Ejemplo n.º 1
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);
    }
}
Ejemplo n.º 2
0
void CueStack::postRun(MasterTimer* timer)
{
    qDebug() << Q_FUNC_INFO;

    Q_ASSERT(timer != NULL);
    Q_ASSERT(m_fader != NULL);

    // Bounce all intensity channels to MasterTimer's fader for zeroing
    QHashIterator <FadeChannel,FadeChannel> it(m_fader->channels());
    while (it.hasNext() == true)
    {
        it.next();
        FadeChannel fc = it.value();

        if (fc.group(doc()) == QLCChannel::Intensity)
        {
            fc.setStart(fc.current(intensity()));
            fc.setTarget(0);
            fc.setElapsed(0);
            fc.setReady(false);
            fc.setFadeTime(fadeOutSpeed());
            timer->fader()->add(fc);
        }
    }

    m_currentIndex = -1;
    delete m_fader;
    m_fader = NULL;

    emit currentCueChanged(m_currentIndex);
    emit stopped();
}
Ejemplo n.º 3
0
void FadeChannel_Test::ready()
{
    FadeChannel ch;
    QVERIFY(ch.isReady() == false);
    ch.setReady(true);
    QVERIFY(ch.isReady() == true);
}
Ejemplo n.º 4
0
void RGBMatrix::insertStartValues(FadeChannel& fc, uint fadeTime) const
{
    Q_ASSERT(m_fader != NULL);

    // To create a nice and smooth fade, get the starting value from
    // m_fader's existing FadeChannel (if any). Otherwise just assume
    // we're starting from zero.
    QHash <FadeChannel,FadeChannel>::const_iterator oldChannelIterator = m_fader->channels().find(fc);
    if (oldChannelIterator != m_fader->channels().end())
    {
        FadeChannel old = oldChannelIterator.value();
        fc.setCurrent(old.current());
        fc.setStart(old.current());
    }
    else
    {
        fc.setCurrent(0);
        fc.setStart(0);
    }

    // The channel is not ready yet
    fc.setReady(false);

    // Fade in speed is used for all non-zero targets
    if (fc.target() == 0)
        fc.setFadeTime(fadeOutSpeed());
    else
    {
        fc.setFadeTime(fadeTime);
    }
}
Ejemplo n.º 5
0
void RGBMatrix::insertStartValues(FadeChannel& fc) const
{
    Q_ASSERT(m_fader != NULL);

    // To create a nice and smooth fade, get the starting value from
    // m_fader's existing FadeChannel (if any). Otherwise just assume
    // we're starting from zero.
    if (m_fader->channels().contains(fc) == true)
    {
        FadeChannel old = m_fader->channels()[fc];
        fc.setCurrent(old.current());
        fc.setStart(old.current());
    }
    else
    {
        fc.setCurrent(0);
        fc.setStart(0);
    }

    // The channel is not ready yet
    fc.setReady(false);

    // Fade in speed is used for all non-zero targets
    if (fc.target() == 0)
        fc.setFadeTime(fadeOutSpeed());
    else
        fc.setFadeTime(fadeInSpeed());
}
Ejemplo n.º 6
0
void RGBMatrix::postRun(MasterTimer* timer, QList<Universe *> universes)
{
    if (m_fader != NULL)
    {
        QHashIterator <FadeChannel,FadeChannel> it(m_fader->channels());
        while (it.hasNext() == true)
        {
            it.next();
            FadeChannel fc = it.value();
            // fade out only intensity channels
            if (fc.group(doc()) != QLCChannel::Intensity)
                continue;

            bool canFade = true;
            Fixture *fixture = doc()->fixture(fc.fixture());
            if (fixture != NULL)
                canFade = fixture->channelCanFade(fc.channel());
            fc.setStart(fc.current(getAttributeValue(Intensity)));
            fc.setCurrent(fc.current(getAttributeValue(Intensity)));

            fc.setElapsed(0);
            fc.setReady(false);
            if (canFade == false)
            {
                fc.setFadeTime(0);
                fc.setTarget(fc.current(getAttributeValue(Intensity)));
            }
            else
            {
                if (overrideFadeOutSpeed() == defaultSpeed())
                    fc.setFadeTime(fadeOutSpeed());
                else
                    fc.setFadeTime(overrideFadeOutSpeed());
                fc.setTarget(0);
            }
            timer->faderAdd(fc);
        }

        delete m_fader;
        m_fader = NULL;
    }

    {
        QMutexLocker algorithmLocker(&m_algorithmMutex);
        if (m_algorithm != NULL)
            m_algorithm->postRun();
    }

