlags = TME_LEAVE; tme.hwndTrack = hwnd; tme.dwHoverTime = HOVER_DEFAULT; // if (!TrackMouseEvent(&tme)) qWarning("TrackMouseEvent failed."); m_trackedWindow = window; } // No enter or leave events are sent as long as there is an autocapturing window. if (!hasCapture || !platformWindow->testFlag(QWindowsWindow::AutoMouseCapture)) { // Leave is needed if: // 1) There is no capture and we move from a window to another window. // Note: Leaving the application entirely is handled in WM_MOUSELEAVE case. // 2) There is capture and we move out of the capturing window. // 3) There is a new capture and we were over another window. if ((m_windowUnderMouse && m_windowUnderMouse != currentWindowUnderMouse && (!hasCapture || window == m_windowUnderMouse)) || (hasCapture && m_previousCaptureWindow != window && m_windowUnderMouse && m_windowUnderMouse != window)) { qCDebug(lcQpaEvents) << "Synthetic leave for " << m_windowUnderMouse; QWindowSystemInterface::handleLeaveEvent(m_windowUnderMouse); if (currentNotCapturing) { // Clear tracking if capturing and current window is not the capturing window // to avoid leave when mouse actually leaves the application. m_trackedWindow = 0; // We are not officially in any window, but we need to set some cursor to clear // whatever cursor the left window had, so apply the cursor of the capture window. platformWindow->applyCursor(); } } // Enter is needed if: // 1) There is no capture and we move to a new window. // 2) There is capture and we move into the capturing window. // 3) The capture just ended and we are over non-capturing window. if ((currentWindowUnderMouse && m_windowUnderMouse != currentWindowUnderMouse && (!hasCapture || currentWindowUnderMouse == window)) || (m_previousCaptureWindow && window != m_previousCaptureWindow && currentWindowUnderMouse && currentWindowUnderMouse != m_previousCaptureWindow)) { qCDebug(lcQpaEvents) << "Entering " << currentWindowUnderMouse; if (QWindowsWindow *wumPlatformWindow = QWindowsWindow::windowsWindowOf(currentWindowUnderMouse)) wumPlatformWindow->applyCursor(); QWindowSystemInterface::handleEnterEvent(currentWindowUnderMouse, currentWindowUnderMouse->mapFromGlobal(globalPosition), globalPosition); } // We need to track m_windowUnderMouse separately from m_trackedWindow, as // Windows mouse tracking will not trigger WM_MOUSELEAVE for leaving window when // mouse capture is set. m_windowUnderMouse = currentWindowUnderMouse; } QWindowSystemInterface::handleMouseEvent(window, winEventPosition, globalPosition, buttons, QWindowsKeyMapper::queryKeyboardModifiers(), source); m_previousCaptureWindow = hasCapture ? window : 0; // QTBUG-48117, force synchronous handling for the extra buttons so that WM_APPCOMMAND // is sent for unhandled WM_XBUTTONDOWN. return (msg.message != WM_XBUTTONUP && msg.message != WM_XBUTTONDOWN && msg.message != WM_XBUTTONDBLCLK) || QWindowSystemInterface::flushWindowSystemEvents(); } static bool isValidWheelReceiver(QWindow *candidate) { if (candidate) { const QWindow *toplevel = QWindowsWindow::topLevelOf(candidate); if (toplevel->type() == Qt::ForeignWindow) return true; if (const QWindowsWindow *ww = QWindowsWindow::windowsWindowOf(toplevel)) return !ww->testFlag(QWindowsWindow::BlockedByModal); } return false; } static void redirectWheelEvent(QWindow *window, const QPoint &globalPos, int delta, Qt::Orientation orientation, Qt::KeyboardModifiers mods) { // Redirect wheel event to one of the following, in order of preference: // 1) The window under mouse // 2) The window receiving the event // If a window is blocked by modality, it can't get the event. QWindow *receiver = QWindowsScreen::windowAt(globalPos, CWP_SKIPINVISIBLE); bool handleEvent = true; if (!isValidWheelReceiver(receiver)) { receiver = window; if (!isValidWheelReceiver(receiver)) handleEvent = false; } if (handleEvent) { QWindowSystemInterface::handleWheelEvent(receiver, QWindowsGeometryHint::mapFromGlobal(receiver, globalPos), globalPos, delta, orientation, mods); } } bool QWindowsMouseHandler::translateMouseWheelEvent(QWindow *window, HWND, MSG msg, LRESULT *) { const Qt::KeyboardModifiers mods = keyStateToModifiers(int(msg.wParam)); int delta; if (msg.message == WM_MOUSEWHEEL || msg.message == WM_MOUSEHWHEEL) delta = GET_WHEEL_DELTA_WPARAM(msg.wParam); else delta = int(msg.wParam); Qt::Orientation orientation = (msg.message == WM_MOUSEHWHEEL || (mods & Qt::AltModifier)) ? Qt::Horizontal : Qt::Vertical; // according to the MSDN documentation on WM_MOUSEHWHEEL: // a positive value indicates that the wheel was rotated to the right; // a negative value indicates that the wheel was rotated to the left. // Qt defines this value as the exact opposite, so we have to flip the value! if (msg.message == WM_MOUSEHWHEEL) delta = -delta; const QPoint globalPos(GET_X_LPARAM(msg.lParam), GET_Y_LPARAM(msg.lParam)); redirectWheelEvent(window, globalPos, delta, orientation, mods); return true; } bool QWindowsMouseHandler::translateScrollEvent(QWindow *window, HWND, MSG msg, LRESULT *) { // This is a workaround against some touchpads that send WM_HSCROLL instead of WM_MOUSEHWHEEL. // We could also handle vertical scroll here but there's no reason to, there's no bug for vertical // (broken vertical scroll would have been noticed long time ago), so lets keep the change small // and minimize the chance for regressions. int delta = 0; switch (LOWORD(msg.wParam)) { case SB_LINELEFT: delta = 120; break; case SB_LINERIGHT: delta = -120; break; case SB_PAGELEFT: delta = 240; break; case SB_PAGERIGHT: delta = -240; break; default: return false; } redirectWheelEvent(window, QCursor::pos(), delta, Qt::Horizontal, Qt::NoModifier); return true; } // from bool QApplicationPrivate::translateTouchEvent() bool QWindowsMouseHandler::translateTouchEvent(QWindow *window, HWND, QtWindows::WindowsEventType, MSG msg, LRESULT *) { typedef QWindowSystemInterface::TouchPoint QTouchPoint; typedef QList QTouchPointList; if (!QWindowsContext::instance()->initTouch()) { qWarning("Unable to initialize touch handling."); return true; } const QScreen *screen = window->screen(); if (!screen) screen = QGuiApplication::primaryScreen(); if (!screen) return true; const QRect screenGeometry = screen->geometry(); const int winTouchPointCount = int(msg.wParam); QScopedArrayPointer winTouchInputs(new TOUCHINPUT[winTouchPointCount]); memset(winTouchInputs.data(), 0, sizeof(TOUCHINPUT) * size_t(winTouchPointCount)); QTouchPointList touchPoints; touchPoints.reserve(winTouchPointCount); Qt::TouchPointStates allStates = 0; QWindowsContext::user32dll.getTouchInputInfo(reinterpret_cast(msg.lParam), UINT(msg.wParam), winTouchInputs.data(), sizeof(TOUCHINPUT)); for (int i = 0; i < winTouchPointCount; ++i) { const TOUCHINPUT &winTouchInput = winTouchInputs[i]; int id = m_touchInputIDToTouchPointID.value(winTouchInput.dwID, -1); if (id == -1) { id = m_touchInputIDToTouchPointID.size(); m_touchInputIDToTouchPointID.insert(winTouchInput.dwID, id); } QTouchPoint touchPoint; touchPoint.pressure = 1.0; touchPoint.id = id; if (m_lastTouchPositions.contains(id)) touchPoint.normalPosition = m_lastTouchPositions.value(id); const QPointF screenPos = QPointF(winTouchInput.x, winTouchInput.y) / qreal(100.); if (winTouchInput.dwMask & TOUCHINPUTMASKF_CONTACTAREA) touchPoint.area.setSize(QSizeF(winTouchInput.cxContact, winTouchInput.cyContact) / qreal(100.)); touchPoint.area.moveCenter(screenPos); QPointF normalPosition = QPointF(screenPos.x() / screenGeometry.width(), screenPos.y() / screenGeometry.height()); const bool stationaryTouchPoint = (normalPosition == touchPoint.normalPosition); touchPoint.normalPosition = normalPosition; if (winTouchInput.dwFlags & TOUCHEVENTF_DOWN) { touchPoint.state = Qt::TouchPointPressed; m_lastTouchPositions.insert(id, touchPoint.normalPosition); } else if (winTouchInput.dwFlags & TOUCHEVENTF_UP) { touchPoint.state = Qt::TouchPointReleased; m_lastTouchPositions.remove(id); } else { touchPoint.state = (stationaryTouchPoint ? Qt::TouchPointStationary : Qt::TouchPointMoved); m_lastTouchPositions.insert(id, touchPoint.normalPosition); } allStates |= touchPoint.state; touchPoints.append(touchPoint); } QWindowsContext::user32dll.closeTouchInputHandle(reinterpret_cast(msg.lParam)); // all touch points released, forget the ids we've seen, they may not be reused if (allStates == Qt::TouchPointReleased) m_touchInputIDToTouchPointID.clear(); QWindowSystemInterface::handleTouchEvent(window, m_touchDevice, touchPoints); return true; } bool QWindowsMouseHandler::translateGestureEvent(QWindow *window, HWND hwnd, QtWindows::WindowsEventType, MSG msg, LRESULT *) { Q_UNUSED(window) Q_UNUSED(hwnd) Q_UNUSED(msg) return false; } QT_END_NAMESPACE