Esempio n. 1
0
void GenericFader_Test::addRemove()
{
    GenericFader fader(m_doc);

    FadeChannel fc;
    fc.setFixture(0);
    fc.setChannel(0);

    FadeChannel wrong;
    fc.setFixture(0);

    QCOMPARE(fader.m_channels.count(), 0);
    QVERIFY(fader.m_channels.contains(fc) == false);

    fader.add(fc);
    QVERIFY(fader.m_channels.contains(fc) == true);
    QCOMPARE(fader.m_channels.count(), 1);

    fader.remove(wrong);
    QVERIFY(fader.m_channels.contains(fc) == true);
    QCOMPARE(fader.m_channels.count(), 1);

    fader.remove(fc);
    QVERIFY(fader.m_channels.contains(fc) == false);
    QCOMPARE(fader.m_channels.count(), 0);

    fc.setChannel(0);
    fader.add(fc);
    QVERIFY(fader.m_channels.contains(fc) == true);

    fc.setChannel(1);
    fader.add(fc);
    QVERIFY(fader.m_channels.contains(fc) == true);

    fc.setChannel(2);
    fader.add(fc);
    QVERIFY(fader.m_channels.contains(fc) == true);
    QCOMPARE(fader.m_channels.count(), 3);

    fader.removeAll();
    QCOMPARE(fader.m_channels.count(), 0);

    fc.setFixture(0);
    fc.setChannel(0);
    fc.setTarget(127);
    fader.add(fc);
    QCOMPARE(fader.m_channels.size(), 1);
    QCOMPARE(fader.m_channels[fc].target(), uchar(127));

    fc.setTarget(63);
    fader.add(fc);
    QCOMPARE(fader.m_channels.size(), 1);
    QCOMPARE(fader.m_channels[fc].target(), uchar(63));

    fc.setCurrent(63);
    fader.add(fc);
    QCOMPARE(fader.m_channels.size(), 1);
    QCOMPARE(fader.m_channels[fc].target(), uchar(63));
}
Esempio n. 2
0
void CueStack::switchCue(int from, int to, const QList<Universe *> ua)
{
    qDebug() << Q_FUNC_INFO;

    Cue newCue;
    Cue oldCue;
    m_mutex.lock();
    if (to >= 0 && to < m_cues.size())
        newCue = m_cues[to];
    if (from >= 0 && from < m_cues.size())
        oldCue = m_cues[from];
    m_mutex.unlock();

    // Fade out the HTP channels of the previous cue
    QHashIterator <uint,uchar> oldit(oldCue.values());
    while (oldit.hasNext() == true)
    {
        oldit.next();

        FadeChannel fc;
        fc.setFixture(doc(), Fixture::invalidId());
        fc.setChannel(oldit.key());

        if (fc.group(doc()) == QLCChannel::Intensity)
        {
            fc.setElapsed(0);
            fc.setReady(false);
            fc.setTarget(0);
            fc.setFadeTime(oldCue.fadeOutSpeed());
            insertStartValue(fc, ua);
            m_fader->add(fc);
        }
    }

    // Fade in all channels of the new cue
    QHashIterator <uint,uchar> newit(newCue.values());
    while (newit.hasNext() == true)
    {
        newit.next();
        FadeChannel fc;

        fc.setFixture(doc(), Fixture::invalidId());
        fc.setChannel(newit.key());
        fc.setTarget(newit.value());
        fc.setElapsed(0);
        fc.setReady(false);
        fc.setFadeTime(newCue.fadeInSpeed());
        insertStartValue(fc, ua);
        m_fader->add(fc);
    }
}
Esempio n. 3
0
void FadeChannel_Test::group()
{
    Doc doc(this);

    FadeChannel fc;

    // Only a channel given, no fixture at the address -> intensity
    fc.setChannel(2);
    QCOMPARE(fc.group(&doc), QLCChannel::Intensity);

    Fixture* fxi = new Fixture(&doc);
    fxi->setAddress(10);
    fxi->setChannels(5);
    doc.addFixture(fxi);

    // Fixture and channel given, fixture is a dimmer -> intensity
    fc.setFixture(&doc, fxi->id());
    QCOMPARE(fc.group(&doc), QLCChannel::Intensity);

    QDir dir(INTERNAL_FIXTUREDIR);
    dir.setFilter(QDir::Files);
    dir.setNameFilters(QStringList() << QString("*%1").arg(KExtFixture));
    QVERIFY(doc.fixtureDefCache()->load(dir) == true);

