sola/qwindowkit.git

			@@ -5,19 +5,225 @@
			#include <QtCore/QHash>
			#include <QtCore/QAbstractNativeEventFilter>
			#include <QtCore/QCoreApplication>
			#include <QtCore/QOperatingSystemVersion>

			#include <QtCore/private/qsystemlibrary_p.h>
			#include <QtGui/private/qhighdpiscaling_p.h>

			#include "qwkcoreglobal_p.h"

			#include <shellscalingapi.h>
			#include <dwmapi.h>

			namespace QWK {

			static constexpr const auto kAutoHideTaskBarThickness = quint8{ 2 }; // The thickness of an auto-hide taskbar in pixels.

			using WndProcHash = QHash<HWND, Win32WindowContext *>; // hWnd -> context
			Q_GLOBAL_STATIC(WndProcHash, g_wndProcHash);

			static WNDPROC g_qtWindowProc = nullptr; // Original Qt window proc function

			struct DynamicApis {
			decltype(&::DwmFlush) pDwmFlush = nullptr;
			decltype(&::GetDpiForWindow) pGetDpiForWindow = nullptr;
			decltype(&::GetSystemMetricsForDpi) pGetSystemMetricsForDpi = nullptr;
			decltype(&::GetDpiForMonitor) pGetDpiForMonitor = nullptr;

			DynamicApis() {
			QSystemLibrary user32(QStringLiteral("user32.dll"));
			pGetDpiForWindow = reinterpret_cast<decltype(pGetDpiForWindow)>(user32.resolve("GetDpiForWindow"));
			pGetSystemMetricsForDpi = reinterpret_cast<decltype(pGetSystemMetricsForDpi)>(user32.resolve("GetSystemMetricsForDpi"));

			QSystemLibrary shcore(QStringLiteral("shcore.dll"));
			pGetDpiForMonitor = reinterpret_cast<decltype(pGetDpiForMonitor)>(shcore.resolve("GetDpiForMonitor"));

			QSystemLibrary dwmapi(QStringLiteral("dwmapi.dll"));
			pDwmFlush = reinterpret_cast<decltype(pDwmFlush)>(dwmapi.resolve("DwmFlush"));
			}

			~DynamicApis() = default;

			static const DynamicApis &instance() {
			static const DynamicApis inst{};
			return inst;
			}

			private:
			Q_DISABLE_COPY_MOVE(DynamicApis)
			};

			static inline constexpr bool operator==(const POINT &lhs, const POINT &rhs) noexcept
			{
			return ((lhs.x == rhs.x) && (lhs.y == rhs.y));
			}

			static inline constexpr bool operator!=(const POINT &lhs, const POINT &rhs) noexcept
			{
			return !operator==(lhs, rhs);
			}

			static inline constexpr bool operator==(const SIZE &lhs, const SIZE &rhs) noexcept
			{
			return ((lhs.cx == rhs.cx) && (lhs.cy == rhs.cy));
			}

			static inline constexpr bool operator!=(const SIZE &lhs, const SIZE &rhs) noexcept
			{
			return !operator==(lhs, rhs);
			}

			static inline constexpr bool operator>(const SIZE &lhs, const SIZE &rhs) noexcept
			{
			return ((lhs.cx * lhs.cy) > (rhs.cx * rhs.cy));
			}

			static inline constexpr bool operator>=(const SIZE &lhs, const SIZE &rhs) noexcept
			{
			return (operator>(lhs, rhs) \|\| operator==(lhs, rhs));
			}

			static inline constexpr bool operator<(const SIZE &lhs, const SIZE &rhs) noexcept
			{
			return (operator!=(lhs, rhs) && !operator>(lhs, rhs));
			}

			static inline constexpr bool operator<=(const SIZE &lhs, const SIZE &rhs) noexcept
			{
			return (operator<(lhs, rhs) \|\| operator==(lhs, rhs));
			}

			static inline constexpr bool operator==(const RECT &lhs, const RECT &rhs) noexcept
			{
			return ((lhs.left == rhs.left) && (lhs.top == rhs.top) && (lhs.right == rhs.right) && (lhs.bottom == rhs.bottom));
			}

			static inline constexpr bool operator!=(const RECT &lhs, const RECT &rhs) noexcept
			{
			return !operator==(lhs, rhs);
			}

