/**************************************************************************** ** ** 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 "qiosglobal.h" #include "qiosintegration.h" #include "qiosscreen.h" #include "qioswindow.h" #include #include "qiosapplicationdelegate.h" #include "qiosviewcontroller.h" #include "quiview.h" #include #include #include #include #include // ------------------------------------------------------------------------- typedef void (^DisplayLinkBlock)(CADisplayLink *displayLink); @implementation UIScreen (DisplayLinkBlock) - (CADisplayLink*)displayLinkWithBlock:(DisplayLinkBlock)block { return [self displayLinkWithTarget:[[block copy] autorelease] selector:@selector(invokeDisplayLinkBlock:)]; } @end @implementation NSObject (DisplayLinkBlock) - (void)invokeDisplayLinkBlock:(CADisplayLink *)sender { DisplayLinkBlock block = static_cast(self); block(sender); } @end // ------------------------------------------------------------------------- static QIOSScreen* qtPlatformScreenFor(UIScreen *uiScreen) { foreach (QScreen *screen, QGuiApplication::screens()) { QIOSScreen *platformScreen = static_cast(screen->handle()); if (platformScreen->uiScreen() == uiScreen) return platformScreen; } return 0; } @interface QIOSScreenTracker : NSObject @end @implementation QIOSScreenTracker + (void)load { NSNotificationCenter *center = [NSNotificationCenter defaultCenter]; [center addObserver:self selector:@selector(screenConnected:) name:UIScreenDidConnectNotification object:nil]; [center addObserver:self selector:@selector(screenDisconnected:) name:UIScreenDidDisconnectNotification object:nil]; [center addObserver:self selector:@selector(screenModeChanged:) name:UIScreenModeDidChangeNotification object:nil]; } + (void)screenConnected:(NSNotification*)notification { Q_ASSERT_X(QIOSIntegration::instance(), Q_FUNC_INFO, "Screen connected before QIOSIntegration creation"); QWindowSystemInterface::handleScreenAdded(new QIOSScreen([notification object])); } + (void)screenDisconnected:(NSNotification*)notification { QIOSScreen *screen = qtPlatformScreenFor([notification object]); Q_ASSERT_X(screen, Q_FUNC_INFO, "Screen disconnected that we didn't know about"); QWindowSystemInterface::handleScreenRemoved(screen); } + (void)screenModeChanged:(NSNotification*)notification { QIOSScreen *screen = qtPlatformScreenFor([notification object]); Q_ASSERT_X(screen, Q_FUNC_INFO, "Screen changed that we didn't know about"); screen->updateProperties(); } @end // ------------------------------------------------------------------------- @interface QIOSOrientationListener : NSObject @end @implementation QIOSOrientationListener { QIOSScreen *m_screen; } - (instancetype)initWithQIOSScreen:(QIOSScreen *)screen { self = [super init]; if (self) { m_screen = screen; #ifndef Q_OS_TVOS [[UIDevice currentDevice] beginGeneratingDeviceOrientationNotifications]; [[NSNotificationCenter defaultCenter] addObserver:self selector:@selector(orientationChanged:) name:@"UIDeviceOrientationDidChangeNotification" object:nil]; #endif } return self; } - (void)dealloc { #ifndef Q_OS_TVOS [[UIDevice currentDevice] endGeneratingDeviceOrientationNotifications]; [[NSNotificationCenter defaultCenter] removeObserver:self name:@"UIDeviceOrientationDidChangeNotification" object:nil]; #endif [super dealloc]; } - (void)orientationChanged:(NSNotification *)notification { Q_UNUSED(notification); m_screen->updateProperties(); } @end @interface UIScreen (Compatibility) @property (nonatomic, readonly) CGRect qt_applicationFrame; @end @implementation UIScreen (Compatibility) - (CGRect)qt_applicationFrame { #ifdef Q_OS_IOS return self.applicationFrame; #else return self.bounds; #endif } @end // ------------------------------------------------------------------------- @implementation QUIWindow - (instancetype)initWithFrame:(CGRect)frame { if ((self = [super