esp-deckenlicht/LEDstoffroehre.ino

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#include <Homie.h>
#include <ArduinoOTA.h>
//curl -X PUT http://homie.config/config -d @config.json --header "Content-Type: application/json"
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// homie/ledstoffroehre/lamp/fluorescent0/set
#define PIN_LAMP0_EDGE D5
#define PIN_LAMP0 D6
#define PIN_LAMP1_EDGE D7
#define PIN_LAMP1 D8
#define PIN_SENSOR D0
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#define PIN_BUTTON0 D2
#define PIN_BUTTON1 D3
//#define FULL 255
//#define LOWER 50
//#define MINIMUM 1
//#define OFF 0
//int timeout = (1000 - 50);
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#define FW_NAME "ledstoffroehre"
#define FW_VERSION "1.0.1"
int lamp0e=0;
int lamp0=0;
int lamp1e=0;
int lamp1=0;
long fluorescentLastUpdated=0; //global
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#define FLUORESCENTUPDATEINTERVAL 20
long fluorescent0LastActivated = 0;
long fluorescent1LastActivated = 0;
int setbrightness0 = 0;
int setbrightness1 = 0;
bool fluorescent0Active=false;
bool fluorescent1Active=false;
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int fluorescent0Quality=50; // 0 to 100
int fluorescent1Quality=50;
#define FLUORESCENQUALITYMAX 100
#define FLUORESCENTTEMPMAX 1000
int fluorescent0Temp=0;
int fluorescent1Temp=0;
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#define GLOWBRIGHTNESS 10
int flashprobability0=300; //the higher the lesser
int flashprobabilitymin0=100; //the higher the lesser (at peak)
int tempincreasemax0=10; //the higher the faster lightup
int flashprobability1=300; //the higher the lesser
int flashprobabilitymin1=100; //the higher the lesser (at peak)
int tempincreasemax1=10; //the higher the faster lightup
#define FLASHPROBABILITY_MIN 100
#define FLASHPROBABILITY_MAX 600
#define FLASHPROBABILITYMIN_MIN 50
#define FLASHPROBABILITYMIN_MAX 100 //should not be more than FLASHPROBABILITY_MIN
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#define TEMPINCREASEMAX_MIN 1
#define TEMPINCREASEMAX_MAX FLUORESCENTTEMPMAX/5
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bool lastSensorValue = false;
HomieNode lightNode("lamp", "lamp");
HomieNode sensorNode("sensor", "sensor");
Bounce debouncer = Bounce();
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Bounce debouncer_btn0 = Bounce();
Bounce debouncer_btn1 = Bounce();
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bool fluorescentHandler(const HomieRange& range, const String& value) {
Homie.getLogger() << "fluorescent " << ": " << value << endl;
lightNode.setProperty("fluorescent").send(value);
setbrightness0 = value.toInt();
setbrightness1 = value.toInt();
fluorescent0Temp=0;
fluorescent1Temp=0;
if (setbrightness0 == 0 || setbrightness1 == 0) { // turned off
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resetLamp0();
resetLamp1();
} else { //turned on
//Initialization
fluorescent0Active = true; //start effect
fluorescent1Active = true; //start effect
}
output();
return true;
}
bool fluorescent0Handler(const HomieRange& range, const String& value) {
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return fluorescent0Handler_change(value);
}
bool fluorescent0Handler_change(String value){
Homie.getLogger() << "fluorescent0 " << ": " << value << endl;
lightNode.setProperty("fluorescent0").send(value);
setbrightness0 = value.toInt();
fluorescent0Temp=0;
if (setbrightness0 == 0) { // turned off
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resetLamp0();
} else { //turned on
//Initialization
fluorescent0Active = true; //start effect
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}
output();
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return true;
}
bool fluorescent1Handler(const HomieRange& range, const String& value) {
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return fluorescent1Handler_change(value);
}
bool fluorescent1Handler_change(String value){
Homie.getLogger() << "fluorescent1 " << ": " << value << endl;
lightNode.setProperty("fluorescent1").send(value);
setbrightness1 = value.toInt();
fluorescent1Temp=0;
if (setbrightness1 == 0) { // turned off
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resetLamp1();
} else { //turned on
//Initialization
fluorescent1Active = true; //start effect
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}
output();
return true;
}
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void resetLamp0(){
fluorescent0Active = false; //set effect off
fluorescent0LastActivated = millis();
lamp0e=0;
lamp0=0;
float speedpercent=fluorescent0Quality*1.0/FLUORESCENQUALITYMAX;
flashprobability0=random(FLASHPROBABILITY_MIN,FLASHPROBABILITY_MAX);
flashprobabilitymin0=random(FLASHPROBABILITYMIN_MIN,FLASHPROBABILITYMIN_MAX);
tempincreasemax0=TEMPINCREASEMAX_MIN+speedpercent*(TEMPINCREASEMAX_MAX-TEMPINCREASEMAX_MIN);//random(TEMPINCREASEMAX_MIN,TEMPINCREASEMAX_MAX);
}
void resetLamp1(){
fluorescent1Active = false; //set effect off
fluorescent1LastActivated = millis();
lamp1e=0;
lamp1=0;
float speedpercent=fluorescent1Quality*1.0/FLUORESCENQUALITYMAX;
flashprobability1=random(FLASHPROBABILITY_MIN,FLASHPROBABILITY_MAX);
flashprobabilitymin1=random(FLASHPROBABILITYMIN_MIN,FLASHPROBABILITYMIN_MAX);