    QLCFixtureDef* def = doc.fixtureDefCache()->fixtureDef("Futurelight", "DJScan250");
    QVERIFY(def != NULL);

    QLCFixtureMode* mode = def->modes().first();
    QVERIFY(mode != NULL);

    fxi = new Fixture(&doc);
    fxi->setAddress(0);
    fxi->setFixtureDefinition(def, mode);
    doc.addFixture(fxi);

    // Fixture and channel given, but channel is beyond fixture's channels -> intensity
    fc.setFixture(&doc, fxi->id());
    fc.setChannel(50);
    QCOMPARE(fc.group(&doc), QLCChannel::Intensity);

    // Only a channel given, no fixture given but a fixture occupies the address.
    // Check that reverse address -> fixture lookup works.
    fc.setFixture(&doc, Fixture::invalidId());
    fc.setChannel(2);
    QCOMPARE(fc.group(&doc), QLCChannel::Colour);

    // Fixture and channel given, but fixture doesn't exist -> intensity
    fc.setFixture(&doc, 12345);
    fc.setChannel(2);
    QCOMPARE(fc.group(&doc), QLCChannel::Intensity);
}
Esempio n. 4
0
void EFXFixture::stop(MasterTimer* timer, QList<Universe *> universes)
{
    Q_UNUSED(universes);

    if (fadeIntensity() > 0 && m_started == true)
    {
        Fixture* fxi = doc()->fixture(head().fxi);
        Q_ASSERT(fxi != NULL);

        if (fxi->masterIntensityChannel(head().head) != QLCChannel::invalid())
        {
            FadeChannel fc;
            fc.setFixture(doc(), head().fxi);
            fc.setChannel(fxi->masterIntensityChannel(head().head));

            if (m_parent->overrideFadeOutSpeed() != Function::defaultSpeed())
                fc.setFadeTime(m_parent->overrideFadeOutSpeed());
            else
                fc.setFadeTime(m_parent->fadeOutSpeed());

            fc.setStart(uchar(floor((float(fadeIntensity()) * intensity()) + 0.5)));
            fc.setCurrent(fc.start());
            fc.setTarget(0);
            // Give zero-fading to MasterTimer because EFX will stop after this call
            timer->faderAdd(fc);
            // Remove the previously up-faded channel from EFX's internal fader to allow
            // MasterTimer's fader take HTP precedence.
            m_parent->m_fader->remove(fc);
        }
    }

    m_started = false;
}
Esempio n. 5
0
void EFXFixture::start(MasterTimer* timer, QList<Universe *> universes)
{
    Q_UNUSED(universes);
    Q_UNUSED(timer);

    if (fadeIntensity() > 0 && m_started == false)
    {
        Fixture* fxi = doc()->fixture(head().fxi);
        Q_ASSERT(fxi != NULL);

        if (fxi->masterIntensityChannel(head().head) != QLCChannel::invalid())
        {
            FadeChannel fc;
            fc.setFixture(doc(), head().fxi);
            fc.setChannel(fxi->masterIntensityChannel(head().head));
            if (m_parent->overrideFadeInSpeed() != Function::defaultSpeed())
                fc.setFadeTime(m_parent->overrideFadeInSpeed());
            else
                fc.setFadeTime(m_parent->fadeInSpeed());

            fc.setStart(0);
            fc.setCurrent(fc.start());
            // Don't use intensity() multiplier because EFX's GenericFader takes care of that
            fc.setTarget(fadeIntensity());
            // Fade channel up with EFX's own GenericFader to allow manual intensity control
            m_parent->m_fader->add(fc);
        }
    }

    m_started = true;
}
Esempio n. 6
0
void GenericFader_Test::writeLoop()
{
    UniverseArray ua(512);
    GenericFader fader(m_doc);

    FadeChannel fc;
    fc.setFixture(0);
    fc.setChannel(5);
    fc.setStart(0);
    fc.setTarget(250);
    fc.setFadeTime(1000);
    fader.add(fc);

    QCOMPARE(ua.preGMValues()[15], (char) 0);

    int expected = 0;
    for (int i = MasterTimer::tick(); i <= 1000; i += MasterTimer::tick())
    {
        ua.zeroIntensityChannels();
        fader.write(&ua);

        int actual = uchar(ua.preGMValues()[15]);
        expected += 5;
        QCOMPARE(actual, expected);
    }
}
Esempio n. 7
0
void GenericDMXSource::writeDMX(MasterTimer* timer, QList<Universe *> ua)
{
    Q_UNUSED(timer);

    m_mutex.lock();
    QMutableMapIterator <QPair<quint32,quint32>,uchar> it(m_values);
    while (it.hasNext() == true && m_outputEnabled == true)
    {
        it.next();