initWithFrame:frame])) self->_sendingEvent = NO; return self; } - (void)sendEvent:(UIEvent *)event { QScopedValueRollback sendingEvent(self->_sendingEvent, YES); [super sendEvent:event]; } @end // ------------------------------------------------------------------------- QT_BEGIN_NAMESPACE /*! Returns the model identifier of the device. */ static QString deviceModelIdentifier() { #if TARGET_OS_SIMULATOR return QString::fromLocal8Bit(qgetenv("SIMULATOR_MODEL_IDENTIFIER")); #else static const char key[] = "hw.machine"; size_t size; sysctlbyname(key, NULL, &size, NULL, 0); char value[size]; sysctlbyname(key, &value, &size, NULL, 0); return QString::fromLatin1(value); #endif } QIOSScreen::QIOSScreen(UIScreen *screen) : QPlatformScreen() , m_uiScreen(screen) , m_uiWindow(0) , m_orientationListener(0) { QString deviceIdentifier = deviceModelIdentifier(); if (screen == [UIScreen mainScreen] && !deviceIdentifier.startsWith("AppleTV")) { // Based on https://en.wikipedia.org/wiki/List_of_iOS_devices#Display // iPhone (1st gen), 3G, 3GS, and iPod Touch (1st–3rd gen) are 18-bit devices static QRegularExpression lowBitDepthDevices("^(iPhone1,[12]|iPhone2,1|iPod[1-3],1)$"); m_depth = deviceIdentifier.contains(lowBitDepthDevices) ? 18 : 24; static QRegularExpression iPhoneXModels("^iPhone(10,[36])$"); static QRegularExpression iPhonePlusModels("^iPhone(7,1|8,2|9,[24]|10,[25])$"); static QRegularExpression iPadMiniModels("^iPad(2,[567]|4,[4-9]|5,[12])$"); if (deviceIdentifier.contains(iPhoneXModels)) { m_physicalDpi = 458; } else if (deviceIdentifier.contains(iPhonePlusModels)) { m_physicalDpi = 401; } else if (deviceIdentifier.startsWith("iPad")) { if (deviceIdentifier.contains(iPadMiniModels)) m_physicalDpi = 163 * devicePixelRatio(); else m_physicalDpi = 132 * devicePixelRatio(); } else { // All normal iPhones, and iPods m_physicalDpi = 163 * devicePixelRatio(); } } else { // External display, hard to say m_depth = 24; m_physicalDpi = 96; } if (!qt_apple_isApplicationExtension()) { for (UIWindow *existingWindow in qt_apple_sharedApplication().windows) { if (existingWindow.screen == m_uiScreen) { m_uiWindow = [m_uiWindow retain]; break; } } if (!m_uiWindow) { // Create a window and associated view-controller that we can use m_uiWindow = [[QUIWindow alloc] initWithFrame:[m_uiScreen bounds]]; m_uiWindow.rootViewController = [[[QIOSViewController alloc] initWithQIOSScreen:this] autorelease]; } } updateProperties(); m_displayLink = [m_uiScreen displayLinkWithBlock:^(CADisplayLink *) { deliverUpdateRequests(); }]; m_displayLink.paused = YES; // Enabled when clients call QWindow::requestUpdate() [m_displayLink addToRunLoop:[NSRunLoop mainRunLoop] forMode:NSDefaultRunLoopMode]; } QIOSScreen::~QIOSScreen() { [m_displayLink invalidate]; [m_orientationListener release]; [m_uiWindow release]; } QString QIOSScreen::name() const { if (m_uiScreen == [UIScreen mainScreen]) { return QString::fromNSString([UIDevice currentDevice].model) + QLatin1String(" built-in display"); } else { return QLatin1String("External display"); } } void QIOSScreen::updateProperties() { QRect previousGeometry = m_geometry; QRect previousAvailableGeometry = m_availableGeometry; m_geometry = QRectF::fromCGRect(m_uiScreen.bounds).toRect(); // The application frame doesn't take safe area insets into account, and // the safe area insets are not available before the UIWindow is shown, // and do not take split-view constraints into account, so we have to // combine the two to get the correct available geometry. QRect applicationFrame = QRectF::fromCGRect(m_uiScreen.qt_applicationFrame).toRect(); UIEdgeInsets safeAreaInsets = m_uiWindow.qt_safeAreaInsets; m_availableGeometry = m_geometry.adjusted(safeAreaInsets.left, safeAreaInsets.top, -safeAreaInsets.right, -safeAreaInsets.bottom).intersected(applicationFrame); #ifndef Q_OS_TVOS if (m_uiScreen == [UIScreen mainScreen]) { QIOSViewController *qtViewController = [m_uiWindow.rootViewController isKindOfClass:[QIOSViewController class]] ? static_cast(m_uiWindow.rootViewController) : nil; if (qtViewController.lockedOrientation) { Q_ASSERT(!qt_apple_isApplicationExtension()); // Setting the statusbar orientation (content orientation) on will affect the screen geometry, // which is not what we want. We want to reflect the screen geometry based on the locked orientation, // and adjust the available geometry based on the repositioned status bar for the current status // bar orientation. Qt::ScreenOrientation statusBarOrientation = toQtScreenOrientation( UIDeviceOrientation(qt_apple_sharedApplication().statusBarOrientation)); Qt::ScreenOrientation lockedOrientation = toQtScreenOrientation(UIDeviceOrientation(qtViewController.lockedOrientation)); QTransform transform = transformBetween(lockedOrientation, statusBarOrientation, m_geometry).inverted(); m_geometry = transform.mapRect(m_geometry); m_availableGeometry = transform.mapRect(m_availableGeometry); } } #endif if (m_geometry != previousGeometry) { // We can't use the primaryOrientation of screen(), as we haven't reported the new geometry yet Qt::ScreenOrientation primaryOrientation = m_geometry.width() >= m_geometry.height() ? Qt::LandscapeOrientation : Qt::PortraitOrientation; // On iPhone 6+ devices, or when display zoom is enabled, the render buffer is scaled // before being output on the physical display. We have to take this into account when // computing the physical size. Note that unlike the native bounds, the physical size // follows the primary orientation of the screen. const QRectF physicalGeometry = mapBetween(nativeOrientation(), primaryOrientation, QRectF::fromCGRect(m_uiScreen.nativeBounds).toRect()); static const qreal millimetersPerInch = 25.4; m_physicalSize = physicalGeometry.size() / m_physicalDpi * millimetersPerInch; } // At construction time, we don't yet have an associated QScreen, but we still want // to compute the properties above so they are ready for when the QScreen attaches. // Also, at destruction time the QScreen has already been torn down, so notifying // Qt about changes to the screen will cause asserts in the event delivery system. if (!screen()) return; if (screen()->orientation() != orientation()) QWindowSystemInterface::handleScreenOrientationChange(screen(), orientation()); // Note: The screen orientation change and the geometry changes are not atomic, so when // the former is emitted, the latter has not been reported and reflected in the QScreen // API yet. But conceptually it makes sense that the orientation update happens first, // and the geometry updates caused by auto-rotation happen after that. if (m_geometry != previousGeometry || m_availableGeometry != previousAvailableGeometry) QWindowSystemInterface::handleScreenGeometryChange(screen(), m_geometry, m_availableGeometry); } void QIOSScreen::setUpdatesPaused(bool paused) { m_displayLink.paused = paused; } void QIOSScreen::deliverUpdateRequests() const { bool pauseUpdates = true; QList windows = QGuiApplication::allWindows(); for (int i = 0; i < windows.size(); ++i) { QWindow *window = windows.at(i); if (platformScreenForWindow(window) != this) continue; QPlatformWindow *platformWindow = window->handle(); if (!platformWindow) continue; if (!platformWindow->hasPendingUpdateRequest()) continue; platformWindow->deliverUpdateRequest(); // Another update request was triggered, keep the display link running if (platformWindow->hasPendingUpdateRequest()) pauseUpdates = false; } // Pause the display link if there are no pending update requests m_displayLink.paused = pauseUpdates; } QRect QIOSScreen::geometry() const { return m_geometry; } QRect QIOSScreen::availableGeometry() const { return m_availableGeometry; } int QIOSScreen::depth() const { return m_depth; } QImage::Format QIOSScreen::format() const { return