void QLCFixtureMode_Test::copy()
{
QLCFixtureMode* mode = new QLCFixtureMode(m_fixtureDef);
mode->setName("Test Mode");
mode->insertChannel(m_ch1, 0);
mode->insertChannel(m_ch2, 1);
mode->insertChannel(m_ch3, 2);
mode->insertChannel(m_ch4, 3);
/* Create a copy of the mode to the same fixtureDef as the original */
QLCFixtureMode* copy = new QLCFixtureMode(m_fixtureDef, mode);
QVERIFY(copy != NULL);
QVERIFY(copy->name() == "Test Mode");
QVERIFY(copy->channels().size() == 4);
QVERIFY(copy->channel(0) == m_ch1);
QVERIFY(copy->channel(1) == m_ch2);
QVERIFY(copy->channel(2) == m_ch3);
QVERIFY(copy->channel(3) == m_ch4);
delete copy;
copy = NULL;
/* Create another fixture def with some channels matching, some not */
QLCFixtureDef* anotherDef = new QLCFixtureDef();
QLCChannel* ch1 = new QLCChannel();
ch1->setName("Channel 1"); // Should match
anotherDef->addChannel(ch1);
QLCChannel* ch2 = new QLCChannel();
ch2->setName("Channel 2, not the same name"); // Shouldn't match
anotherDef->addChannel(ch2);
QLCChannel* ch3 = new QLCChannel();
ch3->setName("Channel 3, still not the same name"); // Shouldn't match
anotherDef->addChannel(ch3);
QLCChannel* ch4 = new QLCChannel();
ch4->setName("Channel 4"); // Should match
anotherDef->addChannel(ch4);
QLCChannel* ch5 = new QLCChannel();
ch5->setName("Channel 5"); // Shouldn't match since original has 4 chans
anotherDef->addChannel(ch5);
/* Create a copy of the mode to the other fixtureDef */
copy = new QLCFixtureMode(anotherDef, mode);
QVERIFY(copy->name() == "Test Mode");
QVERIFY(copy->channels().size() == 2);
QVERIFY(copy->channel(0)->name() == "Channel 1");
QVERIFY(copy->channel(0) == ch1);
QVERIFY(copy->channel(1)->name() == "Channel 4");
QVERIFY(copy->channel(1) == ch4);
delete copy;
delete anotherDef;
}
void QLCFixtureMode_Test::channels()
{
QLCFixtureMode* mode = new QLCFixtureMode(m_fixtureDef);
QVERIFY(mode->channels().size() == 0);
mode->insertChannel(m_ch1, 0);
QVERIFY(mode->channels().size() == 1);
mode->insertChannel(m_ch2, 1);
QVERIFY(mode->channels().size() == 2);
mode->insertChannel(m_ch3, 2);
QVERIFY(mode->channels().size() == 3);
delete mode;
}
void QLCFixtureEditor::refreshModeList()
{
QTreeWidgetItem* item;
QLCFixtureMode* mode;
QString str;
m_modeList->clear();
// Fill channels list
QListIterator <QLCFixtureMode*> it(*m_fixtureDef->modes());
while (it.hasNext() == true)
{
mode = it.next();
item = new QTreeWidgetItem(m_modeList);
item->setText(KModesColumnName, mode->name());
str.sprintf("%d", mode->channels());
item->setText(KModesColumnChannels, str);
// Store the channel pointer to the listview as a string
str.sprintf("%lu", (unsigned long) mode);
item->setText(KModesColumnPointer, str);
}
slotModeListSelectionChanged(m_modeList->currentItem());
}
void Fixture_Test::fixtureDef()
{
Fixture fxi(this);
QVERIFY(fxi.fixtureDef() == NULL);
QVERIFY(fxi.fixtureMode() == NULL);
QVERIFY(fxi.channels() == 0);
QVERIFY(fxi.channel(0) == NULL);
QCOMPARE(fxi.panMsbChannel(), QLCChannel::invalid());
QCOMPARE(fxi.tiltMsbChannel(), QLCChannel::invalid());
QCOMPARE(fxi.panLsbChannel(), QLCChannel::invalid());
QCOMPARE(fxi.tiltLsbChannel(), QLCChannel::invalid());
QCOMPARE(fxi.masterIntensityChannel(), QLCChannel::invalid());
QLCFixtureDef* fixtureDef;