        FadeChannel fc;
        fc.setFixture(m_doc, it.key().first);
        fc.setChannel(it.key().second);

        QLCChannel::Group grp = fc.group(m_doc);
        quint32 address = fc.address();
        quint32 universe = fc.universe();

        if (address != QLCChannel::invalid())
            ua[universe]->write(address, it.value());
        if (grp != QLCChannel::Intensity)
            it.remove();
    }
    m_mutex.unlock();
}
Esempio n. 8
0
/*****************************************************************************
 * Helper Function
 *****************************************************************************/
void EFXFixture::setFadeChannel(quint32 nChannel, uchar val)
{
    FadeChannel fc;
    fc.setFixture(doc(), head().fxi);
    fc.setChannel(nChannel);

    fc.setTarget(val);
    m_parent->m_fader->forceAdd(fc);
}
Esempio n. 9
0
void FadeChannel_Test::address()
{
    Doc doc(this);
    Fixture* fxi = new Fixture(&doc);
    fxi->setAddress(400);
    fxi->setChannels(5);
    doc.addFixture(fxi);

    FadeChannel fc;
    fc.setChannel(2);
    QCOMPARE(fc.address(), quint32(2));

    fc.setFixture(&doc, fxi->id());
    QCOMPARE(fc.address(), quint32(402));

    fc.setFixture(&doc, 12345);
    QCOMPARE(fc.address(), QLCChannel::invalid());
}
Esempio n. 10
0
void GenericFader_Test::writeZeroFade()
{
    UniverseArray ua(512);
    GenericFader fader(m_doc);

    FadeChannel fc;
    fc.setFixture(0);
    fc.setChannel(5);
    fc.setStart(0);
    fc.setTarget(255);
    fc.setFadeTime(0);

    fader.add(fc);
    QCOMPARE(ua.preGMValues()[15], (char) 0);
    fader.write(&ua);
    QCOMPARE(ua.preGMValues()[15], (char) 255);
}
Esempio n. 11
0
void EFXFixture_Test::stop()
{
    QList<Universe*> ua;
    ua.append(new Universe(0, new GrandMaster()));
    MasterTimerStub mts(m_doc, ua);

    EFX e(m_doc);
    e.setFadeInSpeed(1000);
    e.setFadeOutSpeed(2000);
    EFXFixture* ef = new EFXFixture(&e);
    ef->setHead(GroupHead(0,0));
    e.addFixture(ef);

    Fixture* fxi = m_doc->fixture(0);
    QVERIFY(fxi != NULL);

    e.preRun(&mts);

    // Not started yet
    ef->stop(&mts, ua);
    QCOMPARE(e.m_fader->m_channels.size(), 0);
    QCOMPARE(mts.fader()->m_channels.size(), 0);

    // Start
    ef->start(&mts, ua);
    QCOMPARE(e.m_fader->m_channels.size(), 1);
    FadeChannel fc;
    fc.setFixture(m_doc, fxi->id());
    fc.setChannel(fxi->masterIntensityChannel());
    QVERIFY(e.m_fader->m_channels.contains(fc) == true);

    // Then stop
    ef->stop(&mts, ua);
    QCOMPARE(e.m_fader->m_channels.size(), 0);

    // FadeChannels are handed over to MasterTimer's GenericFader
    QCOMPARE(mts.fader()->m_channels.size(), 1);
    QVERIFY(e.m_fader->m_channels.contains(fc) == false);
    QVERIFY(mts.m_fader->m_channels.contains(fc) == true);
    QCOMPARE(mts.m_fader->m_channels[fc].fadeTime(), uint(2000));

    e.postRun(&mts, ua);
}
Esempio n. 12
0
void GenericFader_Test::adjustIntensity()
{
    UniverseArray ua(512);
    GenericFader fader(m_doc);

    FadeChannel fc;

    // HTP channel
    fc.setFixture(0);
    fc.setChannel(5);
    fc.setStart(0);
    fc.setTarget(250);
    fc.setFadeTime(1000);
    fader.add(fc);

    // LTP channel
    fc.setChannel(0);
    fader.add(fc);

    qreal intensity = 0.5;
    fader.adjustIntensity(intensity);
    QCOMPARE(fader.intensity(), intensity);

    int expected = 0;
    for (int i = MasterTimer::tick(); i <= 1000; i += MasterTimer::tick())
    {
        ua.zeroIntensityChannels();
        fader.write(&ua);

        expected += 5;

