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/*
* MIT License
*
* Copyright (C) 2021 by wangwenx190 (Yuhang Zhao)
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
* SOFTWARE.
*/
#include "framelesshelper_win32.h"
#include <QtCore/qdebug.h>
#include <QtCore/qvariant.h>
#include <QtCore/qcoreapplication.h>
#include <QtCore/private/qsystemlibrary_p.h>
#include <QtGui/qwindow.h>
#include "utilities.h"
#include "framelesshelper_windows.h"
FRAMELESSHELPER_BEGIN_NAMESPACE
struct FramelessHelperWinData
{
[[nodiscard]] bool create() {
if (!m_instance.isNull()) {
return false;
}
m_instance.reset(new FramelessHelperWin);
return !m_instance.isNull();
}
[[nodiscard]] bool release() {
if (!m_instance.isNull()) {
m_instance.reset();
}
return m_instance.isNull();
}
[[nodiscard]] bool isNull() const {
return m_instance.isNull();
}
[[nodiscard]] bool install() {
if (isInstalled()) {
return true;
}
if (isNull()) {
if (!create()) {
return false;
}
}
QCoreApplication::instance()->installNativeEventFilter(m_instance.data());
m_installed = true;
return true;
}
[[nodiscard]] bool uninstall() {
if (!isInstalled()) {
return true;
}
if (isNull()) {
return false;
}
QCoreApplication::instance()->removeNativeEventFilter(m_instance.data());
m_installed = false;
return true;
}
[[nodiscard]] bool isInstalled() const {
return m_installed;
}
private:
QScopedPointer<FramelessHelperWin> m_instance;
bool m_installed = false;
};
Q_GLOBAL_STATIC(FramelessHelperWinData, g_framelessHelperWinData)
static inline void installHelper(QWindow *window, const bool enable)
{
Q_ASSERT(window);
if (!window) {
return;
}
Utilities::updateQtFrameMargins(window, enable);
const WId winId = window->winId();
Utilities::updateFrameMargins(winId, !enable);
Utilities::triggerFrameChange(winId);
window->setProperty(Constants::kFramelessModeFlag, enable);
}
FramelessHelperWin::FramelessHelperWin() = default;
FramelessHelperWin::~FramelessHelperWin() = default;
void FramelessHelperWin::addFramelessWindow(QWindow *window)
{
Q_ASSERT(window);
if (!window) {
return;
}
if (g_framelessHelperWinData()->install()) {
installHelper(window, true);
} else {
qCritical() << "Failed to install native event filter.";
}
}
void FramelessHelperWin::removeFramelessWindow(QWindow *window)
{
Q_ASSERT(window);
if (!window) {
return;
}
installHelper(window, false);
}
#if (QT_VERSION >= QT_VERSION_CHECK(6, 0, 0))
bool FramelessHelperWin::nativeEventFilter(const QByteArray &eventType, void *message, qintptr *result)
#else
bool FramelessHelperWin::nativeEventFilter(const QByteArray &eventType, void *message, long *result)
#endif
{
if ((eventType != QByteArrayLiteral("windows_generic_MSG")) || !message || !result) {
return false;
}
#if (QT_VERSION == QT_VERSION_CHECK(5, 11, 1))
// Work-around a bug caused by typo which only exists in Qt 5.11.1
const auto msg = *static_cast<MSG **>(message);
#else
const auto msg = static_cast<LPMSG>(message);
#endif
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;
}
const QWindow *window = Utilities::findWindow(reinterpret_cast<WId>(msg->hwnd));
if (!window || !window->property(Constants::kFramelessModeFlag).toBool()) {
return false;
}
switch (msg->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. So we just remove the whole
// window frame, otherwise the code will become much more complex.
// 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 = ((static_cast<BOOL>(msg->wParam) == FALSE)
? reinterpret_cast<LPRECT>(msg->lParam)
: &(reinterpret_cast<LPNCCALCSIZE_PARAMS>(msg->lParam))->rgrc[0]);
const bool max = IsMaximized(msg->hwnd);
const bool full = Utilities::isFullScreen(reinterpret_cast<WId>(msg->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 of 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 int resizeBorderThickness = Utilities::getSystemMetric(window, SystemMetric::ResizeBorderThickness, true, true);
clientRect->top += resizeBorderThickness;
clientRect->bottom -= resizeBorderThickness;
clientRect->left += resizeBorderThickness;
clientRect->right -= resizeBorderThickness;
}
// 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 only exists from Win8.1,
// we have to use another way to judge this if we are
// running on Windows 7 or Windows 8.