			static inline constexpr QPoint point2qpoint(const POINT &point)
			{
			return QPoint{ int(point.x), int(point.y) };
			}

			static inline constexpr POINT qpoint2point(const QPoint &point)
			{
			return POINT{ LONG(point.x()), LONG(point.y()) };
			}

			static inline constexpr QSize size2qsize(const SIZE &size)
			{
			return QSize{ int(size.cx), int(size.cy) };
			}

			static inline constexpr SIZE qsize2size(const QSize &size)
			{
			return SIZE{ LONG(size.width()), LONG(size.height()) };
			}

			static inline constexpr QRect rect2qrect(const RECT &rect)
			{
			return QRect{ QPoint{ int(rect.left), int(rect.top) }, QSize{ int(RECT_WIDTH(rect)), int(RECT_HEIGHT(rect)) } };
			}

			static inline constexpr RECT qrect2rect(const QRect &qrect)
			{
			return RECT{ LONG(qrect.left()), LONG(qrect.top()), LONG(qrect.right()), LONG(qrect.bottom()) };
			}

			static inline /constexpr/ QString hwnd2str(const WId windowId)
			{
			// NULL handle is allowed here.
			return QLatin1String("0x") + QString::number(windowId, 16).toUpper().rightJustified(8, u'0');
			}

			static inline /constexpr/ QString hwnd2str(const HWND hwnd)
			{
			// NULL handle is allowed here.
			return hwnd2str(reinterpret_cast<WId>(hwnd));
			}

			static inline bool isWin8Point1OrGreater() {
			static const bool result = QOperatingSystemVersion::current() >= QOperatingSystemVersion::Windows8_1;
			return result;
			}

			static inline bool isWin10OrGreater() {
			static const bool result = QOperatingSystemVersion::current() >= QOperatingSystemVersion::Windows10;
			return result;
			}

			static inline quint32 getDpiForWindow(const HWND hwnd) {
			Q_ASSERT(hwnd);
			if (!hwnd) {
			return USER_DEFAULT_SCREEN_DPI;
			}
			const DynamicApis &apis = DynamicApis::instance();
			if (apis.pGetDpiForWindow) { // Win10
			return apis.pGetDpiForWindow(hwnd);
			} else if (apis.pGetDpiForMonitor) { // Win8.1
			const HMONITOR monitor = ::MonitorFromWindow(hwnd, MONITOR_DEFAULTTONEAREST);
			UINT dpiX{ USER_DEFAULT_SCREEN_DPI };
			UINT dpiY{ USER_DEFAULT_SCREEN_DPI };
			apis.pGetDpiForMonitor(monitor, MDT_EFFECTIVE_DPI, &dpiX, &dpiY);
			return dpiX;
			} else { // Win2K
			const HDC hdc = ::GetDC(nullptr);
			const int dpiX = ::GetDeviceCaps(hdc, LOGPIXELSX);
			const int dpiY = ::GetDeviceCaps(hdc, LOGPIXELSY);
			::ReleaseDC(nullptr, hdc);
			return quint32(dpiX);
			}
			}

			static inline quint32 getResizeBorderThickness(const HWND hwnd) {
			Q_ASSERT(hwnd);
			if (!hwnd) {
			return 0;
			}
			const DynamicApis &apis = DynamicApis::instance();
			if (apis.pGetSystemMetricsForDpi) {
			const quint32 dpi = getDpiForWindow(hwnd);
			return apis.pGetSystemMetricsForDpi(SM_CXSIZEFRAME, dpi) + apis.pGetSystemMetricsForDpi(SM_CXPADDEDBORDER, dpi);
			} else {
			return ::GetSystemMetrics(SM_CXSIZEFRAME) + ::GetSystemMetrics(SM_CXPADDEDBORDER);
			}
			}

			static inline std::optional<MONITORINFOEXW> getMonitorForWindow(const HWND hwnd)
			{
			Q_ASSERT(hwnd);
			if (!hwnd) {
			return std::nullopt;
			}
			// Use "MONITOR_DEFAULTTONEAREST" here so that we can still get the correct
			// monitor even if the window is minimized.
			const HMONITOR monitor = ::MonitorFromWindow(hwnd, MONITOR_DEFAULTTONEAREST);
			MONITORINFOEXW monitorInfo{};
			monitorInfo.cbSize = sizeof(monitorInfo);
			::GetMonitorInfoW(monitor, &monitorInfo);
			return monitorInfo;
			};

