// Copyright 2015 Dolphin Emulator Project // SPDX-License-Identifier: GPL-2.0-or-later #include "DolphinQt/RenderWidget.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "Core/Config/MainSettings.h" #include "Core/Core.h" #include "Core/State.h" #include "DolphinQt/Host.h" #include "DolphinQt/QtUtils/ModalMessageBox.h" #include "DolphinQt/Resources.h" #include "DolphinQt/Settings.h" #include "InputCommon/ControllerInterface/ControllerInterface.h" #include "VideoCommon/OnScreenUI.h" #include "VideoCommon/Present.h" #include "VideoCommon/VideoConfig.h" #ifdef _WIN32 #include #endif RenderWidget::RenderWidget(QWidget* parent) : QWidget(parent) { setWindowTitle(QStringLiteral("Dolphin")); setWindowIcon(Resources::GetAppIcon()); setWindowRole(QStringLiteral("renderer")); setAcceptDrops(true); QPalette p; p.setColor(QPalette::Window, Qt::black); setPalette(p); connect(Host::GetInstance(), &Host::RequestTitle, this, &RenderWidget::setWindowTitle); connect(Host::GetInstance(), &Host::RequestRenderSize, this, [this](int w, int h) { if (!Config::Get(Config::MAIN_RENDER_WINDOW_AUTOSIZE) || isFullScreen() || isMaximized()) return; const auto dpr = window()->windowHandle()->screen()->devicePixelRatio(); resize(w / dpr, h / dpr); }); connect(&Settings::Instance(), &Settings::EmulationStateChanged, this, [this](Core::State state) { if (state == Core::State::Running) SetPresenterKeyMap(); }); // We have to use Qt::DirectConnection here because we don't want those signals to get queued // (which results in them not getting called) connect(this, &RenderWidget::StateChanged, Host::GetInstance(), &Host::SetRenderFullscreen, Qt::DirectConnection); connect(this, &RenderWidget::HandleChanged, Host::GetInstance(), &Host::SetRenderHandle, Qt::DirectConnection); connect(this, &RenderWidget::SizeChanged, Host::GetInstance(), &Host::ResizeSurface, Qt::DirectConnection); connect(this, &RenderWidget::FocusChanged, Host::GetInstance(), &Host::SetRenderFocus, Qt::DirectConnection); m_mouse_timer = new QTimer(this); connect(m_mouse_timer, &QTimer::timeout, this, &RenderWidget::HandleCursorTimer); m_mouse_timer->setSingleShot(true); setMouseTracking(true); connect(&Settings::Instance(), &Settings::CursorVisibilityChanged, this, &RenderWidget::OnHideCursorChanged); connect(&Settings::Instance(), &Settings::LockCursorChanged, this, &RenderWidget::OnLockCursorChanged); OnHideCursorChanged(); OnLockCursorChanged(); connect(&Settings::Instance(), &Settings::KeepWindowOnTopChanged, this, &RenderWidget::OnKeepOnTopChanged); OnKeepOnTopChanged(Settings::Instance().IsKeepWindowOnTopEnabled()); m_mouse_timer->start(MOUSE_HIDE_DELAY); // We need a native window to render into. setAttribute(Qt::WA_NativeWindow); setAttribute(Qt::WA_PaintOnScreen); } QPaintEngine* RenderWidget::paintEngine() const { return nullptr; } void RenderWidget::dragEnterEvent(QDragEnterEvent* event) { if (event->mimeData()->hasUrls() && event->mimeData()->urls().size() == 1) event->acceptProposedAction(); } void RenderWidget::dropEvent(QDropEvent* event) { const auto& urls = event->mimeData()->urls(); if (urls.empty()) return; const auto& url = urls[0]; QFileInfo file_info(url.toLocalFile()); auto path = file_info.filePath(); if (!file_info.exists() || !file_info.isReadable()) { ModalMessageBox::critical(this, tr("Error"), tr("Failed to open '%1'").arg(path)); return; } if (!file_info.isFile()) { return; } State::LoadAs(path.toStdString()); } void RenderWidget::OnHideCursorChanged() { UpdateCursor(); } void RenderWidget::OnLockCursorChanged() { SetCursorLocked(false); UpdateCursor(); } // Calling this at any time will set the cursor (image) to the correct state void RenderWidget::UpdateCursor() { if (!Settings::Instance().GetLockCursor()) { // Only hide if the cursor is automatically locking (it will hide on lock). // "Unhide" the cursor if we lost focus, otherwise it will disappear when hovering // on top of the game window in the background const bool keep_on_top = (windowFlags() & Qt::WindowStaysOnTopHint) != 0; const bool should_hide = (Settings::Instance().GetCursorVisibility() == Config::ShowCursor::Never) && (keep_on_top || Config::Get(Config::MAIN_INPUT_BACKGROUND_INPUT) || isActiveWindow()); setCursor(should_hide ? Qt::BlankCursor : Qt::ArrowCursor); } else { setCursor((m_cursor_locked && Settings::Instance().GetCursorVisibility() == Config::ShowCursor::Never) ? Qt::BlankCursor : Qt::ArrowCursor); } } void RenderWidget::OnKeepOnTopChanged(bool top) { const bool was_visible = isVisible(); setWindowFlags(top ? windowFlags() | Qt::WindowStaysOnTopHint : windowFlags() & ~Qt::WindowStaysOnTopHint); m_dont_lock_cursor_on_show = true; if (was_visible) show(); m_dont_lock_cursor_on_show = false; UpdateCursor(); } void RenderWidget::HandleCursorTimer() { if (!isActiveWindow()) return; if ((!Settings::Instance().GetLockCursor() || m_cursor_locked) && Settings::Instance().GetCursorVisibility() == Config::ShowCursor::OnMovement) { setCursor(Qt::BlankCursor); } } void RenderWidget::showFullScreen() { QWidget::showFullScreen(); QScreen* screen = window()->windowHandle()->screen(); const auto dpr = screen->devicePixelRatio(); emit SizeChanged(width() * dpr, height() * dpr); } // Lock the cursor within the window/widget internal borders, including the aspect ratio if wanted void RenderWidget::SetCursorLocked(bool locked, bool follow_aspect_ratio) { // It seems like QT doesn't scale the window frame correctly with some DPIs // so it might happen that the locked cursor can be on the frame of the window, // being able to resize it, but that is a minor problem. // As a hack, if necessary, we could always scale down the size by 2 pixel, to a min of 1 given // that the size can be 0 already. We probably shouldn't scale axes already scaled by aspect ratio QRect render_rect = geometry(); if (parentWidget()) { render_rect.moveTopLeft(parentWidget()->mapToGlobal(render_rect.topLeft())); } auto scale = devicePixelRatioF(); // Seems to always be rounded on Win. Should we round results? QPoint screen_offset = QPoint(0, 0); if (window()->windowHandle() && window()->windowHandle()->screen()) { screen_offset = window()->windowHandle()->screen()->geometry().topLeft(); } render_rect.moveTopLeft(((render_rect.topLeft() - screen_offset) * scale) + screen_offset); render_rect.setSize(render_rect.size() * scale); if (follow_aspect_ratio) { // TODO: SetCursorLocked() should be re-called every time this value is changed? // This might cause imprecisions of one pixel (but it won't cause the cursor to go over borders) Common::Vec2 aspect_ratio = g_controller_interface.GetWindowInputScale(); if (aspect_ratio.x > 1.f) { const float new_half_width = float(render_rect.width()) / (aspect_ratio.x * 2.f); // Only ceil if it was >= 0.25 const float ceiled_new_half_width = std::ceil(std::round(new_half_width * 2.f) / 2.f); const int x_center = render_rect.center().x(); // Make a guess on which one to floor and ceil. // For more precision, we should have kept the rounding point scale from above as well. render_rect.setLeft(x_center - std::floor(new_half_width)); render_rect.setRight(x_center + ceiled_new_half_width); } if (aspect_ratio.y > 1.f) { const float new_half_height = render_rect.height() / (aspect_ratio.y * 2.f); const float ceiled_new_half_height = std::ceil(std::round(new_half_height * 2.f) / 2.f); const int y_center = render_rect.center().y(); render_rect.setTop(y_center - std::floor(new_half_height)); render_rect.setBottom(y_center + ceiled_new_half_height); } } if (locked) { #ifdef _WIN32 RECT rect; rect.left = render_rect.left(); rect.right = render_rect.right(); rect.top = render_rect.top(); rect.bottom = render_rect.bottom(); if (ClipCursor(&rect)) #else // TODO: implement on other platforms. Probably XGrabPointer on Linux. // The setting is hidden in the UI if not implemented if (false) #endif { m_cursor_locked = true; if (Settings::Instance().GetCursorVisibility() != Config::ShowCursor::Constantly) { setCursor(Qt::BlankCursor); } Host::GetInstance()->SetRenderFullFocus(true); } } else { #ifdef _WIN32 ClipCursor(nullptr); #endif if (m_cursor_locked) { m_cursor_locked = false; if (!Settings::Instance().GetLockCursor()) { return; } // Center the mouse in the window if it's still active // Leave it where it was otherwise, e.g. a prompt has opened or we alt tabbed. if (isActiveWindow()) { cursor().setPos(render_rect.left() + render_rect.width() / 2, render_rect.top() + render_rect.height() / 2); } // Show the cursor or the user won't know the mouse is now unlocked setCursor(Qt::ArrowCursor); Host::GetInstance()->SetRenderFullFocus(false); } } } void RenderWidget::SetCursorLockedOnNextActivation(bool locked) { if (Settings::Instance().GetLockCursor()) { m_lock_cursor_on_next_activation = locked; return; } m_lock_cursor_on_next_activation = false; } void RenderWidget::SetWaitingForMessageBox(bool waiting_for_message_box) { if (m_waiting_for_message_box == waiting_for_message_box) { return; } m_waiting_for_message_box = waiting_for_message_box; if (!m_waiting_for_message_box && m_lock_cursor_on_next_activation && isActiveWindow()) { if (Settings::Instance().GetLockCursor()) { SetCursorLocked(true); } m_lock_cursor_on_next_activation = false; } } bool RenderWidget::event(QEvent* event) { PassEventToPresenter(event); switch (event->type()) { case QEvent::KeyPress: { QKeyEvent* ke = static_cast(event); if (ke->key() == Qt::Key_Escape) emit EscapePressed(); // The render window might flicker on some platforms because Qt tries to change focus to a new // element when there is none (?) Handling this event before it reaches QWidget fixes the issue. if (ke->key() == Qt::Key_Tab) return true; break; } // Needed in case a new window open and it moves the mouse case QEvent::WindowBlocked: SetCursorLocked(false); break; case QEvent::MouseButtonPress: if (isActiveWindow()) { // Lock the cursor with any mouse button click (behave the same as window focus change). // This event is occasionally missed because isActiveWindow is laggy if (Settings::Instance().GetLockCursor()) { SetCursorLocked(true); } } break; case QEvent::MouseMove: // Unhide on movement if (Settings::Instance().GetCursorVisibility() == Config::ShowCursor::OnMovement) { setCursor(Qt::ArrowCursor); m_mouse_timer->start(MOUSE_HIDE_DELAY); } break; case QEvent::WinIdChange: emit HandleChanged(reinterpret_cast(winId())); break; case QEvent::Show: // Don't do if "stay on top" changed (or was true) if (Settings::Instance().GetLockCursor() && Settings::Instance().GetCursorVisibility() != Config::ShowCursor::Constantly && !m_dont_lock_cursor_on_show) { // Auto lock when this window is shown (it was hidden) if (isActiveWindow()) SetCursorLocked(true); else SetCursorLockedOnNextActivation(); } break; // Note that this event in Windows is not always aligned to the window that is highlighted, // it's the window that has keyboard and mouse focus case QEvent::WindowActivate: if (m_should_unpause_on_focus && Core::GetState() == Core::State::Paused) Core::SetState(Core::State::Running); m_should_unpause_on_focus = false; UpdateCursor(); // Avoid "race conditions" with message boxes if (m_lock_cursor_on_next_activation && !m_waiting_for_message_box) { if (Settings::Instance().GetLockCursor()) { SetCursorLocked(true); } m_lock_cursor_on_next_activation = false; } emit FocusChanged(true); break; case QEvent::WindowDeactivate: SetCursorLocked(false); UpdateCursor(); if (Config::Get(Config::MAIN_PAUSE_ON_FOCUS_LOST) && Core::GetState() == Core::State::Running) { // If we are declared as the CPU or GPU thread, it means that the real CPU or GPU thread // is waiting for us to finish showing a panic alert (with that panic alert likely being // the cause of this event), so trying to pause the core would cause a deadlock if (!Core::IsCPUThread() && !Core::IsGPUThread()) { m_should_unpause_on_focus = true; Core::SetState(Core::State::Paused); } } emit FocusChanged(false); break; case QEvent::Move: SetCursorLocked(m_cursor_locked); break; case QEvent::Resize: { SetCursorLocked(m_cursor_locked); const QResizeEvent* se = static_cast(event); QSize new_size = se->size(); QScreen* screen = window()->windowHandle()->screen(); const auto dpr = screen->devicePixelRatio(); emit SizeChanged(new_size.width() * dpr, new_size.height() * dpr); break; } // Happens when we add/remove the widget from the main window instead of the dedicated one case QEvent::ParentChange: SetCursorLocked(false); break; case QEvent::WindowStateChange: // Lock the mouse again when fullscreen changes (we might have missed some events) SetCursorLocked(m_cursor_locked || (isFullScreen() && Settings::Instance().GetLockCursor())); emit StateChanged(isFullScreen()); break; case QEvent::Close: emit Closed(); break; default: break; } return QWidget::event(event); } void RenderWidget::PassEventToPresenter(const QEvent* event) { if (!Core::IsRunningAndStarted()) return; switch (event->type()) { case QEvent::KeyPress: case QEvent::KeyRelease: { // As the imgui KeysDown array is only 512 elements wide, and some Qt keys which // we need to track (e.g. alt) are above this value, we mask the lower 9 bits. // Even masked, the key codes are still unique, so conflicts aren't an issue. // The actual text input goes through AddInputCharactersUTF8(). const QKeyEvent* key_event = static_cast(event); const bool is_down = event->type() == QEvent::KeyPress; const u32 key = static_cast(key_event->key() & 0x1FF); const char* chars = nullptr; QByteArray utf8; if (is_down) { utf8 = key_event->text().toUtf8(); if (utf8.size()) chars = utf8.constData(); } // Pass the key onto Presenter (for the imgui UI) g_presenter->SetKey(key, is_down, chars); } break; case QEvent::MouseMove: { // Qt multiplies all coordinates by the scaling factor in highdpi mode, giving us "scaled" mouse // coordinates (as if the screen was standard dpi). We need to update the mouse position in // native coordinates, as the UI (and game) is rendered at native resolution. const float scale = devicePixelRatio(); float x = static_cast(event)->pos().x() * scale; float y = static_cast(event)->pos().y() * scale; g_presenter->SetMousePos(x, y); } break; case QEvent::MouseButtonPress: case QEvent::MouseButtonRelease: { const u32 button_mask = static_cast(static_cast(event)->buttons()); g_presenter->SetMousePress(button_mask); } break; default: break; } } void RenderWidget::SetPresenterKeyMap() { static constexpr DolphinKeyMap key_map = { Qt::Key_Tab, Qt::Key_Left, Qt::Key_Right, Qt::Key_Up, Qt::Key_Down, Qt::Key_PageUp, Qt::Key_PageDown, Qt::Key_Home, Qt::Key_End, Qt::Key_Insert, Qt::Key_Delete, Qt::Key_Backspace, Qt::Key_Space, Qt::Key_Return, Qt::Key_Escape, Qt::Key_Enter, // Keypad enter Qt::Key_A, Qt::Key_C, Qt::Key_V, Qt::Key_X, Qt::Key_Y, Qt::Key_Z, }; g_presenter->SetKeyMap(key_map); }