if (Utilities::isWin8Point1OrGreater()) {
MONITORINFO monitorInfo;
SecureZeroMemory(&monitorInfo, sizeof(monitorInfo));
monitorInfo.cbSize = sizeof(monitorInfo);
const HMONITOR monitor = MonitorFromWindow(msg->hwnd, MONITOR_DEFAULTTONEAREST);
if (!monitor) {
qWarning() << Utilities::getSystemErrorMessage(QStringLiteral("MonitorFromWindow"));
break;
}
if (GetMonitorInfoW(monitor, &monitorInfo) == FALSE) {
qWarning() << Utilities::getSystemErrorMessage(QStringLiteral("GetMonitorInfoW"));
break;
}
// This helper can be used to determine if there's a
// auto-hide taskbar on the given edge of the monitor
// we're currently on.
const auto hasAutohideTaskbar = [&monitorInfo](const UINT edge) -> bool {
APPBARDATA _abd;
SecureZeroMemory(&_abd, sizeof(_abd));
_abd.cbSize = sizeof(_abd);
_abd.uEdge = edge;
_abd.rc = monitorInfo.rcMonitor;
const auto hTaskbar = reinterpret_cast<HWND>(SHAppBarMessage(ABM_GETAUTOHIDEBAREX, &_abd));
return (hTaskbar != nullptr);
};
top = hasAutohideTaskbar(ABE_TOP);
bottom = hasAutohideTaskbar(ABE_BOTTOM);
left = hasAutohideTaskbar(ABE_LEFT);
right = hasAutohideTaskbar(ABE_RIGHT);
} else {
int edge = -1;
APPBARDATA _abd;
SecureZeroMemory(&_abd, sizeof(_abd));
_abd.cbSize = sizeof(_abd);
_abd.hWnd = FindWindowW(L"Shell_TrayWnd", nullptr);
if (_abd.hWnd) {
const HMONITOR windowMonitor = MonitorFromWindow(msg->hwnd, MONITOR_DEFAULTTONEAREST);
if (!windowMonitor) {
qWarning() << Utilities::getSystemErrorMessage(QStringLiteral("MonitorFromWindow"));
break;
}
const HMONITOR taskbarMonitor = MonitorFromWindow(_abd.hWnd, MONITOR_DEFAULTTOPRIMARY);
if (!taskbarMonitor) {
qWarning() << Utilities::getSystemErrorMessage(QStringLiteral("MonitorFromWindow"));
break;
}
if (taskbarMonitor == windowMonitor) {
SHAppBarMessage(ABM_GETTASKBARPOS, &_abd);
edge = _abd.uEdge;
}
} else {
qWarning() << "Failed to retrieve the task bar window handle.";
break;
}
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;
}
}
}
#if 0
// Fix the flickering issue while resizing.
// "clientRect->right += 1;" also works.
// This small technique is known to have two draw backs:
// (1) Qt's coordinate system will be confused because the canvas size
// doesn't match the client area size so you will get some warnings
// from Qt and you should also be careful when you try to draw something
// manually through QPainter or in Qt Quick, be aware of the coordinate
// mismatch issue when you calculate position yourself.
// (2) Qt's window system will take some wrong actions when the window
// is being resized. For example, the window size will become 1px smaller
// or bigger everytime when resize() is called because the client area size
// is not correct. It confuses QPA's internal logic.
clientRect->bottom += 1;
#endif
if (Utilities::isDwmCompositionAvailable()) {
QSystemLibrary winmmLib(QStringLiteral("winmm"));
static const auto ptimeGetDevCaps =
reinterpret_cast</*MMRESULT*/UINT(WINAPI *)(flh_LPTIMECAPS, UINT)>(winmmLib.resolve("timeGetDevCaps"));
static const auto ptimeBeginPeriod =
reinterpret_cast</*MMRESULT*/UINT(WINAPI *)(UINT)>(winmmLib.resolve("timeBeginPeriod"));
static const auto ptimeEndPeriod =
reinterpret_cast</*MMRESULT*/UINT(WINAPI *)(UINT)>(winmmLib.resolve("timeEndPeriod"));
static const auto pDwmGetCompositionTimingInfo =
reinterpret_cast<HRESULT(WINAPI *)(HWND, DWM_TIMING_INFO *)>(QSystemLibrary::resolve(QStringLiteral("dwmapi"), "DwmGetCompositionTimingInfo"));
if (ptimeGetDevCaps && ptimeBeginPeriod && ptimeEndPeriod && pDwmGetCompositionTimingInfo) {
// Dirty hack to workaround the resize flicker caused by DWM.
