Created
December 4, 2020 07:20
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Sunrise Effect for WS2812b and ESPHome
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| light: | |
| - platform: neopixelbus | |
| name: Ranné svetlo | |
| type: GRB | |
| pin: GPIO3 | |
| num_leds: 90 | |
| effects: | |
| - addressable_lambda: | |
| name: "Sunrise" | |
| update_interval: 5ms | |
| lambda: |- | |
| static int sunsize = 50; //percentage of the strip that is the "sun" | |
| static int aurorasize = 80; | |
| static int aurora = (aurorasize * it.size()) /100 ; // 80 | |
| static int sun = (sunsize * it.size()) / 100; | |
| static int numLeds = it.size(); | |
| static int fadeStep = 0; | |
| static int currentAurora = 0; | |
| static int currentMiddle = 0; | |
| static int oldMiddle = -1; | |
| static int oldAurora = 0; | |
| static int currentSun = 0; | |
| static int oldSun = -1; | |
| static int numOfCycles = 1024; | |
| static int cycleNumber = 0; | |
| static int delayTime = 50 ; | |
| // To reset static when stopping and starting the effect | |
| // again you can use the initial_run variables | |
| if (initial_run) { | |
| ESP_LOGD("main", "First run, resetting effect"); | |
| fadeStep = 0; | |
| currentAurora = 0; | |
| currentMiddle = 0; | |
| oldMiddle = -1; | |
| oldAurora = 0; | |
| currentSun = 0; | |
| oldSun = -1; | |
| cycleNumber = 150; | |
| it.all() = ESPColor(0,0,0); | |
| } | |
| // Draw ambient | |
| // Target blue color 0 , 102, 146 | |
| if(cycleNumber >= 0 && cycleNumber < 150) { // Initial ambient from black to blue | |
| fadeStep++; | |
| int greenValue = map(fadeStep, 0, 150, 0, 40); | |
| int blueValue = map(fadeStep, 0, 150, 0, 75); | |
| it.all() = ESPColor(0,greenValue,blueValue,0); | |
| delay(delayTime*10); | |
| } | |
| if (cycleNumber == 150 ) { | |
| fadeStep = 0; | |
| } | |
| // Red target 90,47 ,0 | |
| if(cycleNumber >= 150 && cycleNumber < 400) { // from blue to redish yellow | |
| fadeStep++; | |
| int redValue = map(fadeStep, 0, 250, 0, 70); | |
| int greenValue = map(fadeStep, 0, 250, 0, 37); | |
| int blueValue = map(fadeStep, 0, 250, 0, 0); | |
| it.all() = ESPColor(redValue,greenValue,blueValue,0); | |
| delay(delayTime*10); | |
| } | |
| if (cycleNumber == 400 ) { | |
| fadeStep = 0; | |
| } | |
| // Aurora target 255,119,46 | |
| if(cycleNumber > 400 && cycleNumber < 1024 && currentAurora <= numLeds) { // Draw aurora | |
| fadeStep++; | |
| currentAurora = map(cycleNumber-400, 0, 100, 0, numLeds); | |
| if(currentAurora % 2 != 0) { | |
| currentAurora--; | |
| } | |
| //ESP_LOGD("main", "Aurora :(%d)", currentAurora); | |
| int auroraStart = (numLeds/2)-(currentAurora/2); | |
| int newAuroraLeft = auroraStart-1; | |
| int newAuroraRight = auroraStart+currentAurora; | |
| if(newAuroraLeft >= 0 && newAuroraRight <= numLeds) { | |
| int redValue = map(fadeStep, 0, 100, 70, constrain( 255 - currentAurora * 1.2, 0, 255)); | |
| int greenValue = map(fadeStep, 0, 100, 37, constrain( 119 - currentAurora * 1.2, 0, 255)); | |
| int blueValue = map(fadeStep, 0, 100, 0, 46); | |
| //redValue = constrain(redValue - currentAurora * 2, 0, 255); | |
| //greenValue = constrain(greenValue - currentAurora *2 , 0 ,255); | |
| it[newAuroraRight] = ESPColor(redValue, greenValue,0,0); | |
| it[newAuroraLeft] = ESPColor(redValue, greenValue,0,0); | |
| } | |
| //it.range(auroraStart, auroraStart+currentAurora) = ESPColor( 252, 108,45,0); | |
| oldAurora = currentAurora; | |
| if (currentAurora >= 6 ) { // Start rising the sun | |
| // Draw sun | |
| currentSun = map(cycleNumber-401, 0, 100, 0, sun); | |
| if(currentSun % 2 != 0) | |
| { | |
| currentSun--; | |
| } | |
| //ESP_LOGD("main", "sun:(%d)", currentSun); | |
| if(currentSun != oldSun) { | |
| int sunStart = (numLeds/2)-(currentSun/2); | |
| int newSunLeft = sunStart-1; | |