QImage::Format_ARGB32_Premultiplied; } QSizeF QIOSScreen::physicalSize() const { return m_physicalSize; } QDpi QIOSScreen::logicalDpi() const { return QDpi(72, 72); } qreal QIOSScreen::devicePixelRatio() const { return [m_uiScreen scale]; } qreal QIOSScreen::refreshRate() const { return m_uiScreen.maximumFramesPerSecond; } Qt::ScreenOrientation QIOSScreen::nativeOrientation() const { CGRect nativeBounds = #if defined(Q_OS_IOS) m_uiScreen.nativeBounds; #else m_uiScreen.bounds; #endif // All known iOS devices have a native orientation of portrait, but to // be on the safe side we compare the width and height of the bounds. return nativeBounds.size.width >= nativeBounds.size.height ? Qt::LandscapeOrientation : Qt::PortraitOrientation; } Qt::ScreenOrientation QIOSScreen::orientation() const { #ifdef Q_OS_TVOS return Qt::PrimaryOrientation; #else // Auxiliary screens are always the same orientation as their primary orientation if (m_uiScreen != [UIScreen mainScreen]) return Qt::PrimaryOrientation; UIDeviceOrientation deviceOrientation = [UIDevice currentDevice].orientation; // At startup, iOS will report an unknown orientation for the device, even // if we've asked it to begin generating device orientation notifications. // In this case we fall back to the status bar orientation, which reflects // the orientation the application was started up in (which may not match // the physical orientation of the device, but typically does unless the // application has been locked to a subset of the available orientations). if (deviceOrientation == UIDeviceOrientationUnknown && !qt_apple_isApplicationExtension()) deviceOrientation = UIDeviceOrientation(qt_apple_sharedApplication().statusBarOrientation); // If the device reports face up or face down orientations, we can't map // them to Qt orientations, so we pretend we're in the same orientation // as before. if (deviceOrientation == UIDeviceOrientationFaceUp || deviceOrientation == UIDeviceOrientationFaceDown) { Q_ASSERT(screen()); return screen()->orientation(); } return toQtScreenOrientation(deviceOrientation); #endif } void QIOSScreen::setOrientationUpdateMask(Qt::ScreenOrientations mask) { if (m_orientationListener && mask == Qt::PrimaryOrientation) { [m_orientationListener release]; m_orientationListener = 0; } else if (!m_orientationListener) { m_orientationListener = [[QIOSOrientationListener alloc] initWithQIOSScreen:this]; updateProperties(); } } QPixmap QIOSScreen::grabWindow(WId window, int x, int y, int width, int height) const { if (window && ![reinterpret_cast(window) isKindOfClass:[UIView class]]) return QPixmap(); UIView *view = window ? reinterpret_cast(window) : m_uiWindow; if (width < 0) width = qMax(view.bounds.size.width - x, CGFloat(0)); if (height < 0) height = qMax(view.bounds.size.height - y, CGFloat(0)); CGRect captureRect = [m_uiWindow convertRect:CGRectMake(x, y, width, height) fromView:view]; captureRect = CGRectIntersection(captureRect, m_uiWindow.bounds); UIGraphicsBeginImageContextWithOptions(captureRect.size, NO, 0.0); CGContextRef context = UIGraphicsGetCurrentContext(); CGContextTranslateCTM(context, -captureRect.origin.x, -captureRect.origin.y); // Draws the complete view hierarchy of m_uiWindow into the given rect, which // needs to be the same aspect ratio as the m_uiWindow's size. Since we've // translated the graphics context, and are potentially drawing into a smaller // context than the full window, the resulting image will be a subsection of the // full screen. [m_uiWindow drawViewHierarchyInRect:m_uiWindow.bounds afterScreenUpdates:NO]; UIImage *screenshot = UIGraphicsGetImageFromCurrentImageContext(); UIGraphicsEndImageContext(); return QPixmap::fromImage(qt_mac_toQImage(screenshot.CGImage)); } UIScreen *QIOSScreen::uiScreen() const { return m_uiScreen; } UIWindow *QIOSScreen::uiWindow() const { return m_uiWindow; } #include "moc_qiosscreen.cpp" QT_END_NAMESPACE