#include "winnativeeventfilter.h" #include #include #include #include #include #include #include #include #include #include #include #include #include Q_DECLARE_METATYPE(QMargins) #ifndef USER_DEFAULT_SCREEN_DPI // FIXME: Since which version? #define USER_DEFAULT_SCREEN_DPI 96 #endif #ifndef SM_CXPADDEDBORDER // Only available since Windows Vista #define SM_CXPADDEDBORDER 92 #endif #ifndef WM_NCUAHDRAWCAPTION // Not documented, only available since Windows Vista #define WM_NCUAHDRAWCAPTION 0x00AE #endif #ifndef WM_NCUAHDRAWFRAME // Not documented, only available since Windows Vista #define WM_NCUAHDRAWFRAME 0x00AF #endif #ifndef WM_DWMCOMPOSITIONCHANGED // Only available since Windows Vista #define WM_DWMCOMPOSITIONCHANGED 0x031E #endif #ifndef WM_DPICHANGED // Only available since Windows 8.1 #define WM_DPICHANGED 0x02E0 #endif namespace { using WINDOWCOMPOSITIONATTRIB = enum _WINDOWCOMPOSITIONATTRIB { WCA_ACCENT_POLICY = 19 }; using WINDOWCOMPOSITIONATTRIBDATA = struct _WINDOWCOMPOSITIONATTRIBDATA { DWORD dwAttribute; PVOID pvAttribute; DWORD cbAttribute; }; using ACCENT_STATE = enum _ACCENT_STATE { ACCENT_DISABLED = 0, ACCENT_ENABLE_GRADIENT = 1, ACCENT_ENABLE_TRANSPARENTGRADIENT = 2, ACCENT_ENABLE_BLURBEHIND = 3, ACCENT_ENABLE_ACRYLICBLURBEHIND = 4, ACCENT_INVALID_STATE = 5 }; using ACCENT_POLICY = struct _ACCENT_POLICY { ACCENT_STATE AccentState; DWORD AccentFlags; DWORD GradientColor; DWORD AnimationId; }; using MONITOR_DPI_TYPE = enum _MONITOR_DPI_TYPE { MDT_EFFECTIVE_DPI = 0, MDT_ANGULAR_DPI = 1, MDT_RAW_DPI = 2, MDT_DEFAULT = MDT_EFFECTIVE_DPI }; const qreal m_defaultDPR = 1.0; using lpGetSystemDpiForProcess = UINT(WINAPI *)(HANDLE); lpGetSystemDpiForProcess m_GetSystemDpiForProcess = nullptr; using lpGetDpiForWindow = UINT(WINAPI *)(HWND); lpGetDpiForWindow m_GetDpiForWindow = nullptr; using lpGetDpiForSystem = UINT(WINAPI *)(); lpGetDpiForSystem m_GetDpiForSystem = nullptr; using lpGetSystemMetricsForDpi = int(WINAPI *)(int, UINT); lpGetSystemMetricsForDpi m_GetSystemMetricsForDpi = nullptr; using lpGetDpiForMonitor = HRESULT(WINAPI *)(HMONITOR, MONITOR_DPI_TYPE, UINT *, UINT *); lpGetDpiForMonitor m_GetDpiForMonitor = nullptr; using lpSetWindowCompositionAttribute = BOOL(WINAPI *)(HWND, WINDOWCOMPOSITIONATTRIBDATA *); lpSetWindowCompositionAttribute m_SetWindowCompositionAttribute = nullptr; QScopedPointer instance; QVector m_framelessWindows; } // namespace WinNativeEventFilter::WinNativeEventFilter() { initDLLs(); } WinNativeEventFilter::~WinNativeEventFilter() = default; void WinNativeEventFilter::install() { if (instance.isNull()) { instance.reset(new WinNativeEventFilter); qApp->installNativeEventFilter(instance.data()); } } void WinNativeEventFilter::uninstall() { if (!instance.isNull()) { qApp->removeNativeEventFilter(instance.data()); instance.reset(); } if (!m_framelessWindows.isEmpty()) { for (auto &&window : qAsConst(m_framelessWindows)) { updateWindow(window); } m_framelessWindows.clear(); } } QVector WinNativeEventFilter::framelessWindows() { return m_framelessWindows; } void WinNativeEventFilter::setFramelessWindows(QVector windows) { if (!windows.isEmpty() && (windows != m_framelessWindows)) { m_framelessWindows = windows; install(); } } void WinNativeEventFilter::addFramelessWindow(HWND window, WINDOWDATA *data) { if (window && !m_framelessWindows.contains(window)) { m_framelessWindows.append(window); if (data) { createUserData(window, data); } install(); } } void WinNativeEventFilter::removeFramelessWindow(HWND window) { if (window && m_framelessWindows.contains(window)) { m_framelessWindows.removeAll(window); updateWindow(window); } } void WinNativeEventFilter::clearFramelessWindows() { if (!m_framelessWindows.isEmpty()) { m_framelessWindows.clear(); } } int WinNativeEventFilter::borderWidth(HWND handle) { if (handle) { createUserData(handle); const auto userData = reinterpret_cast( GetWindowLongPtrW(handle, GWLP_USERDATA)); const int bw = userData->windowData.borderWidth; if (bw > 0) { return bw * getDprForWindow(handle); } } return getSystemMetricsForWindow(handle, SM_CXFRAME) + getSystemMetricsForWindow(handle, SM_CXPADDEDBORDER); } int WinNativeEventFilter::borderHeight(HWND handle) { if (handle) { createUserData(handle); const auto userData = reinterpret_cast( GetWindowLongPtrW(handle, GWLP_USERDATA)); const int bh = userData->windowData.borderHeight; if (bh > 0) { return bh * getDprForWindow(handle); } } return getSystemMetricsForWindow(handle, SM_CYFRAME) + getSystemMetricsForWindow(handle, SM_CXPADDEDBORDER); } int WinNativeEventFilter::titlebarHeight(HWND handle) { if (handle) { createUserData(handle); const auto userData = reinterpret_cast( GetWindowLongPtrW(handle, GWLP_USERDATA)); const int tbh = userData->windowData.titlebarHeight; if (tbh > 0) { return tbh * getDprForWindow(handle); } } return borderHeight(handle) + getSystemMetricsForWindow(handle, SM_CYCAPTION); } void WinNativeEventFilter::updateRegion(LPWINDOW data) { const RECT null_rect = {0, 0, 0, 0}; RECT rect; if (IsMaximized(data->hWnd)) { WINDOWINFO windowInfo; SecureZeroMemory(&windowInfo, sizeof(windowInfo)); windowInfo.cbSize = sizeof(windowInfo); GetWindowInfo(data->hWnd, &windowInfo); // For maximized windows, a region is needed to cut off the // non-client borders that hang over the edge of the screen. rect.left = windowInfo.rcClient.left - windowInfo.rcWindow.left; rect.top = windowInfo.rcClient.top - windowInfo.rcWindow.top; rect.right = windowInfo.rcClient.right - windowInfo.rcWindow.left; rect.bottom = windowInfo.rcClient.bottom - windowInfo.rcWindow.top; } else if (!data->dwmCompositionEnabled) { // For ordinary themed windows when composition is disabled, a // region is needed to remove the rounded top corners. Make it // as large as possible to avoid having to change it when the // window is resized. rect.left = 0; rect.top = 0; rect.right = 32767; rect.bottom = 32767; } else { // Don't mess with the region when composition is enabled and // the window is not maximized, otherwise it will lose its // shadow. rect = null_rect; } // Treat empty regions as NULL regions. if (EqualRect(&rect, &null_rect)) { SetWindowRgn(data->hWnd, nullptr, TRUE); } else { SetWindowRgn(data->hWnd, CreateRectRgnIndirect(&rect), TRUE); } } #if (QT_VERSION >= QT_VERSION_CHECK(6, 0, 0)) bool WinNativeEventFilter::nativeEventFilter(const QByteArray &eventType, void *message, qintptr *result) #else bool WinNativeEventFilter::nativeEventFilter(const QByteArray &eventType, void *message, long *result) #endif { Q_UNUSED(eventType) const auto msg = static_cast(message); if (!msg->hwnd) { // Why