void QLCFixtureHead_Test::cacheChannelsColor() { QLCFixtureMode mode(m_fixtureDef); QCOMPARE(mode.channels().size(), 0); m_ch1->setGroup(QLCChannel::Pan); m_ch1->setControlByte(QLCChannel::MSB); mode.insertChannel(m_ch1, 0); m_ch2->setGroup(QLCChannel::Colour); m_ch2->setControlByte(QLCChannel::MSB); mode.insertChannel(m_ch2, 1); m_ch3->setGroup(QLCChannel::Tilt); m_ch3->setControlByte(QLCChannel::MSB); mode.insertChannel(m_ch3, 2); m_ch4->setGroup(QLCChannel::Colour); m_ch4->setControlByte(QLCChannel::MSB); mode.insertChannel(m_ch4, 3); QLCFixtureHead head; head.addChannel(0); head.addChannel(1); head.addChannel(2); head.addChannel(3); head.cacheChannels(&mode); QCOMPARE(quint32(head.colorWheels().count()), quint32(2)); QCOMPARE(head.colorWheels().at(0), quint32(1)); QCOMPARE(head.colorWheels().at(1), quint32(3)); }
void QLCFixtureHead_Test::channels() { QLCFixtureHead head; QCOMPARE(head.channels().size(), 0); head.addChannel(0); QCOMPARE(head.channels().size(), 1); QCOMPARE(head.channels().contains(0), true); head.addChannel(0); QCOMPARE(head.channels().size(), 1); QCOMPARE(head.channels().contains(0), true); head.addChannel(5000); QCOMPARE(head.channels().size(), 2); QCOMPARE(head.channels().contains(0), true); QCOMPARE(head.channels().contains(5000), true); head.removeChannel(1); QCOMPARE(head.channels().size(), 2); QCOMPARE(head.channels().contains(0), true); QCOMPARE(head.channels().contains(5000), true); head.removeChannel(0); QCOMPARE(head.channels().size(), 1); QCOMPARE(head.channels().contains(5000), true); head.removeChannel(5000); QCOMPARE(head.channels().size(), 0); }
QLCFixtureMode *Fixture::genericRGBPanelMode(QLCFixtureDef *def, Components components, quint32 width, quint32 height) { Q_ASSERT(def != NULL); QLCFixtureMode *mode = new QLCFixtureMode(def); int compNum = 3; if (components == BGR) { mode->setName("BGR"); } else if (components == RGBW) { mode->setName("RGBW"); compNum = 4; } else if (components == RGBWW) { mode->setName("RGBWW"); compNum = 5; } else mode->setName("RGB"); QList<QLCChannel *>channels = def->channels(); for (int i = 0; i < channels.count(); i++) { QLCChannel *ch = channels.at(i); mode->insertChannel(ch, i); if (i%compNum == 0) { QLCFixtureHead head; head.addChannel(i); head.addChannel(i+1); head.addChannel(i+2); if (components == RGBW) head.addChannel(i+3); else if (components == RGBWW) { head.addChannel(i+3); head.addChannel(i+4); } mode->insertHead(-1, head); } } QLCPhysical physical; physical.setWidth(width); physical.setHeight(height); physical.setDepth(height); mode->setPhysical(physical); return mode; }
QLCFixtureMode *Fixture::genericDimmerMode(QLCFixtureDef *def, int channels) { Q_ASSERT(def != NULL); QLCFixtureMode *mode = new QLCFixtureMode(def); mode->setName(QString("%1 Channel").arg(channels)); QList<QLCChannel *>chList = def->channels(); for (int i = 0; i < chList.count(); i++) { QLCChannel *ch = chList.at(i); mode->insertChannel(ch, i); QLCFixtureHead head; head.addChannel(i); mode->insertHead(-1, head); } QLCPhysical physical; physical.setWidth(300 * channels); physical.setHeight(300); physical.setDepth(300); mode->setPhysical(physical); def->addMode(mode); return mode; }
void QLCFixtureHead_Test::cacheChannelsPanTilt() { QLCFixtureMode mode(m_fixtureDef); QCOMPARE(mode.channels().size(), 0); m_ch1->setGroup(QLCChannel::Pan); m_ch1->setControlByte(QLCChannel::MSB); mode.insertChannel(m_ch1, 0); m_ch2->setGroup(QLCChannel::Pan); m_ch2->setControlByte(QLCChannel::LSB); mode.insertChannel(m_ch2, 1); m_ch3->setGroup(QLCChannel::Tilt); m_ch3->setControlByte(QLCChannel::MSB); mode.insertChannel(m_ch3, 2); m_ch4->setGroup(QLCChannel::Tilt); m_ch4->setControlByte(QLCChannel::LSB); mode.insertChannel(m_ch4, 3); QLCFixtureHead head; head.addChannel(0); head.addChannel(1); head.addChannel(2); head.addChannel(3); head.cacheChannels(&mode); QCOMPARE(head.panMsbChannel(), quint32(0)); QCOMPARE(head.panLsbChannel(), quint32(1)); QCOMPARE(head.tiltMsbChannel(), quint32(2)); QCOMPARE(head.tiltLsbChannel(), quint32(3)); QCOMPARE(head.rgbChannels(), QVector <quint32> ()); QCOMPARE(head.cmyChannels(), QVector <quint32> ()); QCOMPARE(head.masterIntensityChannel(), QLCChannel::invalid()); head.cacheChannels((QLCFixtureMode*) 0xDEADBEEF); QCOMPARE(head.panMsbChannel(), quint32(0)); QCOMPARE(head.panLsbChannel(), quint32(1)); QCOMPARE(head.tiltMsbChannel(), quint32(2)); QCOMPARE(head.tiltLsbChannel(), quint32(3)); QCOMPARE(head.rgbChannels(), QVector <quint32> ()); QCOMPARE(head.cmyChannels(), QVector <quint32> ()); QCOMPARE(head.masterIntensityChannel(), QLCChannel::invalid()); }
void QLCFixtureHead_Test::save() { QLCFixtureHead head; head.addChannel(0); head.addChannel(1); head.addChannel(2); head.addChannel(3); QBuffer buffer; buffer.open(QIODevice::WriteOnly | QIODevice::Text); QXmlStreamWriter xmlWriter(&buffer); QVERIFY(head.saveXML(&xmlWriter)); xmlWriter.setDevice(NULL); buffer.close(); buffer.open(QIODevice::ReadOnly | QIODevice::Text); QXmlStreamReader xmlReader(&buffer); xmlReader.readNextStartElement(); QCOMPARE(xmlReader.name().toString(), QString("Head")); int ch = 0; while (xmlReader.readNextStartElement()) { if (xmlReader.name() == "Channel") { QString chNum = xmlReader.readElementText(); QVERIFY(chNum.toInt() == 0 || chNum.toInt() == 1 || chNum.toInt() == 2 || chNum.toInt() == 3); ch++; } else { QFAIL(QString("Unexpected tag: %1").arg(xmlReader.name().toString()).toUtf8().constData()); xmlReader.skipCurrentElement(); } } QCOMPARE(ch, 4); }
void QLCFixtureHead_Test::doublePanTilt() { // Test that the first found Pan/Tilt channel is used // - for the case the user forgets to set the latter to LSB // - in most cases the Pan MSB channel comes first QLCFixtureMode mode(m_fixtureDef); QCOMPARE(mode.channels().size(), 0); m_ch1->setGroup(QLCChannel::Pan); m_ch1->setControlByte(QLCChannel::MSB); mode.insertChannel(m_ch1, 0); m_ch2->setGroup(QLCChannel::Pan); m_ch2->setControlByte(QLCChannel::MSB); mode.insertChannel(m_ch2, 1); m_ch3->setGroup(QLCChannel::Tilt); m_ch3->setControlByte(QLCChannel::MSB); mode.insertChannel(m_ch3, 2); m_ch4->setGroup(QLCChannel::Tilt); m_ch4->setControlByte(QLCChannel::MSB); mode.insertChannel(m_ch4, 3); QLCFixtureHead head; head.addChannel(0); head.addChannel(1); head.addChannel(2); head.addChannel(3); head.cacheChannels(&mode); QCOMPARE(head.panMsbChannel(), quint32(0)); QCOMPARE(head.panLsbChannel(), QLCChannel::invalid()); QCOMPARE(head.tiltMsbChannel(), quint32(2)); QCOMPARE(head.tiltLsbChannel(), QLCChannel::invalid()); }
void QLCFixtureHead_Test::cacheChannelsCmyMaster() { QLCFixtureMode mode(m_fixtureDef); QCOMPARE(mode.channels().size(), 0); m_ch1->setGroup(QLCChannel::Intensity); m_ch1->setColour(QLCChannel::Cyan); mode.insertChannel(m_ch1, 0); m_ch2->setGroup(QLCChannel::Intensity); m_ch2->setColour(QLCChannel::Magenta); mode.insertChannel(m_ch2, 1); m_ch3->setGroup(QLCChannel::Intensity); m_ch3->setColour(QLCChannel::NoColour); mode.insertChannel(m_ch3, 2); m_ch4->setGroup(QLCChannel::Intensity); m_ch4->setColour(QLCChannel::Yellow); mode.insertChannel(m_ch4, 3); QLCFixtureHead head; head.addChannel(0); head.addChannel(1); head.addChannel(2); head.addChannel(3); head.cacheChannels(&mode); QCOMPARE(head.panMsbChannel(), QLCChannel::invalid()); QCOMPARE(head.panLsbChannel(), QLCChannel::invalid()); QCOMPARE(head.tiltMsbChannel(), QLCChannel::invalid()); QCOMPARE(head.tiltLsbChannel(), QLCChannel::invalid()); QCOMPARE(head.rgbChannels(), QVector <quint32> ()); QCOMPARE(head.cmyChannels(), QVector <quint32> () << 0 << 1 << 3); QCOMPARE(head.masterIntensityChannel(), quint32(2)); }
void Fixture::setFixtureDefinition(QLCFixtureDef* fixtureDef, QLCFixtureMode* fixtureMode) { if (fixtureDef != NULL && fixtureMode != NULL) { if (m_fixtureDef != NULL && m_fixtureDef != fixtureDef && m_fixtureDef->manufacturer() == KXMLFixtureGeneric && m_fixtureDef->model() == KXMLFixtureGeneric) { delete m_fixtureDef; } 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. if (fixtureMode->heads().size() == 0) { QLCFixtureHead head; for (int i = 0; i < fixtureMode->channels().size(); i++) head.addChannel(i); fixtureMode->insertHead(-1, head); } m_values.resize(fixtureMode->channels().size()); m_values.fill(0); // Cache all head channels fixtureMode->cacheHeads(); } else { m_fixtureDef = NULL; m_fixtureMode = NULL; } emit changed(m_id); }