fixtureDef = m_doc->fixtureDefCache()->fixtureDef("Martin", "MAC300");
Q_ASSERT(fixtureDef != NULL);
fxi.setFixtureDefinition(fixtureDef, NULL);
QVERIFY(fxi.fixtureDef() == NULL);
QVERIFY(fxi.fixtureMode() == NULL);
QLCFixtureMode* fixtureMode;
fixtureMode = fixtureDef->modes().last();
Q_ASSERT(fixtureMode != NULL);
fxi.setFixtureDefinition(NULL, fixtureMode);
QVERIFY(fxi.fixtureDef() == NULL);
QVERIFY(fxi.fixtureMode() == NULL);
fxi.setFixtureDefinition(fixtureDef, fixtureMode);
QVERIFY(fxi.fixtureDef() != NULL);
QVERIFY(fxi.fixtureMode() != NULL);
QVERIFY(fxi.fixtureDef() == fixtureDef);
QVERIFY(fxi.fixtureMode() == fixtureMode);
QVERIFY(fxi.channels() == quint32(fixtureMode->channels().count()));
QVERIFY(fxi.channel(fxi.channels() - 1) != NULL);
QVERIFY(fxi.channel(fxi.channels()) == NULL);
QVERIFY(fxi.channel(QLCChannel::Pan) != QLCChannel::invalid());
const QLCChannel* ch = fxi.channel(fxi.channel(QLCChannel::Pan));
QVERIFY(ch != NULL);
QCOMPARE(fxi.panMsbChannel(), quint32(7));
QCOMPARE(fxi.tiltMsbChannel(), quint32(9));
QCOMPARE(fxi.panLsbChannel(), quint32(8));
QCOMPARE(fxi.tiltLsbChannel(), quint32(10));
QCOMPARE(fxi.masterIntensityChannel(), quint32(1));
QCOMPARE(fxi.rgbChannels(), QVector <quint32> ());
QCOMPARE(fxi.cmyChannels(), QVector <quint32> () << 2 << 3 << 4);
}
void QLCFixtureMode_Test::insertChannel()
{
QLCFixtureMode* mode = new QLCFixtureMode(m_fixtureDef);
mode->setName("Test");
QVERIFY(mode->insertChannel(NULL, 0) == false);
QVERIFY(mode->channels().size() == 0);
/* Channel that doesn't belong to mode->fixtureDef() */
QLCChannel* ch = new QLCChannel();
ch->setName("Rogue");
mode->insertChannel(ch, 0);
QVERIFY(mode->channels().size() == 0);
delete ch;
/* First channel */
mode->insertChannel(m_ch1, 0);
QVERIFY(mode->channel(0) == m_ch1);
/* Second prepended */
mode->insertChannel(m_ch2, 0);
QVERIFY(mode->channel(0) == m_ch2);
QVERIFY(mode->channel(1) == m_ch1);
/* Third appended way over the end */
mode->insertChannel(m_ch3, 10);
QVERIFY(mode->channel(0) == m_ch2);
QVERIFY(mode->channel(1) == m_ch1);
QVERIFY(mode->channel(2) == m_ch3);
/* Fourth inserted in-between */
mode->insertChannel(m_ch4, 1);
QVERIFY(mode->channel(0) == m_ch2);
QVERIFY(mode->channel(1) == m_ch4);
QVERIFY(mode->channel(2) == m_ch1);
QVERIFY(mode->channel(3) == m_ch3);
delete mode;
}
void QLCFixtureMode_Test::removeChannel()
{
QLCFixtureMode* mode = new QLCFixtureMode(m_fixtureDef);
mode->insertChannel(m_ch1, 0);
mode->insertChannel(m_ch2, 1);
mode->insertChannel(m_ch3, 2);
mode->insertChannel(m_ch4, 3);
/* Remove one channel in the middle */
QVERIFY(mode->channels().size() == 4);
mode->removeChannel(m_ch2);
QVERIFY(mode->channels().size() == 3);
QVERIFY(mode->channel(0) == m_ch1);
QVERIFY(mode->channel(1) == m_ch3);
QVERIFY(mode->channel(2) == m_ch4);
QVERIFY(mode->channel(3) == NULL);
/* Remove the same channel again. Shouldn't change anything. */
mode->removeChannel(m_ch2);
QVERIFY(mode->channels().size() == 3);
QVERIFY(mode->channel(0) == m_ch1);
QVERIFY(mode->channel(1) == m_ch3);
QVERIFY(mode->channel(2) == m_ch4);
QVERIFY(mode->channel(3) == NULL);
/* Remove last channel. */
mode->removeChannel(m_ch4);
QVERIFY(mode->channels().size() == 2);
QVERIFY(mode->channel(0) == m_ch1);
QVERIFY(mode->channel(1) == m_ch3);