    Function::postRun(timer, universes);
}
Ejemplo n.º 7
0
void FadeChannel_Test::nextStep()
{
    FadeChannel fc;
    fc.setStart(0);
    fc.setTarget(250);

    fc.setFadeTime(1000);

    for (int i = 5; i < 250; i += 5)
    {
        int value = fc.nextStep(MasterTimer::tick());
        QCOMPARE(value, i);
    }

    fc.setCurrent(0);
    fc.setReady(false);
    fc.setFadeTime(0);
    fc.setElapsed(0);
    QCOMPARE(fc.nextStep(MasterTimer::tick()), uchar(250));

    fc.setCurrent(0);
    fc.setReady(false);
    fc.setFadeTime(MasterTimer::tick() / 5);
    fc.setElapsed(0);
    QCOMPARE(fc.nextStep(MasterTimer::tick()), uchar(250));

    fc.setCurrent(0);
    fc.setReady(false);
    fc.setFadeTime(1 * MasterTimer::tick());
    fc.setElapsed(0);
    QCOMPARE(fc.nextStep(MasterTimer::tick()), uchar(250));

    fc.setCurrent(0);
    fc.setReady(false);
    fc.setFadeTime(2 * MasterTimer::tick());
    fc.setElapsed(0);
    QCOMPARE(fc.nextStep(MasterTimer::tick()), uchar(125));
    QCOMPARE(fc.nextStep(MasterTimer::tick()), uchar(250));

    fc.setCurrent(0);
    fc.setReady(false);
    fc.setFadeTime(5 * MasterTimer::tick());
    fc.setElapsed(0);
    QCOMPARE(fc.nextStep(MasterTimer::tick()), uchar(50));
    QCOMPARE(fc.nextStep(MasterTimer::tick()), uchar(100));
    QCOMPARE(fc.nextStep(MasterTimer::tick()), uchar(150));
    QCOMPARE(fc.nextStep(MasterTimer::tick()), uchar(200));
    QCOMPARE(fc.nextStep(MasterTimer::tick()), uchar(250));

    // Maximum elapsed() reached
    fc.setCurrent(0);
    fc.setTarget(255);
    fc.setReady(false);
    fc.setElapsed(UINT_MAX);
    fc.setFadeTime(5 * MasterTimer::tick());
    QCOMPARE(fc.nextStep(MasterTimer::tick()), uchar(255));
    QCOMPARE(fc.elapsed(), UINT_MAX);
    QCOMPARE(fc.nextStep(MasterTimer::tick()), uchar(255));
    QCOMPARE(fc.elapsed(), UINT_MAX);
    QCOMPARE(fc.nextStep(MasterTimer::tick()), uchar(255));
    QCOMPARE(fc.elapsed(), UINT_MAX);
    QCOMPARE(fc.nextStep(MasterTimer::tick()), uchar(255));
    QCOMPARE(fc.elapsed(), UINT_MAX);
    QCOMPARE(fc.nextStep(MasterTimer::tick()), uchar(255));
    QCOMPARE(fc.elapsed(), UINT_MAX);

    // Channel marked as ready
    fc.setReady(true);
    fc.setElapsed(0);
    QCOMPARE(fc.nextStep(MasterTimer::tick()), uchar(255));
    QCOMPARE(fc.elapsed(), MasterTimer::tick() * 1);
    QCOMPARE(fc.nextStep(MasterTimer::tick()), uchar(255));
    QCOMPARE(fc.elapsed(), MasterTimer::tick() * 2);
    QCOMPARE(fc.nextStep(MasterTimer::tick()), uchar(255));
    QCOMPARE(fc.elapsed(), MasterTimer::tick() * 3);
}