| int newSunRight = sunStart+currentSun; | |
| if(newSunLeft >= 0 && newSunRight <= numLeds ) { | |
| int sunRedValue = map(fadeStep, 0, 100, 255, 255); | |
| int sunGreenValue = map(fadeStep, 0, 100, 119, constrain( 189 - (currentSun-8) * 2, 0, 255)); | |
| int sunBlueValue = map(fadeStep, 0, 100, 0, 0); | |
| //ESP_LOGD("main", "sun:(%d)", sunRedValue); | |
| it[newSunLeft] = ESPColor(sunRedValue, sunGreenValue,0,0); | |
| it[newSunRight] = ESPColor(sunRedValue, sunGreenValue,0,0); | |
| //it.range(sunStart, sunStart+currentSun) = ESPColor( 255, 187,0,0); | |
| } | |
| } | |
| if (fadeStep == 98) { | |
| oldSun = currentSun; | |
| } | |
| } | |
| if(currentSun >= 3 ){ | |
| // Draw white middle | |
| currentMiddle = map(cycleNumber-420, 0, 100, 0, sun/2); | |
| if(currentMiddle % 2 != 0) | |
| { | |
| currentMiddle--; | |
| } | |
| //ESP_LOGD("main", "middle:(%d)", currentMiddle); | |
| if(currentMiddle != oldMiddle) { | |
| int sunStart = (numLeds/2)-(currentMiddle/2); | |
| int newSunLeft = sunStart-1; | |
| int newSunRight = sunStart+currentMiddle; | |
| if(newSunLeft >= 0 && newSunRight <= numLeds ) { | |
| int sunRedValue = map(fadeStep, 0, 100, 255, 250); | |
| int sunGreenValue = map(fadeStep, 0, 100, 189, constrain( 223 - (currentMiddle-3) * 2, 0, 255)); | |
| int sunBlueValue = map(fadeStep, 0, 100, 0, constrain( 117 - (currentMiddle-3) * 2, 0, 255)); | |
| //ESP_LOGD("main", "sun:(%d)", sunRedValue); | |
| it[newSunLeft] = ESPColor(sunRedValue, sunGreenValue,sunBlueValue,0); | |
| it[newSunRight] = ESPColor(sunRedValue, sunGreenValue,sunBlueValue,0); | |
| //it.range(sunStart, sunStart+currentSun) = ESPColor( 255, 187,0,0); | |
| } | |
| } | |
| if (fadeStep == 98) { | |
| oldMiddle = currentMiddle; | |
| } | |
| } | |
| delay(delayTime); | |
| } | |
| if( cycleNumber <= 400) { | |
| cycleNumber++; | |
| ESP_LOGD("main", "Sunrise cycle (%d) / (%d)", cycleNumber,numOfCycles); | |
| } | |
| if(cycleNumber < numOfCycles && cycleNumber >= 399 && fadeStep >= 100 ) { | |
| cycleNumber++; | |
| cycleNumber++; | |
| fadeStep = 0; | |
| ESP_LOGD("main", "Sunrise cycle (%d) / (%d)", cycleNumber,numOfCycles); | |
| } | |
| if (currentAurora >= numLeds && cycleNumber < numOfCycles ) { // End of sunrise, start to brighten all | |
| cycleNumber++; | |
| delay(500); | |
| if (cycleNumber >= 750 ) { | |
| for (int i = 0; i < it.size() ; i++) { | |
| ESPColor actualColor = it[i].get(); | |
| //ESP_LOGD("main", "Color :(%d)", actual.r); | |
| actualColor.r = constrain( actualColor.r + cycleNumber / 200, 0, 254); | |
| actualColor.g = constrain( actualColor.g + cycleNumber / 200, 0, 254); | |
| actualColor.b = constrain( actualColor.b + cycleNumber / 200, 0, 254); | |
| it[i] = ESPColor(actualColor); | |
| //ESP_LOGD("main", "Color(%d):(%d,%d,%d)", i,actualColor.r,actualColor.g,actualColor.b); | |
| if (actualColor.r >=254 && actualColor.g >=254 && actualColor.b >=254 ) { // everything is white, stop | |
| cycleNumber = 1024; | |
| ESP_LOGD("main", "Sunrise has rised "); | |
| } | |
| } | |
| } | |
| ESP_LOGD("main", "Sunrise cycle (%d) / (%d)", cycleNumber,numOfCycles); | |
| } |
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Hi, this lambda code is brilliant, but I don't understand anything about it.
When I run it, and it starts ramping up LEDs (around Sunrise cycle 400) it first ramp up the brightness of the LED for fiveish seconds but then jumps back to dimed and does the same over and over for 3 times (two sunrise cycles are counted every time) until it stays bright and the next LED take over doing the same.
I only have 12 LED's and hooked up one more module so I used 24, tried to change some in the code (but don't know how it works) everything was without success.
Do you have any tips on what I can change in the code to make LED ramp up slowly and only once?
Thanks!
Richard