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kwin/abstract_wayland_output.cpp

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/********************************************************************
KWin - the KDE window manager
This file is part of the KDE project.
Copyright 2019 Roman Gilg <subdiff@gmail.com>
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*********************************************************************/
#include "abstract_wayland_output.h"
#include "wayland_server.h"
// KWayland
#include <KWayland/Server/display.h>
#include <KWayland/Server/outputchangeset.h>
#include <KWayland/Server/xdgoutput_interface.h>
// KF5
#include <KLocalizedString>
#include <cmath>
namespace KWin
{
AbstractWaylandOutput::AbstractWaylandOutput(QObject *parent)
: AbstractOutput(parent)
{
}
AbstractWaylandOutput::~AbstractWaylandOutput()
{
delete m_xdgOutput.data();
delete m_waylandOutput.data();
delete m_waylandOutputDevice.data();
}
QString AbstractWaylandOutput::name() const
{
return QStringLiteral("%1 %2").arg(m_waylandOutputDevice->manufacturer()).arg(
m_waylandOutputDevice->model());
}
QByteArray AbstractWaylandOutput::uuid() const
{
return m_waylandOutputDevice->uuid();
}
QRect AbstractWaylandOutput::geometry() const
{
return QRect(globalPos(), pixelSize() / scale());
}
QSize AbstractWaylandOutput::physicalSize() const
{
return orientateSize(m_waylandOutputDevice->physicalSize());
}
int AbstractWaylandOutput::refreshRate() const
{
return m_waylandOutputDevice->refreshRate();
}
QPoint AbstractWaylandOutput::globalPos() const
{
return m_waylandOutputDevice->globalPosition();
}
void AbstractWaylandOutput::setGlobalPos(const QPoint &pos)
{
m_waylandOutputDevice->setGlobalPosition(pos);
if (isEnabled()) {
m_waylandOutput->setGlobalPosition(pos);
m_xdgOutput->setLogicalPosition(pos);
m_xdgOutput->done();
}
}
QSize AbstractWaylandOutput::pixelSize() const
{
return orientateSize(m_waylandOutputDevice->pixelSize());
}
qreal AbstractWaylandOutput::scale() const
{
return m_waylandOutputDevice->scaleF();
}
void AbstractWaylandOutput::setScale(qreal scale)
{
m_waylandOutputDevice->setScaleF(scale);
if (isEnabled()) {
// this is the scale that clients will ideally use for their buffers
// this has to be an int which is fine
// I don't know whether we want to round or ceil
// or maybe even set this to 3 when we're scaling to 1.5
// don't treat this like it's chosen deliberately
m_waylandOutput->setScale(std::ceil(scale));
m_xdgOutput->setLogicalSize(pixelSize() / scale);
m_xdgOutput->done();
}
}
using DeviceInterface = KWayland::Server::OutputDeviceInterface;
KWayland::Server::OutputInterface::Transform toOutputTransform(DeviceInterface::Transform transform)
{
using Transform = DeviceInterface::Transform;
using OutputTransform = KWayland::Server::OutputInterface::Transform;
switch (transform) {
case Transform::Rotated90:
return OutputTransform::Rotated90;
case Transform::Rotated180:
return OutputTransform::Rotated180;
case Transform::Rotated270:
return OutputTransform::Rotated270;
case Transform::Flipped:
return OutputTransform::Flipped;
case Transform::Flipped90:
return OutputTransform::Flipped90;
case Transform::Flipped180:
return OutputTransform::Flipped180;
case Transform::Flipped270:
return OutputTransform::Flipped270;
default:
return OutputTransform::Normal;
}
}
void AbstractWaylandOutput::setTransform(DeviceInterface::Transform transform)
{
m_waylandOutputDevice->setTransform(transform);
if (isEnabled()) {
m_waylandOutput->setTransform(toOutputTransform(transform));
m_xdgOutput->setLogicalSize(pixelSize() / scale());
m_xdgOutput->done();
}
}
inline
AbstractWaylandOutput::Transform toTransform(DeviceInterface::Transform deviceTransform)
{
return static_cast<AbstractWaylandOutput::Transform>(deviceTransform);
}
inline
DeviceInterface::Transform toDeviceTransform(AbstractWaylandOutput::Transform transform)
{
return static_cast<DeviceInterface::Transform>(transform);
}
void AbstractWaylandOutput::applyChanges(const KWayland::Server::OutputChangeSet *changeSet)
{
qCDebug(KWIN_CORE) << "Apply changes to the Wayland output.";
bool emitModeChanged = false;
// Enablement changes are handled by platform.
if (changeSet->modeChanged()) {
qCDebug(KWIN_CORE) << "Setting new mode:" << changeSet->mode();
m_waylandOutputDevice->setCurrentMode(changeSet->mode());
updateMode(changeSet->mode());
emitModeChanged = true;
}
if (changeSet->transformChanged()) {
qCDebug(KWIN_CORE) << "Server setting transform: " << (int)(changeSet->transform());
updateTransform(toTransform(changeSet->transform()));
setTransform(changeSet->transform());
emitModeChanged = true;
}
if (changeSet->positionChanged()) {
qCDebug(KWIN_CORE) << "Server setting position: " << changeSet->position();
setGlobalPos(changeSet->position());
// may just work already!