sometimes the window handle is null? Is it designed to be? // Anyway, we should skip it in this case. return false; } if (m_framelessWindows.isEmpty()) { bool isTopLevel = false; // QWidgets with Qt::WA_NativeWindow enabled will make them become top // level windows even if they are not. Try if // Qt::WA_DontCreateNativeAncestors helps. const auto topLevelWindows = QGuiApplication::topLevelWindows(); for (auto &&window : qAsConst(topLevelWindows)) { if (window->handle() && (msg->hwnd == reinterpret_cast(window->winId()))) { isTopLevel = true; break; } } if (!isTopLevel) { return false; } } else if (!m_framelessWindows.contains(msg->hwnd)) { return false; } createUserData(msg->hwnd); const auto data = reinterpret_cast(GetWindowLongPtrW(msg->hwnd, GWLP_USERDATA)); // Don't forget to init it if not inited, otherwise the window style will // not be updated, but don't init it twice as well. if (!data->inited) { init(data); } switch (msg->message) { case WM_NCCREATE: { // Work-around a long-existing Windows bug. const auto userData = reinterpret_cast(msg->lParam)->lpCreateParams; SetWindowLongPtrW(msg->hwnd, GWLP_USERDATA, reinterpret_cast(userData)); break; } case WM_NCCALCSIZE: { // MSDN: No special handling is needed when wParam is FALSE. if (static_cast(msg->wParam)) { if (IsMaximized(msg->hwnd)) { const HMONITOR monitor = MonitorFromWindow(msg->hwnd, MONITOR_DEFAULTTONEAREST); if (monitor) { MONITORINFO monitorInfo; SecureZeroMemory(&monitorInfo, sizeof(monitorInfo)); monitorInfo.cbSize = sizeof(monitorInfo); GetMonitorInfoW(monitor, &monitorInfo); auto ¶ms = *reinterpret_cast(msg->lParam); params.rgrc[0] = monitorInfo.rcWork; // If the client rectangle is the same as the monitor's // rectangle, the shell assumes that the window has gone // fullscreen, so it removes the topmost attribute from any // auto-hide appbars, making them inaccessible. To avoid // this, reduce the size of the client area by one pixel on // a certain edge. The edge is chosen based on which side of // the monitor is likely to contain an auto-hide appbar, so // the missing client area is covered by it. if (EqualRect(¶ms.rgrc[0], &monitorInfo.rcMonitor)) { APPBARDATA abd; SecureZeroMemory(&abd, sizeof(abd)); abd.cbSize = sizeof(abd); const UINT taskbarState = SHAppBarMessage(ABM_GETSTATE, &abd); if (taskbarState & ABS_AUTOHIDE) { int edge = -1; abd.hWnd = FindWindowW(L"Shell_TrayWnd", nullptr); if (abd.hWnd) { const HMONITOR taskbarMonitor = MonitorFromWindow(abd.hWnd, MONITOR_DEFAULTTONEAREST); if (taskbarMonitor && (taskbarMonitor == monitor)) { SHAppBarMessage(ABM_GETTASKBARPOS, &abd); edge = abd.uEdge; } } if (edge == ABE_BOTTOM) { params.rgrc[0].bottom--; } else if (edge == ABE_LEFT) { params.rgrc[0].left++; } else if (edge == ABE_TOP) { params.rgrc[0].top++; } else if (edge == ABE_RIGHT) { params.rgrc[0].right--; } } } } } } // This line removes the window frame (including the titlebar). // But the frame shadow is lost at the same time. We'll bring it // back later. *result = 0; return true; } case WM_DWMCOMPOSITIONCHANGED: { // Bring the frame shadow back through DWM. // Don't paint the shadow manually using QPainter or QGraphicsEffect. handleDwmCompositionChanged(data); *result = 0; return true; } case WM_NCUAHDRAWCAPTION: case WM_NCUAHDRAWFRAME: { // These undocumented