QVERIFY(mode->channel(2) == NULL);
QVERIFY(mode->channel(3) == NULL);
/* Remove first channel. */
mode->removeChannel(m_ch1);
QVERIFY(mode->channels().size() == 1);
QVERIFY(mode->channel(0) == m_ch3);
QVERIFY(mode->channel(1) == NULL);
QVERIFY(mode->channel(2) == NULL);
QVERIFY(mode->channel(3) == NULL);
/* Remove last channel. */
mode->removeChannel(m_ch3);
QVERIFY(mode->channels().size() == 0);
QVERIFY(mode->channel(0) == NULL);
QVERIFY(mode->channel(1) == NULL);
QVERIFY(mode->channel(2) == NULL);
QVERIFY(mode->channel(3) == NULL);
delete mode;
}
void QLCFixtureEditor::slotEditMode()
{
QLCFixtureMode* mode = currentMode();
QString str;
if (mode == NULL)
return;
EditMode em(this, mode);
if (em.exec() == QDialog::Accepted)
{
QTreeWidgetItem* item = NULL;
*mode = *(em.mode());
item = m_modeList->currentItem();
item->setText(KModesColumnName, mode->name());
str.sprintf("%d", mode->channels());
item->setText(KModesColumnChannels, str);
setModified();
}
}
void Fixture::setFixtureDefinition(const QLCFixtureDef* fixtureDef,
const QLCFixtureMode* fixtureMode)
{
if (fixtureDef != NULL && fixtureMode != NULL)
{
m_fixtureDef = fixtureDef;
m_fixtureMode = fixtureMode;
// If there are no head entries in the mode, create one that contains
// all channels. This const_cast is a bit heretic, but it's easier this
// way, than to change everything def & mode related non-const, which would
// be worse than one constness violation here.
QLCFixtureMode* mode = const_cast<QLCFixtureMode*> (fixtureMode);
if (mode->heads().size() == 0)
{
QLCFixtureHead head;
for (int i = 0; i < mode->channels().size(); i++)
head.addChannel(i);
mode->insertHead(-1, head);
}
// Cache all head channels
mode->cacheHeads();
if (m_genericChannel != NULL)
delete m_genericChannel;
m_genericChannel = NULL;
}
else
{
m_fixtureDef = NULL;
m_fixtureMode = NULL;
createGenericChannel();
}
emit changed(m_id);
}
void EFX::arm()
{
class Scene* startScene = NULL;
class Scene* stopScene = NULL;
QLCFixtureMode* mode = NULL;
QLCChannel* ch = NULL;
int serialNumber = 0;
Fixture* fxi = NULL;
/* Initialization scene */
if (m_startSceneID != KNoID && m_startSceneEnabled == true)
startScene = static_cast <class Scene*>
(_app->doc()->function(m_startSceneID));
/* De-initialization scene */
if (m_stopSceneID != KNoID && m_stopSceneEnabled == true)
stopScene = static_cast <class Scene*>
(_app->doc()->function(m_stopSceneID));
QListIterator <EFXFixture*> it(m_fixtures);
while (it.hasNext() == true)
{
EFXFixture* ef = it.next();
Q_ASSERT(ef != NULL);
ef->setSerialNumber(serialNumber++);
ef->setStartScene(startScene);
ef->setStopScene(stopScene);
/* If fxi == NULL, the fixture has been destroyed */
fxi = _app->doc()->fixture(ef->fixture());
if (fxi == NULL)
continue;
/* If this fixture has no mode, it's a generic dimmer that
can't do pan&tilt anyway. */
mode = fxi->fixtureMode();
if (mode == NULL)
continue;
/* Find exact channel numbers for MSB/LSB pan and tilt */
for (t_channel i = 0; i < mode->channels(); i++)
{
ch = mode->channel(i);
Q_ASSERT(ch != NULL);
if (ch->group() == KQLCChannelGroupPan)
{
if (ch->controlByte() == 0)
{
ef->setMsbPanChannel(
fxi->universeAddress() + i);
}
else if (ch->controlByte() == 1)
{
ef->setLsbPanChannel(
