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#include "qwaylandscreen_p.h"

#include "qwaylanddisplay_p.h"
#include "qwaylandcursor_p.h"
#include "qwaylandwindow_p.h"

#include <QtGui/QGuiApplication>

#include <qpa/qwindowsysteminterface.h>
#include <qpa/qplatformwindow.h>

QT_BEGIN_NAMESPACE

namespace QtWaylandClient {

QWaylandScreen::QWaylandScreen(QWaylandDisplay *waylandDisplay, int version, uint32_t id)
    : QPlatformScreen()
    , QtWayland::wl_output(waylandDisplay->wl_registry(), id, qMin(version, 2))
    , m_outputId(id)
    , mWaylandDisplay(waylandDisplay)
    , mScale(1)
    , mDepth(32)
    , mRefreshRate(60000)
    , mTransform(-1)
    , mFormat(QImage::Format_ARGB32_Premultiplied)
    , mOutputName(QStringLiteral("Screen%1").arg(id))
    , m_orientation(Qt::PrimaryOrientation)
#if QT_CONFIG(cursor)
    , mWaylandCursor(0)
#endif
{
}

QWaylandScreen::~QWaylandScreen()
{
#if QT_CONFIG(cursor)
    delete mWaylandCursor;
#endif
}

void QWaylandScreen::init()
{
#if QT_CONFIG(cursor)
    mWaylandCursor = new QWaylandCursor(this);
#endif
}

QWaylandDisplay * QWaylandScreen::display() const
{
    return mWaylandDisplay;
}

QRect QWaylandScreen::geometry() const
{
    // Scale geometry for QScreen. This makes window and screen
    // geometry be in the same coordinate system.
    return QRect(mGeometry.topLeft(), mGeometry.size() / mScale);
}

int QWaylandScreen::depth() const
{
    return mDepth;
}

QImage::Format QWaylandScreen::format() const
{
    return mFormat;
}

QSizeF QWaylandScreen::physicalSize() const
{
    if (mPhysicalSize.isEmpty())
        return QPlatformScreen::physicalSize();
    else
        return mPhysicalSize;
}

QDpi QWaylandScreen::logicalDpi() const
{
    static int force_dpi = !qgetenv("QT_WAYLAND_FORCE_DPI").isEmpty() ? qgetenv("QT_WAYLAND_FORCE_DPI").toInt() : -1;
    if (force_dpi > 0)
        return QDpi(force_dpi, force_dpi);

    return QPlatformScreen::logicalDpi();
}

QList<QPlatformScreen *> QWaylandScreen::virtualSiblings() const
{
    QList<QPlatformScreen *> list;
    const QList<QWaylandScreen*> screens = mWaylandDisplay->screens();
    list.reserve(screens.count());
    for (QWaylandScreen *screen : qAsConst(screens)) {
        if (screen->screen())
            list << screen;
    }
    return list;
}

void QWaylandScreen::setOrientationUpdateMask(Qt::ScreenOrientations mask)
{
    foreach (QWindow *window, QGuiApplication::allWindows()) {
        QWaylandWindow *w = static_cast<QWaylandWindow *>(window->handle());
        if (w && w->screen() == this)
            w->setOrientationMask(mask);
    }
}

Qt::ScreenOrientation QWaylandScreen::orientation() const
{
    return m_orientation;
}

int QWaylandScreen::scale() const
{
    return mScale;
}

qreal QWaylandScreen::devicePixelRatio() const
{
    return qreal(mScale);
}

qreal QWaylandScreen::refreshRate() const
{
    return mRefreshRate / 1000.f;
}

#if QT_CONFIG(cursor)
QPlatformCursor *QWaylandScreen::cursor() const
{
    return  mWaylandCursor;
}
#endif

QWaylandScreen * QWaylandScreen::waylandScreenFromWindow(QWindow *window)
{
    QPlatformScreen *platformScreen = QPlatformScreen::platformScreenForWindow(window);
    return static_cast<QWaylandScreen *>(platformScreen);
}

QWaylandScreen *QWaylandScreen::fromWlOutput(::wl_output *output)
{
    auto wlOutput = static_cast<QtWayland::wl_output *>(wl_output_get_user_data(output));
    return static_cast<QWaylandScreen *>(wlOutput);
}

void QWaylandScreen::output_mode(uint32_t flags, int width, int height, int refresh)
{
    if (!(flags & WL_OUTPUT_MODE_CURRENT))
        return;

    QSize size(width, height);

    if (size != mGeometry.size())
        mGeometry.setSize(size);

    if (refresh != mRefreshRate)
        mRefreshRate = refresh;
}

void QWaylandScreen::output_geometry(int32_t x, int32_t y,
                                     int32_t width, int32_t height,
                                     int subpixel,
                                     const QString &make,
                                     const QString &model,
                                     int32_t transform)
{
    Q_UNUSED(subpixel);
    Q_UNUSED(make);

    mTransform = transform;

    if (!model.isEmpty())
        mOutputName = model;

    mPhysicalSize = QSize(width, height);
    mGeometry.moveTopLeft(QPoint(x, y));
}

void QWaylandScreen::output_scale(int32_t factor)
{
    mScale = factor;
}

void QWaylandScreen::output_done()
{
    // the done event is sent after all the geometry and the mode events are sent,
    // and the last mode event to be sent is the active one, so we can trust the
    // values of mGeometry and mRefreshRate here

    if (mTransform >= 0) {
        bool isPortrait = mGeometry.height() > mGeometry.width();
        switch (mTransform) {
            case WL_OUTPUT_TRANSFORM_NORMAL:
                m_orientation = isPortrait ? Qt::PortraitOrientation : Qt::LandscapeOrientation;
                break;
            case WL_OUTPUT_TRANSFORM_90:
                m_orientation = isPortrait ? Qt::InvertedLandscapeOrientation : Qt::PortraitOrientation;
                break;
            case WL_OUTPUT_TRANSFORM_180:
                m_orientation = isPortrait ? Qt::InvertedPortraitOrientation : Qt::InvertedLandscapeOrientation;
                break;
            case WL_OUTPUT_TRANSFORM_270:
                m_orientation = isPortrait ? Qt::LandscapeOrientation : Qt::InvertedPortraitOrientation;
                break;
            // Ignore these ones, at least for now
            case WL_OUTPUT_TRANSFORM_FLIPPED:
            case WL_OUTPUT_TRANSFORM_FLIPPED_90:
            case WL_OUTPUT_TRANSFORM_FLIPPED_180:
            case WL_OUTPUT_TRANSFORM_FLIPPED_270:
                break;
        }

        QWindowSystemInterface::handleScreenOrientationChange(screen(), m_orientation);
        mTransform = -1;
    }
    QWindowSystemInterface::handleScreenGeometryChange(screen(), geometry(), geometry());
    QWindowSystemInterface::handleScreenRefreshRateChange(screen(), refreshRate());
}

}

QT_END_NAMESPACE