uint qHash(const FadeChannel& key)
{
uint hash = key.fixture() << 16;
hash = hash | (key.channel() & 0xFFFF);
hash = hash & (~0U);
return hash;
}
void CueStack::writeDMX(MasterTimer* timer, QList<Universe*> ua)
{
Q_UNUSED(timer);
if (isFlashing() == true && m_cues.size() > 0)
{
QHashIterator <uint,uchar> it(m_cues.first().values());
while (it.hasNext() == true)
{
it.next();
FadeChannel fc;
fc.setChannel(it.key());
fc.setTarget(it.value());
int uni = floor(fc.channel() / 512);
if (uni < ua.size())
ua[uni]->write(fc.channel() - (uni * 512), fc.target());
}
}
}
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);
}