LARGE_INTEGER freq = {};
if (QueryPerformanceFrequency(&freq) == FALSE) {
qWarning() << Utilities::getSystemErrorMessage(QStringLiteral("QueryPerformanceFrequency"));
break;
}
flh_TIMECAPS tc = {};
if (ptimeGetDevCaps(&tc, sizeof(tc)) != /*MMSYSERR_NOERROR*/0) {
qWarning() << "timeGetDevCaps() failed.";
break;
}
const UINT ms_granularity = tc.wPeriodMin;
if (ptimeBeginPeriod(ms_granularity) != /*TIMERR_NOERROR*/0) {
qWarning() << "timeBeginPeriod() failed.";
break;
}
LARGE_INTEGER now0 = {};
if (QueryPerformanceCounter(&now0) == FALSE) {
qWarning() << Utilities::getSystemErrorMessage(QStringLiteral("QueryPerformanceCounter"));
break;
}
// ask DWM where the vertical blank falls
DWM_TIMING_INFO dti;
SecureZeroMemory(&dti, sizeof(dti));
dti.cbSize = sizeof(dti);
const HRESULT hr = pDwmGetCompositionTimingInfo(nullptr, &dti);
if (FAILED(hr)) {
qWarning() << Utilities::getSystemErrorMessage(QStringLiteral("DwmGetCompositionTimingInfo"));
break;
}
LARGE_INTEGER now1 = {};
if (QueryPerformanceCounter(&now1) == FALSE) {
qWarning() << Utilities::getSystemErrorMessage(QStringLiteral("QueryPerformanceCounter"));
break;
}
// - DWM told us about SOME vertical blank
// - past or future, possibly many frames away
// - convert that into the NEXT vertical blank
const LONGLONG period = dti.qpcRefreshPeriod;
const LONGLONG dt = dti.qpcVBlank - now1.QuadPart;
LONGLONG w = 0, m = 0;
if (dt >= 0) {
w = dt / period;
} else {
// reach back to previous period
// - so m represents consistent position within phase
w = -1 + dt / period;
}
m = dt - (period * w);
Q_ASSERT(m >= 0);
Q_ASSERT(m < period);
const qreal m_ms = 1000.0 * static_cast<qreal>(m) / static_cast<qreal>(freq.QuadPart);
Sleep(static_cast<DWORD>(qRound(m_ms)));
if (ptimeEndPeriod(ms_granularity) != /*TIMERR_NOERROR*/0) {
qWarning() << "timeEndPeriod() failed.";
break;
}
}
}
// We cannot return WVR_REDRAW otherwise Windows exhibits bugs where
// client pixels and child windows are mispositioned by the width/height
// of the upper-left nonclient area.
*result = 0;
return true;
}
// These undocumented messages are sent to draw themed window
// borders. Block them to prevent drawing borders over the client
// area.
case WM_NCUAHDRAWCAPTION:
case WM_NCUAHDRAWFRAME: {
*result = 0;
return true;
}
case WM_NCPAINT: {
// 边框阴影处于非客户区的范围,因此如果直接阻止非客户区的绘制,会导致边框阴影丢失
if (!Utilities::isDwmCompositionAvailable()) {
// Only block WM_NCPAINT when DWM composition is disabled. If
// it's blocked when DWM composition is enabled, the frame
// shadow won't be drawn.
*result = 0;
return true;
} else {
break;
}
}
case WM_NCACTIVATE: {
if (Utilities::isDwmCompositionAvailable()) {
// DefWindowProc won't repaint the window border if lParam
// (normally a HRGN) is -1. See the following link's "lParam"
// section:
// https://docs.microsoft.com/en-us/windows/win32/winmsg/wm-ncactivate
// Don't use "*result = 0" otherwise the window won't respond
// to the window active state change.