fxi->universeAddress() + i);
}
}
else if (ch->group() == KQLCChannelGroupTilt)
{
if (ch->controlByte() == 0)
{
ef->setMsbTiltChannel(
fxi->universeAddress() + i);
}
else if (ch->controlByte() == 1)
{
ef->setLsbTiltChannel(
fxi->universeAddress() + i);
}
}
}
}
/* Choose a point calculation function depending on the algorithm */
if (m_algorithm == KCircleAlgorithmName)
pointFunc = circlePoint;
else if (m_algorithm == KEightAlgorithmName)
pointFunc = eightPoint;
else if (m_algorithm == KLineAlgorithmName)
pointFunc = linePoint;
else if (m_algorithm == KTriangleAlgorithmName)
pointFunc = trianglePoint;
else if (m_algorithm == KDiamondAlgorithmName)
pointFunc = diamondPoint;
else if (m_algorithm == KLissajousAlgorithmName)
pointFunc = lissajousPoint;
else
pointFunc = NULL;
}
void Fixture_Test::save()
{
QLCFixtureDef* fixtureDef;
fixtureDef = m_doc->fixtureDefCache()->fixtureDef("Martin", "MAC250+");
Q_ASSERT(fixtureDef != NULL);
QLCFixtureMode* fixtureMode;
fixtureMode = fixtureDef->modes().at(0);
Q_ASSERT(fixtureMode != NULL);
Fixture fxi(this);
fxi.setID(1337);
fxi.setName("Test Fixture");
fxi.setUniverse(2);
fxi.setAddress(438);
fxi.setFixtureDefinition(fixtureDef, fixtureMode);
QBuffer buffer;
buffer.open(QIODevice::WriteOnly | QIODevice::Text);
QXmlStreamWriter xmlWriter(&buffer);
xmlWriter.writeStartElement("TestRoot");
QVERIFY(fxi.saveXML(&xmlWriter) == true);
xmlWriter.setDevice(NULL);
buffer.close();
buffer.open(QIODevice::ReadOnly | QIODevice::Text);
QXmlStreamReader xmlReader(&buffer);
xmlReader.readNextStartElement();
QVERIFY(xmlReader.name().toString() == "TestRoot");
xmlReader.readNextStartElement();
QVERIFY(xmlReader.name().toString() == "Fixture");
bool manufacturer = false, model = false, mode = false, name = false,
channels = false, universe = false, address = false, id = false;
while (xmlReader.readNextStartElement())
{
if (xmlReader.name() == "Manufacturer")
{
QVERIFY(xmlReader.readElementText() == "Martin");
manufacturer = true;
}
else if (xmlReader.name() == "Model")
{
QVERIFY(xmlReader.readElementText() == "MAC250+");
model = true;
}
else if (xmlReader.name() == "Mode")
{
QVERIFY(xmlReader.readElementText() == fixtureMode->name());
mode = true;
}
else if (xmlReader.name() == "ID")
{
QVERIFY(xmlReader.readElementText() == "1337");
id = true;
}
else if (xmlReader.name() == "Name")
{
QVERIFY(xmlReader.readElementText() == "Test Fixture");
name = true;
}
else if (xmlReader.name() == "Universe")
{
QVERIFY(xmlReader.readElementText() == "2");
universe = true;
}
else if (xmlReader.name() == "Address")
{
QVERIFY(xmlReader.readElementText() == "438");
address = true;
}
else if (xmlReader.name() == "Channels")
{
QVERIFY(xmlReader.readElementText().toInt()
== fixtureMode->channels().count());
channels = true;
}
else
{
QFAIL(QString("Unexpected tag: %1").arg(xmlReader.name().toString())
.toLatin1());
xmlReader.skipCurrentElement();
}
}
QVERIFY(manufacturer == true);
QVERIFY(model == true);
QVERIFY(mode == true);
QVERIFY(id == true);
QVERIFY(name == true);
QVERIFY(universe == true);
QVERIFY(address == true);
QVERIFY(channels == true);
}
/**
* Prepare this function for running. This is called when
* the user sets the mode to Operate. Basically allocates everything
* that is needed to run the function.