			static inline bool isFullScreen(const HWND hwnd) {
			Q_ASSERT(hwnd);
			if (!hwnd) {
			return false;
			}
			RECT windowRect{};
			::GetWindowRect(hwnd, &windowRect);
			const std::optional<MONITORINFOEXW> mi = getMonitorForWindow(hwnd);
			// Compare to the full area of the screen, not the work area.
			return (windowRect == mi.value_or(MONITORINFOEXW{}).rcMonitor);
			}

			static inline QPoint fromNativeLocalPosition(const QWindow *window, const QPoint &point) {
			Q_ASSERT(window);
			if (!window) {
			return point;
			}
			#if 1
			return QHighDpi::fromNativeLocalPosition(point, window);
			#else
			@@ -60,11 +266,11 @@
			return false;
			}
			const LONG_PTR styles = ::GetWindowLongPtrW(hwnd, GWL_STYLE);
			if ((styles == 0) \|\| (styles & WS_DISABLED)) {
			if (styles & WS_DISABLED) {
			return false;
			}
			const LONG_PTR exStyles = ::GetWindowLongPtrW(hwnd, GWL_EXSTYLE);
			if ((exStyles == 0) \|\| (exStyles & WS_EX_TOOLWINDOW)) {
			if (exStyles & WS_EX_TOOLWINDOW) {
			return false;
			}
			RECT rect = {0, 0, 0, 0};
			@@ -98,6 +304,11 @@
			public:
			bool nativeEventFilter(const QByteArray &eventType, void *message,
			QT_NATIVE_EVENT_RESULT_TYPE *result) override {
			// It has been observed that the pointer that Qt gives us is sometimes null on some machines.
			// We need to guard against it in such scenarios.
			if (!result) {
			return false;
			}
			if (lastMessageHandled) {
			*result = static_cast<QT_NATIVE_EVENT_RESULT_TYPE>(lastMessageResult);
			return true;
			@@ -274,11 +485,10 @@
			return true;
			}

			// TODO: Uncomment and do something
			// bool frameBorderVisible = Utils::isWindowFrameBorderVisible();

			// TODO: Implement
			// ...
			// Main implementation
			if (customWindowHandler(hWnd, message, wParam, lParam, result)) {
			return true;
			}

			return false; // Not handled
			}
			@@ -289,7 +499,7 @@
			return (wParam == kMessageTag);
			}

			static quint64 getKeyState() {
			static inline quint64 getKeyState() {
			quint64 result = 0;
			const auto &get = [](const int virtualKey) -> bool {
			return (::GetAsyncKeyState(virtualKey) < 0);
			@@ -343,9 +553,7 @@
			}
			const auto screenPos = POINT{GET_X_LPARAM(lParam), GET_Y_LPARAM(lParam)};
			POINT clientPos = screenPos;
			if (::ScreenToClient(hWnd, &clientPos) == FALSE) {
			return 0;
			}
			::ScreenToClient(hWnd, &clientPos);
			return MAKELPARAM(clientPos.x, clientPos.y);
			}();
			#if 0
			@@ -413,9 +621,8 @@
			#undef SEND_MESSAGE
			}

			static bool requestForMouseLeaveMessage(HWND hWnd, bool nonClient) {
			TRACKMOUSEEVENT tme;
			SecureZeroMemory(&tme, sizeof(tme));
			static inline void requestForMouseLeaveMessage(HWND hWnd, bool nonClient) {
			TRACKMOUSEEVENT tme{};
			tme.cbSize = sizeof(tme);
			tme.dwFlags = TME_LEAVE;
			if (nonClient) {
			@@ -423,10 +630,7 @@
			}
			tme.hwndTrack = hWnd;
			tme.dwHoverTime = HOVER_DEFAULT;
			if (::TrackMouseEvent(&tme) == FALSE) {
			return false;
			}
			return true;
			::TrackMouseEvent(&tme);
			}

