WLED/wled00/wled08_led.ino

251 lines
5.7 KiB
Arduino
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/*
* LED methods
*/
void toggleOnOff()
{
if (bri == 0)
{
bri = briLast;
} else
{
briLast = bri;
bri = 0;
}
}
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void setAllLeds() {
if (!realtimeActive || !arlsForceMaxBri)
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{
double d = briT*briMultiplier;
int val = d/100;
if (val > 255) val = 255;
if (useGammaCorrectionBri)
{
strip.setBrightness(gamma8[val]);
} else {
strip.setBrightness(val);
}
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}
if (!enableSecTransition)
{
for (byte i = 0; i<3; i++)
{
colSecT[i] = colSec[i];
}
whiteSecT = whiteSec;
}
if (autoRGBtoRGBW)
{
colorRGBtoRGBW(colT,&whiteT);
colorRGBtoRGBW(colSecT,&whiteSecT);
}
if (useGammaCorrectionRGB)
{
strip.setColor(gamma8[colT[0]], gamma8[colT[1]], gamma8[colT[2]], gamma8[whiteT]);
strip.setSecondaryColor(gamma8[colSecT[0]], gamma8[colSecT[1]], gamma8[colSecT[2]], gamma8[whiteSecT]);
} else {
strip.setColor(colT[0], colT[1], colT[2], whiteT);
strip.setSecondaryColor(colSecT[0], colSecT[1], colSecT[2], whiteSecT);
}
}
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void setLedsStandard()
{
for (byte i = 0; i<3; i++)
{
colOld[i] = col[i];
colT[i] = col[i];
colSecOld[i] = colSec[i];
colSecT[i] = colSec[i];
}
whiteOld = white;
briOld = bri;
whiteSecOld = whiteSec;
whiteT = white;
briT = bri;
whiteSecT = whiteSec;
setAllLeds();
}
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bool colorChanged()
{
for (int i = 0; i < 3; i++)
{
if (col[i] != colIT[i]) return true;
if (colSec[i] != colSecIT[i]) return true;
}
if (white != whiteIT || whiteSec != whiteSecIT) return true;
if (bri != briIT) return true;
return false;
}
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void colorUpdated(int callMode)
{
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//call for notifier -> 0: init 1: direct change 2: button 3: notification 4: nightlight 5: other (No notification)
// 6: fx changed 7: hue 8: preset cycle 9: blynk
bool fxChanged = strip.setEffectConfig(effectCurrent, effectSpeed, effectIntensity, effectPalette);
if (!colorChanged())
{
if (nightlightActive && !nightlightActiveOld && callMode != 3 && callMode != 5)
{
notify(4); return;
}
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else if (fxChanged) notify(6);
return; //no change
}
if (callMode != 5 && nightlightActive && nightlightFade)
{
briNlT = bri;
nightlightDelayMs -= (millis() - nightlightStartTime);
nightlightStartTime = millis();
}
colIT[0] = col[0];
colIT[1] = col[1];
colIT[2] = col[2];
colSecIT[0] = colSec[0];
colSecIT[1] = colSec[1];
colSecIT[2] = colSec[2];
whiteIT = white;
whiteSecIT = whiteSec;
briIT = bri;
if (bri > 0) briLast = bri;
notify(callMode);
if (fadeTransition)
{
//set correct delay if not using notification delay
if (callMode != 3) transitionDelayTemp = transitionDelay;
if (transitionDelayTemp == 0) {setLedsStandard(); strip.trigger(); return;}
if (transitionActive)
{
colOld[0] = colT[0];
colOld[1] = colT[1];
colOld[2] = colT[2];
whiteOld = whiteT;
colSecOld[0] = colSecT[0];
colSecOld[1] = colSecT[1];
colSecOld[2] = colSecT[2];
whiteSecOld = whiteSecT;
briOld = briT;
tperLast = 0;
}
strip.setTransitionMode(true);
transitionActive = true;
transitionStartTime = millis();
} else
{
setLedsStandard();
strip.trigger();
}
if (callMode == 8) return;
//only update Blynk and mqtt every 2 seconds to reduce lag
if (millis() - lastInterfaceUpdate <= 2000)
{
interfaceUpdateCallMode = callMode;
return;
}
updateInterfaces(callMode);
}
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void updateInterfaces(uint8_t callMode)
{
if (callMode != 9 && callMode != 5) updateBlynk();
publishMQTT();
lastInterfaceUpdate = millis();
}
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void handleTransitions()
{
//handle still pending interface update
if (interfaceUpdateCallMode && millis() - lastInterfaceUpdate > 2000)
{
updateInterfaces(interfaceUpdateCallMode);
interfaceUpdateCallMode = 0; //disable
}
if (transitionActive && transitionDelayTemp > 0)
{
float tper = (millis() - transitionStartTime)/(float)transitionDelayTemp;
if (tper >= 1.0)
{
strip.setTransitionMode(false);
transitionActive = false;
tperLast = 0;
setLedsStandard();
return;
}
if (tper - tperLast < 0.004)
{
return;
}
tperLast = tper;
if (fadeTransition)
{
for (byte i = 0; i<3; i++)
{
colT[i] = colOld[i]+((col[i] - colOld[i])*tper);
colSecT[i] = colSecOld[i]+((colSec[i] - colSecOld[i])*tper);
}
whiteT = whiteOld +((white - whiteOld )*tper);
whiteSecT = whiteSecOld +((whiteSec - whiteSecOld )*tper);
briT = briOld +((bri - briOld )*tper);
}
if (fadeTransition) setAllLeds();
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}
}
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void handleNightlight()
{
if (nightlightActive)
{
if (!nightlightActiveOld) //init
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{
nightlightStartTime = millis();
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nightlightDelayMs = (int)(nightlightDelayMins*60000);
nightlightActiveOld = true;
briNlT = bri;
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}
float nper = (millis() - nightlightStartTime)/((float)nightlightDelayMs);
if (nightlightFade)
{
bri = briNlT + ((nightlightTargetBri - briNlT)*nper);
colorUpdated(5);
}
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if (nper >= 1)
{
nightlightActive = false;
if (!nightlightFade)
{
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bri = nightlightTargetBri;
colorUpdated(5);
}
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updateBlynk();
if (bri == 0) briLast = briNlT;
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}
} else if (nightlightActiveOld) //early de-init
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{
nightlightActiveOld = false;
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}
//also handle preset cycle here
if (presetCyclingEnabled && (millis() - presetCycledTime > presetCycleTime))
{
applyPreset(presetCycCurr,presetApplyBri,presetApplyCol,presetApplyFx);
presetCycCurr++; if (presetCycCurr > presetCycleMax) presetCycCurr = presetCycleMin;
if (presetCycCurr > 25) presetCycCurr = 1;
colorUpdated(8);
presetCycledTime = millis();
}
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}