}
if (changeSet->scaleChanged()) {
qCDebug(KWIN_CORE) << "Setting scale:" << changeSet->scale();
setScale(changeSet->scaleF());
emitModeChanged = true;
}
if (emitModeChanged) {
emit modeChanged();
}
}
bool AbstractWaylandOutput::isEnabled() const
{
return m_waylandOutputDevice->enabled() == DeviceInterface::Enablement::Enabled;
}
void AbstractWaylandOutput::setEnabled(bool enable)
{
if (enable == isEnabled()) {
return;
}
if (enable) {
waylandOutputDevice()->setEnabled(DeviceInterface::Enablement::Enabled);
createWaylandOutput();
updateEnablement(true);
} else {
waylandOutputDevice()->setEnabled(DeviceInterface::Enablement::Disabled);
// xdg-output is destroyed in KWayland on wl_output going away.
delete m_waylandOutput.data();
updateEnablement(false);
}
}
void AbstractWaylandOutput::setWaylandMode(const QSize &size, int refreshRate)
{
if (!isEnabled()) {
return;
}
m_waylandOutput->setCurrentMode(size, refreshRate);
m_xdgOutput->setLogicalSize(pixelSize() / scale());
m_xdgOutput->done();
}
void AbstractWaylandOutput::createXdgOutput()
{
Q_ASSERT(!m_waylandOutput.isNull());
Q_ASSERT(m_xdgOutput.isNull());
m_xdgOutput = waylandServer()->xdgOutputManager()->createXdgOutput(m_waylandOutput, m_waylandOutput);
m_xdgOutput->setLogicalSize(pixelSize() / scale());
m_xdgOutput->setLogicalPosition(globalPos());
m_xdgOutput->done();
}
void AbstractWaylandOutput::createWaylandOutput()
{
Q_ASSERT(m_waylandOutput.isNull());
m_waylandOutput = waylandServer()->display()->createOutput();
createXdgOutput();
/*
* add base wayland output data
*/
m_waylandOutput->setManufacturer(m_waylandOutputDevice->manufacturer());
m_waylandOutput->setModel(m_waylandOutputDevice->model());
m_waylandOutput->setPhysicalSize(m_waylandOutputDevice->physicalSize());
/*
* add modes
*/
for(const auto &mode: m_waylandOutputDevice->modes()) {
KWayland::Server::OutputInterface::ModeFlags flags;
if (mode.flags & DeviceInterface::ModeFlag::Current) {
flags |= KWayland::Server::OutputInterface::ModeFlag::Current;
}
if (mode.flags & DeviceInterface::ModeFlag::Preferred) {
flags |= KWayland::Server::OutputInterface::ModeFlag::Preferred;
}
m_waylandOutput->addMode(mode.size, flags, mode.refreshRate);
}
m_waylandOutput->create();
/*
* set dpms
*/
m_waylandOutput->setDpmsSupported(m_supportsDpms);
// set to last known mode
m_waylandOutput->setDpmsMode(m_dpms);
connect(m_waylandOutput.data(), &KWayland::Server::OutputInterface::dpmsModeRequested, this,
[this] (KWayland::Server::OutputInterface::DpmsMode mode) {
updateDpms(mode);
}
);
}
void AbstractWaylandOutput::initInterfaces(const QString &model, const QString &manufacturer,
const QByteArray &uuid, const QSize &physicalSize,
const QVector<DeviceInterface::Mode> &modes)
{
Q_ASSERT(m_waylandOutputDevice.isNull());
m_waylandOutputDevice = waylandServer()->display()->createOutputDevice();
m_waylandOutputDevice->setUuid(uuid);
if (!manufacturer.isEmpty()) {
m_waylandOutputDevice->setManufacturer(manufacturer);
} else {
m_waylandOutputDevice->setManufacturer(i18n("unknown"));
}
m_waylandOutputDevice->setModel(model);
m_waylandOutputDevice->setPhysicalSize(physicalSize);
int i = 0;
for (auto mode : modes) {
qCDebug(KWIN_CORE).nospace() << "Adding mode " << ++i << ": " << mode.size << " [" << mode.refreshRate << "]";
m_waylandOutputDevice->addMode(mode);
}
m_waylandOutputDevice->create();
createWaylandOutput();
}
QSize AbstractWaylandOutput::orientateSize(const QSize &size) const
{
using Transform = DeviceInterface::Transform;
const Transform transform = m_waylandOutputDevice->transform();
if (transform == Transform::Rotated90 || transform == Transform::Rotated270 ||
transform == Transform::Flipped90 || transform == Transform::Flipped270) {
return size.transposed();
}
return size;
}
void AbstractWaylandOutput::setTransform(Transform transform)
{
const auto deviceTransform = toDeviceTransform(transform);
if (deviceTransform == m_waylandOutputDevice->transform()) {
return;
}
setTransform(deviceTransform);
emit modeChanged();
}
AbstractWaylandOutput::Transform AbstractWaylandOutput::transform() const
{
return static_cast<Transform>(m_waylandOutputDevice->transform());
}
}
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