			bool Win32WindowContext::snapLayoutHandler(HWND hWnd, UINT message, WPARAM wParam,
			@@ -466,7 +670,7 @@
			// WM_MOUSELEAVE.
			if (lastHitTestResult != WindowPart::ChromeButton && mouseLeaveBlocked) {
			mouseLeaveBlocked = false;
			std::ignore = requestForMouseLeaveMessage(hWnd, false);
			requestForMouseLeaveMessage(hWnd, false);
			}
			break;
			}
			@@ -541,7 +745,7 @@
			// in advance.
			if (mouseLeaveBlocked) {
			mouseLeaveBlocked = false;
			std::ignore = requestForMouseLeaveMessage(hWnd, false);
			requestForMouseLeaveMessage(hWnd, false);
			}
			} else {
			if (mouseLeaveBlocked) {
			@@ -567,4 +771,232 @@
			return false;
			}

			bool Win32WindowContext::customWindowHandler(HWND hWnd, UINT message, WPARAM wParam,
			LPARAM lParam, LRESULT *result)
			{
			switch (message) {
			case WM_NCCALCSIZE: {
			// Windows是根据这个消息的返回值来设置窗口的客户区（窗口中真正显示的内容）
			// 和非客户区（标题栏、窗口边框、菜单栏和状态栏等Windows系统自行提供的部分
			// ，不过对于Qt来说，除了标题栏和窗口边框，非客户区基本也都是自绘的）的范
			// 围的，lParam里存放的就是新客户区的几何区域，默认是整个窗口的大小，正常
			// 的程序需要修改这个参数，告知系统窗口的客户区和非客户区的范围（一般来说可
			// 以完全交给Windows，让其自行处理，使用默认的客户区和非客户区），因此如果
			// 我们不修改lParam，就可以使客户区充满整个窗口，从而去掉标题栏和窗口边框
			// （因为这些东西都被客户区给盖住了。但边框阴影也会因此而丢失，不过我们会使
			// 用其他方式将其带回，请参考其他消息的处理，此处不过多提及）。但有个情况要
			// 特别注意，那就是窗口最大化后，窗口的实际尺寸会比屏幕的尺寸大一点，从而使
			// 用户看不到窗口的边界，这样用户就不能在窗口最大化后调整窗口的大小了（虽然
			// 这个做法听起来特别奇怪，但Windows确实就是这样做的），因此如果我们要自行
			// 处理窗口的非客户区，就要在窗口最大化后，将窗口边框的宽度和高度（一般是相
			// 等的）从客户区裁剪掉，否则我们窗口所显示的内容就会超出屏幕边界，显示不全。
			// 如果用户开启了任务栏自动隐藏，在窗口最大化后，还要考虑任务栏的位置。因为
			// 如果窗口最大化后，其尺寸和屏幕尺寸相等（因为任务栏隐藏了，所以窗口最大化
			// 后其实是充满了整个屏幕，变相的全屏了），Windows会认为窗口已经进入全屏的
			// 状态，从而导致自动隐藏的任务栏无法弹出。要避免这个状况，就要使窗口的尺寸
			// 小于屏幕尺寸。我下面的做法参考了火狐、Chromium和Windows Terminal
			// 如果没有开启任务栏自动隐藏，是不存在这个问题的，所以要先进行判断。
			// 一般情况下，*result设置为0（相当于DefWindowProc的返回值为0）就可以了，
			// 根据MSDN的说法，返回0意为此消息已经被程序自行处理了，让Windows跳过此消
			// 息，否则Windows会添加对此消息的默认处理，对于当前这个消息而言，就意味着
			// 标题栏和窗口边框又会回来，这当然不是我们想要的结果。根据MSDN，当wParam
			// 为FALSE时，只能返回0，但当其为TRUE时，可以返回0，也可以返回一个WVR_常
			// 量。根据Chromium的注释，当存在非客户区时，如果返回WVR_REDRAW会导致子
			// 窗口/子控件出现奇怪的bug（自绘控件错位），并且Lucas在Windows 10
			// 上成功复现，说明这个bug至今都没有解决。我查阅了大量资料，发现唯一的解决
			// 方案就是返回0。但如果不存在非客户区，且wParam为TRUE，最好返回
			// WVR_REDRAW，否则窗口在调整大小可能会产生严重的闪烁现象。
			// 虽然对大多数消息来说，返回0都代表让Windows忽略此消息，但实际上不同消息
			// 能接受的返回值是不一样的，请注意自行查阅MSDN。