        // GenericFader should apply intensity only to HTP channels
        int actual = uchar(ua.preGMValues()[15]);
        int expectedWithIntensity = floor((qreal(expected) * intensity) + 0.5);
        QVERIFY(actual == expectedWithIntensity);

        // No intensity adjustment on LTP channels
        actual = uchar(ua.preGMValues()[10]);
        QVERIFY(actual == expected);
    }
}
Esempio n. 13
0
void EFXFixture_Test::start()
{
    QList<Universe*> ua;
    ua.append(new Universe(0, new GrandMaster()));
    MasterTimerStub mts(m_doc, ua);

    EFX e(m_doc);
    e.setFadeInSpeed(1000);
    e.setFadeOutSpeed(2000);
    EFXFixture* ef = new EFXFixture(&e);
    ef->setHead(GroupHead(0,0));
    e.addFixture(ef);

    Fixture* fxi = m_doc->fixture(0);
    QVERIFY(fxi != NULL);

    e.preRun(&mts);

    // Fade intensity == 0, no need to do fade-in
    ef->setFadeIntensity(0);
    ef->start(&mts, ua);
    QCOMPARE(e.m_fader->m_channels.size(), 0);
    ef->m_started = false;

    // Fade intensity > 0, need to do fade-in
    ef->setFadeIntensity(1);
    ef->start(&mts, ua);
    QCOMPARE(e.m_fader->m_channels.size(), 1);

    FadeChannel fc;
    fc.setFixture(m_doc, fxi->id());
    fc.setChannel(fxi->masterIntensityChannel());
    QVERIFY(e.m_fader->m_channels.contains(fc) == true);
    QCOMPARE(e.m_fader->m_channels[fc].fadeTime(), uint(1000));

    e.postRun(&mts, ua);
}
Esempio n. 14
0
void EFXFixture_Test::start()
{
    UniverseArray array(512 * 4);
    MasterTimerStub mts(m_doc, array);

    EFX e(m_doc);
    e.setFadeInSpeed(1000);
    e.setFadeOutSpeed(2000);
    EFXFixture* ef = new EFXFixture(&e);
    ef->setFixture(0);
    e.addFixture(ef);

    Fixture* fxi = m_doc->fixture(0);
    QVERIFY(fxi != NULL);

    e.preRun(&mts);

    // Fade intensity == 0, no need to do fade-in
    ef->setFadeIntensity(0);
    ef->start(&mts, &array);
    QCOMPARE(e.m_fader->m_channels.size(), 0);
    ef->m_started = false;

    // Fade intensity > 0, need to do fade-in
    ef->setFadeIntensity(1);
    ef->start(&mts, &array);
    QCOMPARE(e.m_fader->m_channels.size(), 1);

    FadeChannel fc;
    fc.setFixture(fxi->id());
    fc.setChannel(fxi->masterIntensityChannel());
    QVERIFY(e.m_fader->m_channels.contains(fc) == true);
    QCOMPARE(e.m_fader->m_channels[fc].fadeTime(), uint(1000));

    e.postRun(&mts, &array);
}
Esempio n. 15
0
void RGBMatrix::updateMapChannels(const RGBMap& map, const FixtureGroup* grp)
{
    quint32 mdAssigned = QLCChannel::invalid();
    quint32 mdFxi = Fixture::invalidId();

    uint fadeTime = 0;
    if (overrideFadeInSpeed() == defaultSpeed())
        fadeTime = fadeInSpeed();
    else
        fadeTime = overrideFadeInSpeed();

    // Create/modify fade channels for ALL pixels in the color map.
    for (int y = 0; y < map.size(); y++)
    {
        for (int x = 0; x < map[y].size(); x++)
        {
            QLCPoint pt(x, y);
            GroupHead grpHead(grp->head(pt));
            Fixture* fxi = doc()->fixture(grpHead.fxi);
            if (fxi == NULL)
                continue;

            if (grpHead.fxi != mdFxi)
            {
                mdAssigned = QLCChannel::invalid();
                mdFxi = grpHead.fxi;
            }

            QLCFixtureHead head = fxi->head(grpHead.head);