messages are sent to draw themed window // borders. Block them to prevent drawing borders over the client // area. *result = 0; return true; } case WM_NCPAINT: { if (data->dwmCompositionEnabled) { break; } else { // Only block WM_NCPAINT when composition is disabled. If it's // blocked when composition is enabled, the window shadow won't // be drawn. *result = 0; return true; } } case WM_NCACTIVATE: { // DefWindowProc won't repaint the window border if lParam (normally // a HRGN) is -1. *result = DefWindowProcW(msg->hwnd, msg->message, msg->wParam, -1); return true; } case WM_NCHITTEST: { const auto getHTResult = [](HWND _hWnd, LPARAM _lParam, LPWINDOW _data) -> LRESULT { const auto isInSpecificAreas = [](int x, int y, const QVector &areas, qreal dpr) -> bool { for (auto &&area : qAsConst(areas)) { if (!area.isValid()) { continue; } if (QRect(area.x() * dpr, area.y() * dpr, area.width() * dpr, area.height() * dpr) .contains(x, y, true)) { return true; } } return false; }; RECT clientRect = {0, 0, 0, 0}; GetClientRect(_hWnd, &clientRect); const LONG ww = clientRect.right; const LONG wh = clientRect.bottom; POINT mouse; mouse.x = GET_X_LPARAM(_lParam); mouse.y = GET_Y_LPARAM(_lParam); ScreenToClient(_hWnd, &mouse); // These values are DPI-aware. const LONG bw = borderWidth(_hWnd); const LONG bh = borderHeight(_hWnd); const LONG tbh = titlebarHeight(_hWnd); const bool isInsideWindow = (mouse.x > 0) && (mouse.x < ww) && (mouse.y > 0) && (mouse.y < wh); const qreal dpr = getDprForWindow(_hWnd); const bool isTitlebar = isInsideWindow && (mouse.y < tbh) && !isInSpecificAreas(mouse.x, mouse.y, _data->windowData.ignoreAreas, dpr) && (_data->windowData.draggableAreas.isEmpty() ? true : isInSpecificAreas(mouse.x, mouse.y, _data->windowData.draggableAreas, dpr)); if (IsMaximized(_hWnd)) { if (isTitlebar) { return HTCAPTION; } return HTCLIENT; } const bool isTop = isInsideWindow && (mouse.y < bh); const bool isBottom = isInsideWindow && (mouse.y > (wh - bh)); const bool isLeft = isInsideWindow && (mouse.x < bw); const bool isRight = isInsideWindow && (mouse.x > (ww - bw)); if (isTop) { if (isLeft) { return HTTOPLEFT; } if (isRight) { return HTTOPRIGHT; } return HTTOP; } if (isBottom) { if (isLeft) { return HTBOTTOMLEFT; } if (isRight) { return HTBOTTOMRIGHT; } return HTBOTTOM; } if (isLeft) { return HTLEFT; } if (isRight) { return HTRIGHT; } if (isTitlebar) { return HTCAPTION; } return HTCLIENT; }; *result = getHTResult(msg->hwnd, msg->lParam, data); return true; } case WM_GETMINMAXINFO: { // Don't cover the taskbar when maximized. const HMONITOR monitor = MonitorFromWindow(msg->hwnd, MONITOR_DEFAULTTONEAREST); if (monitor) { MONITORINFO monitorInfo; SecureZeroMemory(&monitorInfo, sizeof(monitorInfo)); monitorInfo.cbSize = sizeof(monitorInfo); GetMonitorInfoW(monitor, &monitorInfo); const RECT rcWorkArea = monitorInfo.rcWork; const RECT rcMonitorArea = monitorInfo.rcMonitor; auto &mmi = *reinterpret_cast(msg->lParam); mmi.ptMaxPosition.x = qAbs(rcWorkArea.left - rcMonitorArea.left); mmi.ptMaxPosition.y = qAbs(rcWorkArea.top - rcMonitorArea.top); mmi.ptMaxSize.x = qAbs(rcWorkArea.right - rcWorkArea.left); mmi.ptMaxSize.y = qAbs(rcWorkArea.bottom - rcWorkArea.top); mmi.ptMaxTrackSize.x = mmi.ptMaxSize.x; mmi.ptMaxTrackSize.y = mmi.ptMaxSize.y; if (!data->windowData.minimumSize.isEmpty()) { mmi.ptMinTrackSize.x = getDprForWindow(msg->hwnd) * data->windowData.minimumSize.width(); mmi.ptMinTrackSize.y = getDprForWindow(msg->hwnd) * data->windowData.minimumSize.height(); } *result = 0; return true; } break; } case WM_SETICON: case WM_SETTEXT: { // Disable painting while these messages are handled to prevent them // from drawing a window caption over the client area, but only when // composition and theming are disabled. These messages don't paint // when composition is enabled and blocking WM_NCUAHDRAWCAPTION should // be enough to prevent painting when theming is enabled. if (!data->dwmCompositionEnabled && !data->themeEnabled) { const LONG_PTR oldStyle = GetWindowLongPtrW(msg->hwnd, GWL_STYLE); // Prevent Windows from drawing the default title bar by temporarily // toggling the WS_VISIBLE style. SetWindowLongPtrW(msg->hwnd, GWL_STYLE, oldStyle & ~WS_VISIBLE); const LRESULT ret = DefWindowProcW(msg->hwnd, msg->message, msg->wParam, msg->lParam); SetWindowLongPtrW(msg->hwnd, GWL_STYLE, oldStyle); *result = ret; return true; } break; } case WM_THEMECHANGED: { handleThemeChanged(data); break; } case WM_WINDOWPOSCHANGED: { updateRegion(data); // Repaint the non-client area immediately. InvalidateRect(msg->hwnd, nullptr, TRUE); break; } case WM_DPICHANGED: { const auto dpiX = LOWORD(msg->wParam); const auto dpiY = HIWORD(msg->wParam); // dpiX and dpiY are identical. Just to silence a compiler warning. const auto dpi = dpiX == dpiY ? dpiY : dpiX; qDebug().noquote() << "Window DPI changed: new DPI -->" << dpi << "new DPR -->" << qreal(dpi) / qreal(USER_DEFAULT_SCREEN_DPI); // Qt can also do the scaling for us, but here we scale our window // ourself to let the window redraw itself. const auto prcNewWindow = reinterpret_cast(msg->lParam); SetWindowPos(msg->hwnd, nullptr, prcNewWindow->left, prcNewWindow->top, prcNewWindow->right - prcNewWindow->left, prcNewWindow->bottom - prcNewWindow->top, SWP_NOZORDER | SWP_NOOWNERZORDER | SWP_NOACTIVATE); *result = 0; return true; } default: { break; } } return false; } void WinNativeEventFilter::init(LPWINDOW data) { // Make sure we don't init the same window twice. data->inited = TRUE; // Make sure our window is a normal application window, we'll remove the // window frame later in Win32 events, don't use WS_POPUP to do this. SetWindowLongPtrW(data->hWnd, GWL_STYLE, WS_OVERLAPPEDWINDOW | WS_CLIPCHILDREN | WS_CLIPSIBLINGS); // Make our window a layered window to get better performance. It's also // needed to remove the three system buttons (minimize, maximize and close) // with the help of the next line. SetWindowLongPtrW(data->hWnd, GWL_EXSTYLE, WS_EX_APPWINDOW | WS_EX_LAYERED); SetLayeredWindowAttributes(data->hWnd, RGB(255, 0, 255), 0, LWA_COLORKEY); // Make sure our window has the frame shadow. // According to MSDN, SetWindowLong won't take effect unless we trigger a // frame change event manually, we will do it inside the // handleDwmCompositionChanged function, so it's not necessary to do it // here. handleDwmCompositionChanged(data); handleThemeChanged(data); // For debug purposes. qDebug().noquote() << "Window handle:" << data->hWnd; qDebug().noquote() << "Window DPI:" << getDpiForWindow(data->hWnd) << "Window DPR:" << getDprForWindow(data->hWnd); qDebug().noquote() << "Window