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 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); QLCFixtureHead head; head.addChannel(0); head.addChannel(1); head.addChannel(2); mode->insertHead(-1, head); /* 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); QCOMPARE(copy->heads().size(), 1); QVERIFY(copy->heads().at(0).channels().contains(0) == true); QVERIFY(copy->heads().at(0).channels().contains(1) == true); QVERIFY(copy->heads().at(0).channels().contains(2) == true); 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::heads() { QLCFixtureMode* mode = new QLCFixtureMode(m_fixtureDef); QLCFixtureHead head; head.addChannel(0); head.addChannel(10); head.addChannel(20); mode->insertHead(-1, head); QCOMPARE(mode->heads().size(), 1); QVERIFY(mode->m_heads[0].m_channels.contains(0) == true); QVERIFY(mode->m_heads[0].m_channels.contains(10) == true); QVERIFY(mode->m_heads[0].m_channels.contains(20) == true); QLCFixtureHead head2; head2.addChannel(1); head2.addChannel(2); mode->insertHead(10, head2); QCOMPARE(mode->heads().size(), 2); QVERIFY(mode->m_heads[0].m_channels.contains(0) == true); QVERIFY(mode->m_heads[0].m_channels.contains(10) == true); QVERIFY(mode->m_heads[0].m_channels.contains(20) == true); QVERIFY(mode->m_heads[1].m_channels.contains(0) == false); QVERIFY(mode->m_heads[1].m_channels.contains(1) == true); QVERIFY(mode->m_heads[1].m_channels.contains(2) == true); QLCFixtureHead head3; head3.addChannel(3); head3.addChannel(4); mode->insertHead(1, head3); QCOMPARE(mode->heads().size(), 3); QVERIFY(mode->m_heads[0].m_channels.contains(0) == true); QVERIFY(mode->m_heads[0].m_channels.contains(10) == true); QVERIFY(mode->m_heads[0].m_channels.contains(20) == true); QVERIFY(mode->m_heads[1].m_channels.contains(3) == true); QVERIFY(mode->m_heads[1].m_channels.contains(4) == true); QVERIFY(mode->m_heads[2].m_channels.contains(1) == true); QVERIFY(mode->m_heads[2].m_channels.contains(2) == true); QLCFixtureHead head4; head4.addChannel(15); head4.addChannel(16); mode->replaceHead(4, head4); QCOMPARE(mode->heads().size(), 3); QVERIFY(mode->m_heads[0].m_channels.contains(0) == true); QVERIFY(mode->m_heads[0].m_channels.contains(10) == true); QVERIFY(mode->m_heads[0].m_channels.contains(20) == true); QVERIFY(mode->m_heads[1].m_channels.contains(3) == true); QVERIFY(mode->m_heads[1].m_channels.contains(4) == true); QVERIFY(mode->m_heads[2].m_channels.contains(1) == true); QVERIFY(mode->m_heads[2].m_channels.contains(2) == true); mode->replaceHead(2, head4); QCOMPARE(mode->heads().size(), 3); QVERIFY(mode->m_heads[0].m_channels.contains(0) == true); QVERIFY(mode->m_heads[0].m_channels.contains(10) == true); QVERIFY(mode->m_heads[0].m_channels.contains(20) == true); QVERIFY(mode->m_heads[1].m_channels.contains(3) == true); QVERIFY(mode->m_heads[1].m_channels.contains(4) == true); QVERIFY(mode->m_heads[2].m_channels.contains(15) == true); QVERIFY(mode->m_heads[2].m_channels.contains(16) == true); mode->removeHead(15); QCOMPARE(mode->heads().size(), 3); mode->removeHead(1); QCOMPARE(mode->heads().size(), 2); QVERIFY(mode->m_heads[0].m_channels.contains(0) == true); QVERIFY(mode->m_heads[0].m_channels.contains(10) == true); QVERIFY(mode->m_heads[0].m_channels.contains(20) == true); QVERIFY(mode->m_heads[1].m_channels.contains(15) == true); QVERIFY(mode->m_heads[1].m_channels.contains(16) == true); mode->removeHead(0); QCOMPARE(mode->heads().size(), 1); QVERIFY(mode->m_heads[0].m_channels.contains(15) == true); QVERIFY(mode->m_heads[0].m_channels.contains(16) == true); mode->removeHead(0); QCOMPARE(mode->heads().size(), 0); delete mode; }