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@ -17,11 +17,6 @@ void setup() |
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// WIFI
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setupWifi(); |
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// MQTT
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client.setServer(MQTT_SERVER, MQTT_PORT); |
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client.setCallback(callbackMQTT); |
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testConnectMQTT(); |
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// LED
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brightness = LED_BRIGHTNESS_DEFAULT; |
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color = LED_COLOR_DEFAULT; |
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@ -29,6 +24,7 @@ void setup() |
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ledEffect = LED_EFFECT_ERROR; |
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ledState = false; |
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// LED
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LEDS.addLeds<LED_CHIPSET,LED_PIN, LED_COLOR_ORDER>(leds, LED_NUM).setCorrection(TypicalSMD5050); |
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ledBlackAll(); |
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FastLED.setBrightness(brightness); |
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@ -37,6 +33,12 @@ void setup() |
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currentPalette = RainbowColors_p; |
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currentBlending = LINEARBLEND; |
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//////////////////////////////// ColorPalette ///////////////////////////////
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// MQTT
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client.setServer(MQTT_SERVER, MQTT_PORT); |
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client.setCallback(callbackMQTT); |
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testConnectMQTT(); |
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Serial.println("Ready"); |
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/* MQTT
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@ -76,17 +78,20 @@ void testConnectMQTT() |
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while (!client.connected()) { |
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Serial.print("Connexion au serveur MQTT... "); |
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if (client.connect("ESP8266Client", MQTT_USER, MQTT_PASS)) { |
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Serial.print("OK\nSend Current State"); |
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mqttSendState(); |
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mqttSendSpeedState(); |
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mqttSendBrightnessState(); |
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mqttSendEffectState(); |
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mqttSendColorState(); |
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Serial.print("OK\nSubscribe"); |
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client.subscribe(MQTT_LED_COMMAND); |
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mqttSendState(); |
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client.subscribe(MQTT_LED_EFFECT_COMMAND); |
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//mqttSendEffectState();
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client.subscribe(MQTT_LED_BRIGHTNESS_COMMAND); |
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mqttSendBrightnessState(); |
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client.subscribe(MQTT_LED_SPEED_COMMAND); |
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//mqttSendSpeedState();
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client.subscribe(MQTT_LED_COLOR_COMMAND); |
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//mqttSendColorState();
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Serial.println(" OK"); |
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} else { |
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Serial.print("KO, erreur : "); |
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@ -124,11 +129,11 @@ void callbackMQTT(char* topic, byte* payload, unsigned int length) |
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// Si on ne repasse pas tout à noir, cela peut faire des effets surprenants
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ledBlackAll(); |
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ledEffect = msgString; |
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client.publish(MQTT_LED_EFFECT_STATE, message_buff, true); |
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mqttSendEffectState(); |
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} else if (stopic == MQTT_LED_BRIGHTNESS_COMMAND) { |
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brightness = msgString.toInt(); |
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FastLED.setBrightness(brightness); |
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client.publish(MQTT_LED_BRIGHTNESS_STATE, message_buff, true); |
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mqttSendBrightnessState(); |
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} else if (stopic == MQTT_LED_COLOR_COMMAND) { |
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// Sample : 134,168,255
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int red = msgString.substring(0, msgString.indexOf(',')).toInt(); |
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@ -136,20 +141,16 @@ void callbackMQTT(char* topic, byte* payload, unsigned int length) |
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int blue = msgString.substring(msgString.lastIndexOf(',') + 1).toInt(); |
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color=((red <<16)|(green <<8)|blue); |
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client.publish(MQTT_LED_COLOR_STATE, message_buff, true); |
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mqttSendColorState(); |
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} else if (stopic == MQTT_LED_SPEED_COMMAND) { |
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speed = msgString.toInt(); |
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client.publish(MQTT_LED_SPEED_STATE, message_buff, true); |
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mqttSendSpeedState(); |
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} |
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} |
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void mqttSendState() |
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{ |
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if (ledState) { |
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client.publish(MQTT_LED_STATE, "ON", true); |
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} else { |
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client.publish(MQTT_LED_STATE, "OFF", true); |
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} |
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client.publish(MQTT_LED_STATE, (ledState) ? "ON": "OFF", true); |
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} |
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void mqttSendEffectState() |
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@ -175,14 +176,13 @@ void mqttSendSpeedState() |
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void mqttSendColorState() |
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{ |
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/*
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int red = msgString.substring(0, msgString.indexOf(',')).toInt(); |
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int green = msgString.substring(msgString.indexOf(',') + 1, msgString.lastIndexOf(',')).toInt(); |
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int blue = msgString.substring(msgString.lastIndexOf(',') + 1).toInt(); |
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color=((red <<16)|(green <<8)|blue); |
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TODO: client.publish(MQTT_LED_COLOR_STATE, message_buff, true); |
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avec color |
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*/ |
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int red = color>>16 & 0xFF; |
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int green = color>>8 & 0xFF; |
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int blue = color & 0xFF; |
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char buff[12]; |
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sprintf(buff, "%i,%i,%i\0", red, green, blue); |
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client.publish(MQTT_LED_COLOR_STATE, buff, true); |
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} |
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// LED
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@ -237,10 +237,10 @@ void ledCylon() |
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} |
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// Il faut nettoyer certaines cases avant la prochaine loop
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if ((LED_NUM - 2) >= 0) { |
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leds[LED_NUM - 2] = color; |
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leds[LED_NUM - 2].fadeLightBy(220); |
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} |
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if ((LED_NUM - 2) >= 0) { |
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leds[LED_NUM - 2] = color; |
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leds[LED_NUM - 2].fadeLightBy(220); |
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} |
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if ((LED_NUM - 1) >= 0 ) { |
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leds[LED_NUM - 1] = CRGB::Black; |
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} |
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@ -316,8 +316,8 @@ void ledFullColor() |
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// 0.36787944 ?? censé correspondre au minimum
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// 108.4 ?? censé correspondre au maximum
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int breath = (exp(sin(millis() / 2000.0 * PI)) - 0.3678794) * 108.4; |
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Serial.print(breath); |
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Serial.println(" / 255"); |
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//Serial.print(breath);
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//Serial.println(" / 255");
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FastLED.setBrightness(breath); |
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FastLED.delay(100 / speed); |
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} |
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