border width:" << borderWidth(data->hWnd) << "Window border height:" << borderHeight(data->hWnd) << "Window titlebar height:" << titlebarHeight(data->hWnd); } void WinNativeEventFilter::handleDwmCompositionChanged(LPWINDOW data) { BOOL enabled = FALSE; DwmIsCompositionEnabled(&enabled); data->dwmCompositionEnabled = enabled; // We should not draw the frame shadow if DWM composition is disabled, in // other words, a window should not have frame shadow when Windows Aero is // not enabled. // Note that, start from Win8, the DWM composition is always enabled and // can't be disabled. if (enabled) { // The frame shadow is drawn on the non-client area and thus we have to // make sure the non-client area rendering is enabled first. const DWMNCRENDERINGPOLICY ncrp = DWMNCRP_ENABLED; DwmSetWindowAttribute(data->hWnd, DWMWA_NCRENDERING_POLICY, &ncrp, sizeof(ncrp)); // Negative margins have special meaning to // DwmExtendFrameIntoClientArea. Negative margins create the "sheet of // glass" effect, where the client area is rendered as a solid surface // with no window border. const MARGINS margins = {-1, -1, -1, -1}; DwmExtendFrameIntoClientArea(data->hWnd, &margins); } handleBlurForWindow(data); updateRegion(data); updateWindow(data->hWnd); } void WinNativeEventFilter::handleThemeChanged(LPWINDOW data) { data->themeEnabled = IsThemeActive(); } void WinNativeEventFilter::handleBlurForWindow(LPWINDOW data) { if ((QOperatingSystemVersion::current() < QOperatingSystemVersion::Windows7) || !(data->dwmCompositionEnabled && data->windowData.blurEnabled)) { return; } // We prefer using DWM blur on Windows 7 because it has better appearance. // It's supported on Windows Vista as well actually, but Qt has drop it, so // we won't do it for Vista. if (QOperatingSystemVersion::current() < QOperatingSystemVersion::Windows8) { // Windows Aero DWM_BLURBEHIND dwmbb; dwmbb.dwFlags = DWM_BB_ENABLE; dwmbb.fEnable = TRUE; dwmbb.hRgnBlur = nullptr; dwmbb.fTransitionOnMaximized = FALSE; DwmEnableBlurBehindWindow(data->hWnd, &dwmbb); } else if (m_SetWindowCompositionAttribute) { ACCENT_POLICY accentPolicy; accentPolicy.AccentFlags = 0; // GradientColor only has effect when using with acrylic, so we can set // it to zero in most cases. It's an AGBR unsigned int, for example, use // 0xCC000000 for dark blur behind background. accentPolicy.GradientColor = 0; accentPolicy.AnimationId = 0; WINDOWCOMPOSITIONATTRIBDATA attribData; attribData.dwAttribute = WCA_ACCENT_POLICY; attribData.pvAttribute = &accentPolicy; attribData.cbAttribute = sizeof(accentPolicy); // Windows 10, version 1709 (10.0.16299) if (QOperatingSystemVersion::current() >= QOperatingSystemVersion(QOperatingSystemVersion::Windows, 10, 0, 16299)) { // Acrylic (Will also blur but is completely different with // Windows Aero) accentPolicy.AccentState = ACCENT_ENABLE_ACRYLICBLURBEHIND; } else if (QOperatingSystemVersion::current() >= QOperatingSystemVersion::Windows10) { // Blur (Something like Windows Aero in Windows 7) accentPolicy.AccentState = ACCENT_ENABLE_BLURBEHIND; } else if (QOperatingSystemVersion::current() >= QOperatingSystemVersion::Windows8) { // Transparent gradient color accentPolicy.AccentState = ACCENT_ENABLE_TRANSPARENTGRADIENT; } m_SetWindowCompositionAttribute(data->hWnd, &attribData); } } UINT