			// Sent when the size and position of a window's client area must be
			// calculated. By processing this message, an application can
			// control the content of the window's client area when the size or
			// position of the window changes. If wParam is TRUE, lParam points
			// to an NCCALCSIZE_PARAMS structure that contains information an
			// application can use to calculate the new size and position of the
			// client rectangle. If wParam is FALSE, lParam points to a RECT
			// structure. On entry, the structure contains the proposed window
			// rectangle for the window. On exit, the structure should contain
			// the screen coordinates of the corresponding window client area.
			// The client area is the window's content area, the non-client area
			// is the area which is provided by the system, such as the title
			// bar, the four window borders, the frame shadow, the menu bar, the
			// status bar, the scroll bar, etc. But for Qt, it draws most of the
			// window area (client + non-client) itself. We now know that the
			// title bar and the window frame is in the non-client area and we
			// can set the scope of the client area in this message, so we can
			// remove the title bar and the window frame by let the non-client
			// area be covered by the client area (because we can't really get
			// rid of the non-client area, it will always be there, all we can
			// do is to hide it) , which means we should let the client area's
			// size the same with the whole window's size. So there is no room
			// for the non-client area and then the user won't be able to see it
			// again. But how to achieve this? Very easy, just leave lParam (the
			// re-calculated client area) untouched. But of course you can
			// modify lParam, then the non-client area will be seen and the
			// window borders and the window frame will show up. However, things
			// are quite different when you try to modify the top margin of the
			// client area. DWM will always draw the whole title bar no matter
			// what margin value you set for the top, unless you don't modify it
			// and remove the whole top area (the title bar + the one pixel
			// height window border). This can be confirmed in Windows
			// Terminal's source code, you can also try yourself to verify
			// it. So things will become quite complicated if you want to
			// preserve the four window borders.