            QVector <quint32> rgb = head.rgbChannels();
            QVector <quint32> cmy = head.cmyChannels();
            if (rgb.size() == 3)
            {
                // RGB color mixing
                FadeChannel fc;
                fc.setFixture(doc(), grpHead.fxi);

                fc.setChannel(rgb.at(0));
                fc.setTarget(qRed(map[y][x]));
                insertStartValues(fc, fadeTime);
                m_fader->add(fc);

                fc.setChannel(rgb.at(1));
                fc.setTarget(qGreen(map[y][x]));
                insertStartValues(fc, fadeTime);
                m_fader->add(fc);

                fc.setChannel(rgb.at(2));
                fc.setTarget(qBlue(map[y][x]));
                insertStartValues(fc, fadeTime);
                m_fader->add(fc);
            }
            else if (cmy.size() == 3)
            {
                // CMY color mixing
                QColor col(map[y][x]);

                FadeChannel fc;
                fc.setFixture(doc(), grpHead.fxi);

                fc.setChannel(cmy.at(0));
                fc.setTarget(col.cyan());
                insertStartValues(fc, fadeTime);
                m_fader->add(fc);

                fc.setChannel(cmy.at(1));
                fc.setTarget(col.magenta());
                insertStartValues(fc, fadeTime);
                m_fader->add(fc);

                fc.setChannel(cmy.at(2));
                fc.setTarget(col.yellow());
                insertStartValues(fc, fadeTime);
                m_fader->add(fc);
            }

            if (m_dimmerControl &&
                head.masterIntensityChannel() != QLCChannel::invalid())
            {
                //qDebug() << "RGBMatrix: found dimmer at" << head.masterIntensityChannel();
                // Simple intensity (dimmer) channel
                QColor col(map[y][x]);
                FadeChannel fc;
                fc.setFixture(doc(), grpHead.fxi);
                fc.setChannel(head.masterIntensityChannel());
                if (col.value() == 0 && mdAssigned != head.masterIntensityChannel())
                    fc.setTarget(0);
                else
                {
                    fc.setTarget(255);
                    if (mdAssigned == QLCChannel::invalid())
                        mdAssigned = head.masterIntensityChannel();
                }
                insertStartValues(fc, fadeTime);
                m_fader->add(fc);
            }
        }
    }
}
Esempio n. 16
0
QString Script::handleSetFixture(const QList<QStringList>& tokens, QList<Universe *> universes)
{
    qDebug() << Q_FUNC_INFO;

    if (tokens.size() > 4)
        return QString("Too many arguments");

    bool ok = false;
    quint32 id = 0;
    quint32 ch = 0;
    uchar value = 0;
    double time = 0;

    id = tokens[0][1].toUInt(&ok);
    if (ok == false)
        return QString("Invalid fixture (ID: %1)").arg(tokens[0][1]);

    for (int i = 1; i < tokens.size(); i++)
    {
        QStringList list = tokens[i];
        list[0] = list[0].toLower().trimmed();
        if (list.size() == 2)
        {
            ok = false;
            if (list[0] == "val" || list[0] == "value")
                value = uchar(list[1].toUInt(&ok));
            else if (list[0] == "ch" || list[0] == "channel")
                ch = list[1].toUInt(&ok);
            else if (list[0] == "time")
                time = list[1].toDouble(&ok);
            else
                return QString("Unrecognized keyword: %1").arg(list[0]);

            if (ok == false)
                return QString("Invalid value (%1) for keyword: %2").arg(list[1]).arg(list[0]);
        }
    }

    Doc* doc = qobject_cast<Doc*> (parent());
    Q_ASSERT(doc != NULL);

    Fixture* fxi = doc->fixture(id);
    if (fxi != NULL)
    {
        if (ch < fxi->channels())
        {
            int address = fxi->address() + ch;
            if (address < 512)
            {
                GenericFader* gf = fader();
                Q_ASSERT(gf != NULL);

                FadeChannel fc;
                fc.setFixture(doc, fxi->id());
                fc.setChannel(ch);
                fc.setTarget(value);
                fc.setFadeTime(time);

                // If the script has used the channel previously, it might still be in
                // the bowels of GenericFader so get the starting value from there.
                // Otherwise get it from universes (HTP channels are always 0 then).
                quint32 uni = fc.universe();
                if (gf->channels().contains(fc) == true)
                    fc.setStart(gf->channels()[fc].current());
                else
                    fc.setStart(universes[uni]->preGMValue(address));
                fc.setCurrent(fc.start());

                gf->add(fc);

                return QString();
            }
            else
            {
                return QString("Invalid address: %1").arg(address);
            }
        }
        else
        {
            return QString("Fixture (%1) has no channel number %2").arg(fxi->name()).arg(ch);
        }
    }
    else
    {
        return QString("No such fixture (ID: %1)").arg(id);
    }
}