WinNativeEventFilter::getDpiForWindow(HWND handle) { const auto getScreenDpi = [](UINT defaultValue) -> UINT { // Available since Windows 7. ID2D1Factory *m_pDirect2dFactory = nullptr; if (SUCCEEDED(D2D1CreateFactory(D2D1_FACTORY_TYPE_SINGLE_THREADED, &m_pDirect2dFactory)) && m_pDirect2dFactory) { m_pDirect2dFactory->ReloadSystemMetrics(); FLOAT dpiX = defaultValue, dpiY = defaultValue; m_pDirect2dFactory->GetDesktopDpi(&dpiX, &dpiY); // The values of *dpiX and *dpiY are identical. return dpiX; } // Available since Windows 2000. const HDC hdc = GetDC(nullptr); if (hdc) { const int dpiX = GetDeviceCaps(hdc, LOGPIXELSX); const int dpiY = GetDeviceCaps(hdc, LOGPIXELSY); ReleaseDC(nullptr, hdc); // The values of dpiX and dpiY are identical actually, just to // silence a compiler warning. return dpiX == dpiY ? dpiY : dpiX; } return defaultValue; }; if (!handle) { if (m_GetSystemDpiForProcess) { return m_GetSystemDpiForProcess(GetCurrentProcess()); } else if (m_GetDpiForSystem) { return m_GetDpiForSystem(); } else { return getScreenDpi(USER_DEFAULT_SCREEN_DPI); } } if (m_GetDpiForWindow) { return m_GetDpiForWindow(handle); } if (m_GetDpiForMonitor) { UINT dpiX = USER_DEFAULT_SCREEN_DPI, dpiY = USER_DEFAULT_SCREEN_DPI; m_GetDpiForMonitor(MonitorFromWindow(handle, MONITOR_DEFAULTTONEAREST), MDT_EFFECTIVE_DPI, &dpiX, &dpiY); // The values of *dpiX and *dpiY are identical. return dpiX; } return getScreenDpi(USER_DEFAULT_SCREEN_DPI); } qreal WinNativeEventFilter::getDprForWindow(HWND handle) { qreal dpr = handle ? (qreal(getDpiForWindow(handle)) / qreal(USER_DEFAULT_SCREEN_DPI)) : m_defaultDPR; #if (QT_VERSION >= QT_VERSION_CHECK(5, 14, 0)) switch (QGuiApplication::highDpiScaleFactorRoundingPolicy()) { case Qt::HighDpiScaleFactorRoundingPolicy::PassThrough: // Default behavior for Qt 6. break; case Qt::HighDpiScaleFactorRoundingPolicy::Floor: dpr = qFloor(dpr); break; case Qt::HighDpiScaleFactorRoundingPolicy::Ceil: dpr = qCeil(dpr); break; default: // Default behavior for Qt 5.6 to 5.15 dpr = qRound(dpr); break; } #else // Default behavior for Qt 5.6 to 5.15 dpr = qRound(dpr); #endif return dpr; } int WinNativeEventFilter::getSystemMetricsForWindow(HWND handle, int index) { if (m_GetSystemMetricsForDpi) { UINT dpi = getDpiForWindow(handle); #if (QT_VERSION >= QT_VERSION_CHECK(5, 14, 0)) const bool shouldRound = QGuiApplication::highDpiScaleFactorRoundingPolicy() != Qt::HighDpiScaleFactorRoundingPolicy::PassThrough; #else const bool shouldRound = true; #endif if (shouldRound) { if (dpi < (USER_DEFAULT_SCREEN_DPI * 1.5)) { dpi = USER_DEFAULT_SCREEN_DPI; } else if (dpi == (USER_DEFAULT_SCREEN_DPI * 1.5)) { dpi = USER_DEFAULT_SCREEN_DPI * 1.5; } else if (dpi < (USER_DEFAULT_SCREEN_DPI * 2.5)) { dpi = USER_DEFAULT_SCREEN_DPI * 2; } else if (dpi == (USER_DEFAULT_SCREEN_DPI * 2.5)) { dpi = USER_DEFAULT_SCREEN_DPI * 2.5; } else if (dpi < (USER_DEFAULT_SCREEN_DPI * 3.5)) { dpi = USER_DEFAULT_SCREEN_DPI * 3; } else if (dpi == (USER_DEFAULT_SCREEN_DPI * 3.5)) { dpi = USER_DEFAULT_SCREEN_DPI * 3.5; } else if (dpi < (USER_DEFAULT_SCREEN_DPI * 4.5)) { dpi = USER_DEFAULT_SCREEN_DPI * 4; } else { qWarning().noquote() << "DPI too large:" << dpi; } } return m_GetSystemMetricsForDpi(index, dpi); } else { return GetSystemMetrics(index) * getDprForWindow(handle); } } void