			// If `wParam` is `FALSE`, `lParam` points to a `RECT` that contains
			// the proposed window rectangle for our window. During our
			// processing of the `WM_NCCALCSIZE` message, we are expected to
			// modify the `RECT` that `lParam` points to, so that its value upon
			// our return is the new client area. We must return 0 if `wParam`
			// is `FALSE`.
			// If `wParam` is `TRUE`, `lParam` points to a `NCCALCSIZE_PARAMS`
			// struct. This struct contains an array of 3 `RECT`s, the first of
			// which has the exact same meaning as the `RECT` that is pointed to
			// by `lParam` when `wParam` is `FALSE`. The remaining `RECT`s, in
			// conjunction with our return value, can
			// be used to specify portions of the source and destination window
			// rectangles that are valid and should be preserved. We opt not to
			// implement an elaborate client-area preservation technique, and
			// simply return 0, which means "preserve the entire old client area
			// and align it with the upper-left corner of our new client area".
			const auto clientRect = ((wParam == FALSE) ? reinterpret_cast<LPRECT>(lParam) : &(reinterpret_cast<LPNCCALCSIZE_PARAMS>(lParam))->rgrc[0]);
			if (isWin10OrGreater()) {
			// Store the original top margin before the default window procedure applies the default frame.
			const LONG originalTop = clientRect->top;
			// Apply the default frame because we don't want to remove the whole window frame,
			// we still need the standard window frame (the resizable frame border and the frame
			// shadow) for the left, bottom and right edges.
			// If we return 0 here directly, the whole window frame will be removed (which means
			// there will be no resizable frame border and the frame shadow will also disappear),
			// and that's also how most applications customize their title bars on Windows. It's
			// totally OK but since we want to preserve as much original frame as possible, we
			// can't use that solution.
			const LRESULT hitTestResult = ::DefWindowProcW(hWnd, WM_NCCALCSIZE, wParam, lParam);
			if ((hitTestResult != HTERROR) && (hitTestResult != HTNOWHERE)) {
			*result = hitTestResult;
			return true;
			}
			// Re-apply the original top from before the size of the default frame was applied,
			// and the whole top frame (the title bar and the top border) is gone now.
			// For the top frame, we only has 2 choices: (1) remove the top frame entirely, or
			// (2) don't touch it at all. We can't preserve the top border by adjusting the top
			// margin here. If we try to modify the top margin, the original title bar will
			// always be painted by DWM regardless what margin we set, so here we can only remove
			// the top frame entirely and use some special technique to bring the top border back.
			clientRect->top = originalTop;
			}
			const bool max = IsMaximized(hWnd);
			const bool full = isFullScreen(hWnd);
			// We don't need this correction when we're fullscreen. We will
			// have the WS_POPUP size, so we don't have to worry about
			// borders, and the default frame will be fine.
			if (max && !full) {
			// When a window is maximized, its size is actually a little bit more
			// than the monitor's work area. The window is positioned and sized in
			// such a way that the resize handles are outside the monitor and
			// then the window is clipped to the monitor so that the resize handle
			// do not appear because you don't need them (because you can't resize
			// a window when it's maximized unless you restore it).
			const quint32 frameSize = getResizeBorderThickness(hWnd);
			clientRect->top += frameSize;
			if (!isWin10OrGreater()) {
			clientRect->bottom -= frameSize;
			clientRect->left += frameSize;
			clientRect->right -= frameSize;
			}
			}
			// Attempt to detect if there's an autohide taskbar, and if
			// there is, reduce our size a bit on the side with the taskbar,
			// so the user can still mouse-over the taskbar to reveal it.
			// Make sure to use MONITOR_DEFAULTTONEAREST, so that this will
			// still find the right monitor even when we're restoring from
			// minimized.
			if (max \|\| full) {
			APPBARDATA abd;
			SecureZeroMemory(&abd, sizeof(abd));
			abd.cbSize = sizeof(abd);
			const UINT taskbarState = ::SHAppBarMessage(ABM_GETSTATE, &abd);
			// First, check if we have an auto-hide taskbar at all:
			if (taskbarState & ABS_AUTOHIDE) {
			bool top = false, bottom = false, left = false, right = false;
			// Due to ABM_GETAUTOHIDEBAREX was introduced in Windows 8.1,
			// we have to use another way to judge this if we are running
			// on Windows 7 or Windows 8.
			if (isWin8Point1OrGreater()) {
			const std::optional<MONITORINFOEXW> monitorInfo = getMonitorForWindow(hWnd);
			const RECT monitorRect = monitorInfo.value().rcMonitor;
			// This helper can be used to determine if there's an
			// auto-hide taskbar on the given edge of the monitor
			// we're currently on.
			const auto hasAutohideTaskbar = [monitorRect](const UINT edge) -> bool {
			APPBARDATA abd2{};
			abd2.cbSize = sizeof(abd2);
			abd2.uEdge = edge;
			abd2.rc = monitorRect;
			const auto hTaskbar = reinterpret_cast<HWND>(::SHAppBarMessage(ABM_GETAUTOHIDEBAREX, &abd2));
			return (hTaskbar != nullptr);
			};
			top = hasAutohideTaskbar(ABE_TOP);
			bottom = hasAutohideTaskbar(ABE_BOTTOM);
			left = hasAutohideTaskbar(ABE_LEFT);
			right = hasAutohideTaskbar(ABE_RIGHT);
			} else {
			int edge = -1;
			APPBARDATA abd2{};
			abd2.cbSize = sizeof(abd2);
			abd2.hWnd = ::FindWindowW(L"Shell_TrayWnd", nullptr);
			const HMONITOR windowMonitor = ::MonitorFromWindow(hWnd, MONITOR_DEFAULTTONEAREST);
			const HMONITOR taskbarMonitor = ::MonitorFromWindow(abd2.hWnd, MONITOR_DEFAULTTOPRIMARY);
			if (taskbarMonitor == windowMonitor) {
			::SHAppBarMessage(ABM_GETTASKBARPOS, &abd2);
			edge = abd2.uEdge;
			}
			top = (edge == ABE_TOP);
			bottom = (edge == ABE_BOTTOM);
			left = (edge == ABE_LEFT);
			right = (edge == ABE_RIGHT);
			}
			// If there's a taskbar on any side of the monitor, reduce
			// our size a little bit on that edge.
			// Note to future code archeologists:
			// This doesn't seem to work for fullscreen on the primary
			// display. However, testing a bunch of other apps with
			// fullscreen modes and an auto-hiding taskbar has
			// shown that _none_ of them reveal the taskbar from
			// fullscreen mode. This includes Edge, Firefox, Chrome,
			// Sublime Text, PowerPoint - none seemed to support this.
			// This does however work fine for maximized.
			if (top) {
			// Peculiarly, when we're fullscreen,
			clientRect->top += kAutoHideTaskBarThickness;
			} else if (bottom) {
			clientRect->bottom -= kAutoHideTaskBarThickness;
			} else if (left) {
			clientRect->left += kAutoHideTaskBarThickness;
			} else if (right) {
			clientRect->right -= kAutoHideTaskBarThickness;
			}
			}
			}
			// ### TODO: std::ignore = Utils::syncWmPaintWithDwm(); // This should be executed at the very last.
			// By returning WVR_REDRAW we can make the window resizing look less broken.
			// But we must return 0 if wParam is FALSE, according to Microsoft Docs.
			// IMPORTANT NOTE:
			// If you are drawing something manually through D3D in your window, don't
			// try to return WVR_REDRAW here, otherwise Windows exhibits bugs where
			// client pixels and child windows are mispositioned by the width/height
			// of the upper-left non-client area. It's confirmed that this issue exists
			// from Windows 7 to Windows 10. Not tested on Windows 11 yet. Don't know
			// whether it exists on Windows XP to Windows Vista or not.
			*result = wParam == FALSE ? FALSE : WVR_REDRAW;
			return true;
			}
			default:
			break;
			}
			return false;
			}