*/
void EFX::arm()
{
class Scene* startScene = NULL;
class Scene* stopScene = NULL;
QLCFixtureMode* mode = NULL;
QLCChannel* ch = NULL;
t_fixture_id fxi_id = KNoID;
Fixture* fxi = NULL;
int channels = 0;
int order = 0;
m_channels = 0;
/* Initialization scene */
if (m_startSceneID != KNoID && m_startSceneEnabled == true)
{
startScene = static_cast <class Scene*>
(_app->doc()->function(m_startSceneID));
Q_ASSERT(startScene != NULL);
}
/* De-initialization scene */
if (m_stopSceneID != KNoID && m_stopSceneEnabled == true)
{
stopScene = static_cast <class Scene*>
(_app->doc()->function(m_stopSceneID));
Q_ASSERT(stopScene != NULL);
}
QListIterator <t_function_id> it(m_fixtures);
while (it.hasNext() == true)
{
fxi_id = it.next();
Q_ASSERT(fxi_id != KNoID);
EFXFixture ef(this, fxi_id, m_channels, order, m_direction,
startScene, stopScene);
fxi = _app->doc()->fixture(fxi_id);
Q_ASSERT(fxi != NULL);
mode = fxi->fixtureMode();
Q_ASSERT(mode != NULL);
channels = 0;
for (t_channel i = 0; i < mode->channels(); i++)
{
ch = mode->channel(i);
Q_ASSERT(ch != NULL);
if (ch->group() == KQLCChannelGroupPan)
{
if (ch->controlByte() == 0)
{
ef.setMsbPanChannel(
fxi->universeAddress() + i);
channels++;
}
else if (ch->controlByte() == 1)
{
ef.setLsbPanChannel(
fxi->universeAddress() + i);
channels++;
}
}
else if (ch->group() == KQLCChannelGroupTilt)
{
if (ch->controlByte() == 0)
{
ef.setMsbTiltChannel(
fxi->universeAddress() + i);
channels++;
}
else if (ch->controlByte() == 1)
{
ef.setLsbTiltChannel(
fxi->universeAddress() + i);
channels++;
}
}
}
/* The fixture must have at least an LSB channel for 8bit
precision to get accepted into the EFX */
if (ef.isValid() == true)
{
ef.updateSkipThreshold();
m_runTimeData.append(ef);
m_channels += channels;
order++;
}
}
/* Allocate space for channel data that is set to the eventbuffer */
if (m_channelData == NULL)
m_channelData = new unsigned int[m_channels];
/* Allocate space for the event buffer, 1/2 seconds worth of events */
if (m_eventBuffer == NULL)
m_eventBuffer = new EventBuffer(m_channels, KFrequency >> 1);
/* Choose a point calculation function depending on the algorithm */
if (m_algorithm == KCircleAlgorithmName)
pointFunc = circlePoint;
else if (m_algorithm == KEightAlgorithmName)
pointFunc = eightPoint;
else if (m_algorithm == KLineAlgorithmName)
pointFunc = linePoint;
else if (m_algorithm == KTriangleAlgorithmName)
pointFunc = trianglePoint;
else if (m_algorithm == KDiamondAlgorithmName)
pointFunc = diamondPoint;
else if (m_algorithm == KLissajousAlgorithmName)
pointFunc = lissajousPoint;
else
pointFunc = NULL;
}
void Fixture_Test::save()
{
QLCFixtureDef* fixtureDef;
fixtureDef = m_doc->fixtureDefCache()->fixtureDef("Martin", "MAC250+");
Q_ASSERT(fixtureDef != NULL);
QLCFixtureMode* fixtureMode;
fixtureMode = fixtureDef->modes().at(0);
Q_ASSERT(fixtureMode != NULL);
Fixture fxi(this);
fxi.setID(1337);
fxi.setName("Test Fixture");
fxi.setUniverse(2);
fxi.setAddress(438);
fxi.setFixtureDefinition(fixtureDef, fixtureMode);
QDomDocument doc;
QDomElement root = doc.createElement("TestRoot");
QVERIFY(fxi.saveXML(&doc, &root) == true);
QDomNode node = root.firstChild();
QVERIFY(node.toElement().tagName() == "Fixture");
bool manufacturer = false, model = false, mode = false, name = false,