WinNativeEventFilter::setWindowData(HWND window, WINDOWDATA *data) { if (window && data) { createUserData(window, data); updateWindow(window); } } WinNativeEventFilter::WINDOWDATA * WinNativeEventFilter::windowData(HWND window) { if (window) { createUserData(window); return &reinterpret_cast( GetWindowLongPtrW(window, GWLP_USERDATA)) ->windowData; } return nullptr; } void WinNativeEventFilter::createUserData(HWND handle, WINDOWDATA *data) { if (handle) { const auto userData = reinterpret_cast( GetWindowLongPtrW(handle, GWLP_USERDATA)); if (userData) { if (data) { if (userData->windowData.blurEnabled != data->blurEnabled) { qDebug().noquote() << "Due to technical issue, you can only enable or " "disable blur before the window is shown."; } userData->windowData = *data; } } else { LPWINDOW _data = new WINDOW; _data->hWnd = handle; if (data) { _data->windowData = *data; } SetWindowLongPtrW(handle, GWLP_USERDATA, reinterpret_cast(_data)); } } } void WinNativeEventFilter::updateWindow(HWND handle) { if (handle) { SetWindowPos(handle, nullptr, 0, 0, 0, 0, SWP_FRAMECHANGED | SWP_NOACTIVATE | SWP_NOSIZE | SWP_NOMOVE | SWP_NOZORDER | SWP_NOOWNERZORDER); SendMessageW(handle, WM_SIZE, NULL, NULL); UpdateWindow(handle); } } void WinNativeEventFilter::updateQtFrame(QWindow *window) { if (window) { // Reduce top frame to zero since we paint it ourselves. Use // device pixel to avoid rounding errors. const QMargins margins = { 0, -titlebarHeight(reinterpret_cast(window->winId())), 0, 0}; const QVariant marginsVar = QVariant::fromValue(margins); // The dynamic property takes effect when creating the platform window. window->setProperty("_q_windowsCustomMargins", marginsVar); // If a platform window exists, change via native interface. QPlatformWindow *platformWindow = window->handle(); if (platformWindow) { QGuiApplication::platformNativeInterface()->setWindowProperty( platformWindow, QString::fromUtf8("WindowsCustomMargins"), marginsVar); } } } void WinNativeEventFilter::initDLLs() { QLibrary user32Lib(QString::fromUtf8("User32")), shcoreLib(QString::fromUtf8("SHCore")); if (QOperatingSystemVersion::current() >= QOperatingSystemVersion::Windows7) { if (!m_SetWindowCompositionAttribute) { m_SetWindowCompositionAttribute = reinterpret_cast( user32Lib.resolve("SetWindowCompositionAttribute")); } } if (QOperatingSystemVersion::current() >= QOperatingSystemVersion::Windows8_1) { if (!m_GetDpiForMonitor) { m_GetDpiForMonitor = reinterpret_cast( shcoreLib.resolve("GetDpiForMonitor")); } } // Windows 10, version 1607 (10.0.14393) if (QOperatingSystemVersion::current() >= QOperatingSystemVersion(QOperatingSystemVersion::Windows, 10, 0, 14393)) { if (!m_GetDpiForWindow) { m_GetDpiForWindow = reinterpret_cast( user32Lib.resolve("GetDpiForWindow")); } if (!m_GetDpiForSystem) { m_GetDpiForSystem = reinterpret_cast( user32Lib.resolve("GetDpiForSystem")); } if (!m_GetSystemMetricsForDpi) { m_GetSystemMetricsForDpi = reinterpret_cast( user32Lib.resolve("GetSystemMetricsForDpi")); } } // Windows 10, version 1803 (10.0.17134) if (QOperatingSystemVersion::current() >= QOperatingSystemVersion(QOperatingSystemVersion::Windows, 10, 0, 17134)) { if (!m_GetSystemDpiForProcess) { m_GetSystemDpiForProcess = reinterpret_cast( user32Lib.resolve("GetSystemDpiForProcess")); } } }