			}

	src/core/contexts/win32windowcontext.cpp	472 ●●●●● 补丁 \| 查看 \| 原始文档 \| blame \| 历史
	src/core/contexts/win32windowcontext_p.h	3 ●●●●● 补丁 \| 查看 \| 原始文档 \| blame \| 历史
	src/core/qwindowkit_windows.h	25 ●●●●● 补丁 \| 查看 \| 原始文档 \| blame \| 历史
	src/core/qwkcoreglobal_p.h	1 ●●●●● 补丁 \| 查看 \| 原始文档 \| blame \| 历史

			@@ -33,6 +33,9 @@
			bool snapLayoutHandler(HWND hWnd, UINT message, WPARAM wParam, LPARAM lParam,
			LRESULT *result);

			bool customWindowHandler(HWND hWnd, UINT message, WPARAM wParam, LPARAM lParam,
			LRESULT *result);

			protected:
			WId windowId = 0;

			@@ -4,15 +4,6 @@
			#include <QtCore/qt_windows.h>
			#include <QtCore/qglobal.h>

			// MOC can't handle C++ attributes before 5.15.
			#if (QT_VERSION >= QT_VERSION_CHECK(5, 15, 0))
			# define Q_NODISCARD [[nodiscard]]
			# define Q_MAYBE_UNUSED [[maybe_unused]]
			#else
			# define Q_NODISCARD
			# define Q_MAYBE_UNUSED
			#endif

			#ifndef GET_X_LPARAM
			# define GET_X_LPARAM(lp) (static_cast<int>(static_cast<short>(LOWORD(lp))))
			#endif
			@@ -21,6 +12,22 @@
			# define GET_Y_LPARAM(lp) (static_cast<int>(static_cast<short>(HIWORD(lp))))
			#endif

			#ifndef IsMinimized
			# define IsMinimized(hwnd) (::IsIconic(hwnd) != FALSE)
			#endif

			#ifndef IsMaximized
			# define IsMaximized(hwnd) (::IsZoomed(hwnd) != FALSE)
			#endif

			#ifndef RECT_WIDTH
			# define RECT_WIDTH(rect) ((rect).right - (rect).left)
			#endif

			#ifndef RECT_HEIGHT
			# define RECT_HEIGHT(rect) ((rect).bottom - (rect).top)
			#endif

			// Maybe undocumented Windows messages
			#ifndef WM_UAHDESTROYWINDOW
			# define WM_UAHDESTROYWINDOW (0x0090)

			@@ -3,6 +3,7 @@

			#include <QtCore/QEvent>
			#include <QtCore/QLoggingCategory>
			#include <QtGui/QtEvents>

			#include <QWKCore/qwkcoreglobal.h>