Example #1
0
void OlaDevice::applyChannelValueSteps(bool aForDimming, double aStepSize)
{
  // generic device, show changed channels
  if (olaType==ola_dimmer) {
    // single channel dimmer
    LightBehaviourPtr l = boost::dynamic_pointer_cast<LightBehaviour>(output);
    double w = l->brightnessForHardware()*255/100;
    setDMXChannel(whiteChannel,(DmxValue)w);
    // next step
    if (l->brightnessTransitionStep(aStepSize)) {
      ALOG(LOG_DEBUG, "transitional DMX512 value %d=%d", whiteChannel, (int)w);
      // not yet complete, schedule next step
      transitionTicket = MainLoop::currentMainLoop().executeOnce(
        boost::bind(&OlaDevice::applyChannelValueSteps, this, aForDimming, aStepSize),
        TRANSITION_STEP_TIME
      );
      return; // will be called later again
    }
    if (!aForDimming) {
      ALOG(LOG_INFO, "final DMX512 channel %d=%d", whiteChannel, (int)w);
    }
    l->brightnessApplied(); // confirm having applied the new brightness
  }
  else if (olaType==ola_fullcolordimmer) {
    // RGB, RGBW or RGBWA dimmer
    RGBColorLightBehaviourPtr cl = boost::dynamic_pointer_cast<RGBColorLightBehaviour>(output);
    MovingLightBehaviourPtr ml = boost::dynamic_pointer_cast<MovingLightBehaviour>(output);
    // RGB lamp, get components
    double r,g,b;
    double w = 0;
    double a = 0;
    if (whiteChannel!=dmxNone) {
      if (amberChannel!=dmxNone) {
        // RGBW
        cl->getRGBWA(r, g, b, w, a, 255);
        setDMXChannel(amberChannel,(DmxValue)a);
      }
      else {
        // RGBW
        cl->getRGBW(r, g, b, w, 255);
      }
      setDMXChannel(whiteChannel,(DmxValue)w);
    }
    else {
      // RGB
      cl->getRGB(r, g, b, 255); // get brightness per R,G,B channel
    }
    // There's always RGB
    setDMXChannel(redChannel,(DmxValue)r);
    setDMXChannel(greenChannel,(DmxValue)g);
    setDMXChannel(blueChannel,(DmxValue)b);
    // there might be position as well
    double h = 0;
    double v = 0;
    if (ml) {
      h = ml->horizontalPosition->getTransitionalValue()/100*255;
      setDMXChannel(hPosChannel,(DmxValue)h);
      v = ml->verticalPosition->getTransitionalValue()/100*255;
      setDMXChannel(vPosChannel,(DmxValue)v);
      // step position
      ml->positionTransitionStep(aStepSize);
    }
    // next step
    if (cl->colorTransitionStep(aStepSize)) {
      ALOG(LOG_DEBUG,
        "transitional DMX512 values R(%hd)=%d, G(%hd)=%d, B(%hd)=%d, W(%hd)=%d, A(%hd)=%d, H(%hd)=%d, V(%hd)=%d",
        redChannel, (int)r, greenChannel, (int)g, blueChannel, (int)b,
        whiteChannel, (int)w, amberChannel, (int)a,
        hPosChannel, (int)h, vPosChannel, (int)v
      );
      // not yet complete, schedule next step
      transitionTicket = MainLoop::currentMainLoop().executeOnce(
        boost::bind(&OlaDevice::applyChannelValueSteps, this, aForDimming, aStepSize),
        TRANSITION_STEP_TIME
      );
      return; // will be called later again
    }
    if (!aForDimming) {
      ALOG(LOG_INFO,
        "final DMX512 values R(%hd)=%d, G(%hd)=%d, B(%hd)=%d, W(%hd)=%d, A(%hd)=%d, H(%hd)=%d, V(%hd)=%d",
        redChannel, (int)r, greenChannel, (int)g, blueChannel, (int)b,
        whiteChannel, (int)w, amberChannel, (int)a,
        hPosChannel, (int)h, vPosChannel, (int)v
      );
    }
  }
}
Example #2
0
void AnalogIODevice::applyChannelValueSteps(bool aForDimming, double aStepSize)
{
  // generic device, show changed channels
  if (analogIOType==analogio_dimmer) {
    // single channel PWM dimmer
    LightBehaviourPtr l = boost::dynamic_pointer_cast<LightBehaviour>(output);
    bool moreSteps = l->brightnessTransitionStep(aStepSize);
    double w = l->brightnessForHardware();
    double pwm = l->brightnessToPWM(w, 100);
    analogIO->setValue(pwm);
    // next step
    if (moreSteps) {
      ALOG(LOG_DEBUG, "AnalogIO transitional brightness value: %.2f", w);
      // not yet complete, schedule next step
      timerTicket = MainLoop::currentMainLoop().executeOnce(
        boost::bind(&AnalogIODevice::applyChannelValueSteps, this, aForDimming, aStepSize),
        TRANSITION_STEP_TIME
      );
      return; // will be called later again
    }
    if (!aForDimming) ALOG(LOG_INFO, "AnalogIO final PWM value: %.2f", w);
  }
  else if (analogIOType==analogio_rgbdimmer) {
    // three channel RGB PWM dimmer
    RGBColorLightBehaviourPtr cl = boost::dynamic_pointer_cast<RGBColorLightBehaviour>(output);
    bool moreSteps = cl->brightnessTransitionStep(aStepSize);
    if (cl->colorTransitionStep(aStepSize)) moreSteps = true;
    // RGB lamp, get components
    double r, g, b, pwm;
    double w = 0;
    if (analogIO4) {
      // RGBW lamp
      cl->getRGBW(r, g, b, w, 100); // get brightness for R,G,B,W channels
      pwm = cl->brightnessToPWM(w, 100);
      analogIO4->setValue(pwm);
    }
    else {
      // RGB only
      cl->getRGB(r, g, b, 100); // get brightness for R,G,B channels
    }
    // - red
    pwm = cl->brightnessToPWM(r, 100);
    analogIO->setValue(pwm);
    // - green
    pwm = cl->brightnessToPWM(g, 100);
    analogIO2->setValue(pwm);
    // - blue
    pwm = cl->brightnessToPWM(b, 100);
    analogIO3->setValue(pwm);
    // next step
    if (moreSteps) {
      ALOG(LOG_DEBUG, "AnalogIO transitional RGBW values: R=%.2f G=%.2f, B=%.2f, W=%.2f", r, g, b, w);
      // not yet complete, schedule next step
      timerTicket = MainLoop::currentMainLoop().executeOnce(
        boost::bind(&AnalogIODevice::applyChannelValueSteps, this, aForDimming, aStepSize),
        TRANSITION_STEP_TIME
      );
      return; // will be called later again
    }
    if (!aForDimming) ALOG(LOG_INFO, "AnalogIO final RGBW values: R=%.2f G=%.2f, B=%.2f, W=%.2f", r, g, b, w);
  }
}