*result = DefWindowProcW(msg->hwnd, WM_NCACTIVATE, msg->wParam, -1);
} else {
if (static_cast<BOOL>(msg->wParam) == FALSE) {
*result = TRUE;
} else {
*result = FALSE;
}
}
return true;
}
case WM_NCHITTEST: {
// 原生Win32窗口只有顶边是在窗口内部resize的,其余三边都是在窗口
// 外部进行resize的,其原理是,WS_THICKFRAME这个窗口样式会在窗
// 口的左、右和底边添加三个透明的resize区域,这三个区域在正常状态
// 下是完全不可见的,它们由DWM负责绘制和控制。这些区域的宽度等于
// (SM_CXSIZEFRAME + SM_CXPADDEDBORDER),高度等于
// (SM_CYSIZEFRAME + SM_CXPADDEDBORDER),在100%缩放时,均等
// 于8像素。它们属于窗口区域的一部分,但不属于客户区,而是属于非客
// 户区,因此GetWindowRect获取的区域中是包含这三个resize区域的,
// 而GetClientRect获取的区域是不包含它们的。当把
// DWMWA_EXTENDED_FRAME_BOUNDS作为参数调用
// DwmGetWindowAttribute时,也能获取到一个窗口大小,这个大小介
// 于前面两者之间,暂时不知道这个数据的意义及其作用。我们在
// WM_NCCALCSIZE消息的处理中,已经把整个窗口都设置为客户区了,也
// 就是说,我们的窗口已经没有非客户区了,因此那三个透明的resize区
// 域,此刻也已经成为窗口客户区的一部分了,从而变得不透明了。所以
// 现在的resize,看起来像是在窗口内部resize,是因为原本透明的地方
// 现在变得不透明了,实际上,单纯从范围上来看,现在我们resize的地方,
// 就是普通窗口的边框外部,那三个透明区域的范围。
// 因此,如果我们把边框完全去掉(就是我们正在做的事情),resize就
// 会看起来是在内部进行,这个问题通过常规方法非常难以解决。我测试过
// QQ和钉钉的窗口,它们的窗口就是在外部resize,但实际上它们是通过
// 把窗口实际的内容,嵌入到一个完全透明的但尺寸要大一圈的窗口中实现
// 的,虽然看起来效果还行,但在我看来不是正途。而且我之所以能发现,
// 也是由于这种方法在很多情况下会露馅,比如窗口未响应卡住或贴边的时
// 候,能明显看到窗口周围多出来一圈边界。我曾经尝试再把那三个区域弄
// 透明,但无一例外都会破坏DWM绘制的边框阴影,因此只好作罢。
// As you may have found, if you use this code, the resize areas
// will be inside the frameless window, however, a normal Win32
// window can be resized outside of it. Here is the reason: the
// WS_THICKFRAME window style will cause a window has three
// transparent areas beside the window's left, right and bottom
// edge. Their width or height is eight pixels if the window is not
// scaled. In most cases, they are totally invisible. It's DWM's
// responsibility to draw and control them. They exist to let the
// user resize the window, visually outside of it. They are in the
// window area, but not the client area, so they are in the
// non-client area actually. But we have turned the whole window
// area into client area in WM_NCCALCSIZE, so the three transparent
// resize areas also become a part of the client area and thus they
// become visible. When we resize the window, it looks like we are
// resizing inside of it, however, that's because the transparent
// resize areas are visible now, we ARE resizing outside of the
// window actually. But I don't know how to make them become
// transparent again without breaking the frame shadow drawn by DWM.
// If you really want to solve it, you can try to embed your window
// into a larger transparent window and draw the frame shadow
// yourself. As what we have said in WM_NCCALCSIZE, you can only
// remove the top area of the window, this will let us be able to
// resize outside of the window and don't need much process in this
// message, it looks like a perfect plan, however, the top border is
// missing due to the whole top area is removed, and it's very hard
// to bring it back because we have to use a trick in WM_PAINT
// (learned from Windows Terminal), but no matter what we do in
// WM_PAINT, it will always break the backing store mechanism of Qt,
// so actually we can't do it. And it's very difficult to do such
// things in NativeEventFilters as well. What's worse, if we really
// do this, the four window borders will become white and they look
// horrible in dark mode. This solution only supports Windows 10
// because the border width on Win10 is only one pixel, however it's
// eight pixels on Windows 7 so preserving the three window borders
// looks terrible on old systems. I'm testing this solution in
// another branch, if you are interested in it, you can give it a
// try.