channels = false, universe = false, address = false, id = false;
node = node.firstChild();
while (node.isNull() == false)
{
QDomElement e = node.toElement();
if (e.tagName() == "Manufacturer")
{
QVERIFY(e.text() == "Martin");
manufacturer = true;
}
else if (e.tagName() == "Model")
{
QVERIFY(e.text() == "MAC250+");
model = true;
}
else if (e.tagName() == "Mode")
{
QVERIFY(e.text() == fixtureMode->name());
mode = true;
}
else if (e.tagName() == "ID")
{
QVERIFY(e.text() == "1337");
id = true;
}
else if (e.tagName() == "Name")
{
QVERIFY(e.text() == "Test Fixture");
name = true;
}
else if (e.tagName() == "Universe")
{
QVERIFY(e.text() == "2");
universe = true;
}
else if (e.tagName() == "Address")
{
QVERIFY(e.text() == "438");
address = true;
}
else if (e.tagName() == "Channels")
{
QVERIFY(e.text().toInt()
== fixtureMode->channels().count());
channels = true;
}
else
{
QFAIL(QString("Unexpected tag: %1").arg(e.tagName())
.toLatin1());
}
node = node.nextSibling();
}
QVERIFY(manufacturer == true);
QVERIFY(model == true);
QVERIFY(mode == true);
QVERIFY(id == true);
QVERIFY(name == true);
QVERIFY(universe == true);
QVERIFY(address == true);
QVERIFY(channels == true);
}
void Fixture_Test::fixtureDef()
{
Fixture fxi(this);
QVERIFY(fxi.fixtureDef() == NULL);
QVERIFY(fxi.fixtureMode() == NULL);
QVERIFY(fxi.channels() == 0);
QVERIFY(fxi.channel(0) == NULL);
QCOMPARE(fxi.panMsbChannel(), QLCChannel::invalid());
QCOMPARE(fxi.tiltMsbChannel(), QLCChannel::invalid());
QCOMPARE(fxi.panLsbChannel(), QLCChannel::invalid());
QCOMPARE(fxi.tiltLsbChannel(), QLCChannel::invalid());
QCOMPARE(fxi.masterIntensityChannel(), QLCChannel::invalid());
QLCFixtureDef* fixtureDef;
fixtureDef = m_doc->fixtureDefCache()->fixtureDef("Martin", "MAC300");
Q_ASSERT(fixtureDef != NULL);
fxi.setFixtureDefinition(fixtureDef, NULL);
QVERIFY(fxi.fixtureDef() == NULL);
QVERIFY(fxi.fixtureMode() == NULL);
QLCFixtureMode* fixtureMode;
fixtureMode = fixtureDef->modes().last();
Q_ASSERT(fixtureMode != NULL);
fxi.setFixtureDefinition(NULL, fixtureMode);
QVERIFY(fxi.fixtureDef() == NULL);
QVERIFY(fxi.fixtureMode() == NULL);
fxi.setFixtureDefinition(fixtureDef, fixtureMode);
QVERIFY(fxi.fixtureDef() != NULL);
QVERIFY(fxi.fixtureMode() != NULL);
QVERIFY(fxi.fixtureDef() == fixtureDef);
QVERIFY(fxi.fixtureMode() == fixtureMode);
QVERIFY(fxi.channels() == quint32(fixtureMode->channels().count()));
QVERIFY(fxi.channel(fxi.channels() - 1) != NULL);
QVERIFY(fxi.channel(fxi.channels()) == NULL);
QVERIFY(fxi.channel("Pan") != QLCChannel::invalid());
const QLCChannel* ch = fxi.channel(fxi.channel("Pan"));
QVERIFY(ch != NULL);
QVERIFY(ch->name().toLower() == "pan");
ch = fxi.channel(fxi.channel("Pan", Qt::CaseInsensitive, QLCChannel::Colour));
QVERIFY(ch == NULL);
QVERIFY(fxi.channel("fect") != QLCChannel::invalid());
ch = fxi.channel(fxi.channel("fect"));
QVERIFY(ch != NULL);
QCOMPARE(ch->name(), QString("Effect speed"));
QCOMPARE(fxi.panMsbChannel(), quint32(7));
QCOMPARE(fxi.tiltMsbChannel(), quint32(9));
QCOMPARE(fxi.panLsbChannel(), quint32(8));
QCOMPARE(fxi.tiltLsbChannel(), quint32(10));
QCOMPARE(fxi.masterIntensityChannel(), quint32(1));
QCOMPARE(fxi.rgbChannels(), QList <quint32> ());
QCOMPARE(fxi.cmyChannels(), QList <quint32> () << 2 << 3 << 4);
}