POINT winLocalMouse = {GET_X_LPARAM(msg->lParam), GET_Y_LPARAM(msg->lParam)};
if (ScreenToClient(msg->hwnd, &winLocalMouse) == FALSE) {
qWarning() << Utilities::getSystemErrorMessage(QStringLiteral("ScreenToClient"));
break;
}
const QPointF localMouse = {static_cast<qreal>(winLocalMouse.x), static_cast<qreal>(winLocalMouse.y)};
RECT clientRect = {0, 0, 0, 0};
if (GetClientRect(msg->hwnd, &clientRect) == FALSE) {
qWarning() << Utilities::getSystemErrorMessage(QStringLiteral("GetClientRect"));
break;
}
const LONG windowWidth = clientRect.right;
const int resizeBorderThickness = Utilities::getSystemMetric(window, SystemMetric::ResizeBorderThickness, true);
const int titleBarHeight = Utilities::getSystemMetric(window, SystemMetric::TitleBarHeight, true);
bool isTitleBar = false;
const bool max = IsMaximized(msg->hwnd);
if (max || Utilities::isFullScreen(reinterpret_cast<WId>(msg->hwnd))) {
isTitleBar = (localMouse.y() >= 0) && (localMouse.y() <= titleBarHeight)
&& (localMouse.x() >= 0) && (localMouse.x() <= windowWidth)
&& !Utilities::isHitTestVisible(window);
}
if (Utilities::isWindowNoState(reinterpret_cast<WId>(msg->hwnd))) {
isTitleBar = (localMouse.y() > resizeBorderThickness) && (localMouse.y() <= titleBarHeight)
&& (localMouse.x() > resizeBorderThickness) && (localMouse.x() < (windowWidth - resizeBorderThickness))
&& !Utilities::isHitTestVisible(window);
}
const bool isTop = localMouse.y() <= resizeBorderThickness;
*result = [clientRect, isTitleBar, &localMouse, resizeBorderThickness, windowWidth, isTop, window, max](){
const bool mousePressed = GetSystemMetrics(SM_SWAPBUTTON) ? GetAsyncKeyState(VK_RBUTTON) < 0 : GetAsyncKeyState(VK_LBUTTON) < 0;
if (max) {
if (isTitleBar && mousePressed) {
return HTCAPTION;
}
return HTCLIENT;
}
const LONG windowHeight = clientRect.bottom;
const bool isBottom = (localMouse.y() >= (windowHeight - resizeBorderThickness));
// Make the border a little wider to let the user easy to resize on corners.
const qreal factor = (isTop || isBottom) ? 2.0 : 1.0;
const bool isLeft = (localMouse.x() <= qRound(static_cast<qreal>(resizeBorderThickness) * factor));
const bool isRight = (localMouse.x() >= (windowWidth - qRound(static_cast<qreal>(resizeBorderThickness) * factor)));
const bool fixedSize = Utilities::isWindowFixedSize(window);
const auto getBorderValue = [fixedSize](int value) -> int {
return fixedSize ? HTCLIENT : value;
};
if (isTop) {
if (isLeft) {
return getBorderValue(HTTOPLEFT);
}
if (isRight) {
return getBorderValue(HTTOPRIGHT);
}
return getBorderValue(HTTOP);
}
if (isBottom) {
if (isLeft) {
return getBorderValue(HTBOTTOMLEFT);
}
if (isRight) {
return getBorderValue(HTBOTTOMRIGHT);
}
return getBorderValue(HTBOTTOM);
}
if (isLeft) {
return getBorderValue(HTLEFT);
}
if (isRight) {
return getBorderValue(HTRIGHT);
}
if (isTitleBar && mousePressed) {
return HTCAPTION;
}
return HTCLIENT;
}();
return true;
}
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.
SetLastError(ERROR_SUCCESS);
const LONG_PTR oldStyle = GetWindowLongPtrW(msg->hwnd, GWL_STYLE);
if (oldStyle == 0) {
qWarning() << Utilities::getSystemErrorMessage(QStringLiteral("GetWindowLongPtrW"));
break;
}
// Prevent Windows from drawing the default title bar by temporarily
// toggling the WS_VISIBLE style.
SetLastError(ERROR_SUCCESS);
if (SetWindowLongPtrW(msg->hwnd, GWL_STYLE, static_cast<LONG_PTR>(oldStyle & ~WS_VISIBLE)) == 0) {
qWarning() << Utilities::getSystemErrorMessage(QStringLiteral("SetWindowLongPtrW"));
break;
}
const auto winId = reinterpret_cast<WId>(msg->hwnd);
Utilities::triggerFrameChange(winId);
const LRESULT ret = DefWindowProcW(msg->hwnd, msg->message, msg->wParam, msg->lParam);
SetLastError(ERROR_SUCCESS);
if (SetWindowLongPtrW(msg->hwnd, GWL_STYLE, oldStyle) == 0) {
qWarning() << Utilities::getSystemErrorMessage(QStringLiteral("SetWindowLongPtrW"));
break;
}
Utilities::triggerFrameChange(winId);
*result = ret;
return true;
}
#if (QT_VERSION < QT_VERSION_CHECK(6, 2, 2))
case WM_WINDOWPOSCHANGING: {
// Tell Windows to discard the entire contents of the client area, as re-using
// parts of the client area would lead to jitter during resize.
const auto windowPos = reinterpret_cast<LPWINDOWPOS>(msg->lParam);
windowPos->flags |= SWP_NOCOPYBITS;
} break;
#endif
default:
break;
}
return false;
}
FRAMELESSHELPER_END_NAMESPACE
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