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tempincreasemax1=TEMPINCREASEMAX_MIN+speedpercent*(TEMPINCREASEMAX_MAX-TEMPINCREASEMAX_MIN);
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}
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bool fluorescentQualityHandler(const HomieRange& range, const String& value) {
Homie.getLogger() << "fluorescentAge " << ": " << value << endl;
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fluorescent0Quality = constrain(value.toInt(),0,FLUORESCENQUALITYMAX);
fluorescent1Quality = constrain(value.toInt(),0,FLUORESCENQUALITYMAX);
return true;
}
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bool fluorescent0QualityHandler(const HomieRange& range, const String& value) {
Homie.getLogger() << "fluorescent0Quality " << ": " << value << endl;
fluorescent0Quality = constrain(value.toInt(),0,FLUORESCENQUALITYMAX);
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return true;
}
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bool fluorescent1QualityHandler(const HomieRange& range, const String& value) {
Homie.getLogger() << "fluorescent1Quality " << ": " << value << endl;
fluorescent1Quality = constrain(value.toInt(),0,FLUORESCENQUALITYMAX);
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return true;
}
bool lampHandler(const HomieRange& range, const String& value) {
Homie.getLogger() << "lamp0,1 " << ": " << value << endl;
lamp0 = value.toInt();
lamp0e = value.toInt();
lamp1 = value.toInt();
lamp1e = value.toInt();
lightNode.setProperty("lamp0").send(value);
lightNode.setProperty("lamp1").send(value);
fluorescent0Active = false;
fluorescent1Active = false;
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output();
return true;
}
bool lamp0Handler(const HomieRange& range, const String& value) {
Homie.getLogger() << "lamp0 " << ": " << value << endl;
lamp0 = value.toInt();
lamp0e = value.toInt();
lightNode.setProperty("lamp0").send(value);
fluorescent0Active = false;
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output();
return true;
}
bool lamp1Handler(const HomieRange& range, const String& value) {
Homie.getLogger() << "lamp1 " << ": " << value << endl;
lamp1 = value.toInt();
lamp1e = value.toInt();
lightNode.setProperty("lamp1").send(value);
fluorescent1Active = false;
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output();
return true;
}
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void output() {
// * 4 to scale the input up for ESP Arduino default 10 bit PWM
analogWrite(PIN_LAMP0_EDGE, constrain(lamp0e * 4,0,1023));
analogWrite(PIN_LAMP0, constrain(lamp0 * 4,0,1023));
analogWrite(PIN_LAMP1_EDGE, constrain(lamp1e * 4,0,1023));
analogWrite(PIN_LAMP1, constrain(lamp1 * 4,0,1023));
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}
void loopHandler()
{
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//mosquitto_pub -h raum.ctdo.de -t "homie/ledstoffroehre/lamp/fluorescent0/set" -m "255"
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if (millis() > fluorescentLastUpdated + FLUORESCENTUPDATEINTERVAL) { //Update values
fluorescentLastUpdated = millis();
if (fluorescent0Active) {
//long _time = millis() - fluorescent0LastActivated; //time since activated
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fluorescent0Temp+=random(1,tempincreasemax0);
if (random(0,flashprobability0-constrain(fluorescent0Temp*flashprobability0/FLUORESCENTTEMPMAX,0,flashprobability0-flashprobabilitymin0))==0)
{
lamp0=setbrightness0*random(30,100)/10;
lamp0e=lamp0; //flash everything
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}
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lamp0-=40;
if (random(0,100)>95){
lamp0e+=constrain(random(0,fluorescent0Temp*10/FLUORESCENTTEMPMAX) , 0, 10); //start glowing slowly
}
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if (lamp0e>GLOWBRIGHTNESS)
{
lamp0e-=constrain(lamp0e-GLOWBRIGHTNESS,0,20); //make sides darker until glowbrightness
}
if (fluorescent0Temp>=FLUORESCENTTEMPMAX){
fluorescent0Active=false;
lamp0=setbrightness0;
lamp0e=setbrightness0;
}
lamp0=constrain(lamp0, 0,255);
lamp0e=constrain(lamp0e, 0,255);
output();
}
if (fluorescent1Active) {
//long _time = millis() - fluorescent0LastActivated; //time since activated
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fluorescent1Temp+=random(1,tempincreasemax1);
if (random(0,flashprobability1-constrain(fluorescent1Temp*flashprobability1/FLUORESCENTTEMPMAX,0,flashprobability1-flashprobabilitymin1))==0)
{
lamp1=setbrightness1*random(30,100)/10;
lamp1e=lamp1; //flash everything
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}
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lamp1-=40;
if (random(0,100)>95){
lamp1e+=constrain(random(0,fluorescent1Temp*10/FLUORESCENTTEMPMAX) , 0, 10); //start glowing slowly
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}
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if (lamp1e>GLOWBRIGHTNESS)
{
lamp1e-=constrain(lamp1e-GLOWBRIGHTNESS,0,20); //make sides darker until glowbrightness
}
if (fluorescent1Temp>=FLUORESCENTTEMPMAX){
fluorescent1Active=false;
lamp1=setbrightness1;
lamp1e=setbrightness1;
}
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lamp1=constrain(lamp1, 0,255);
lamp1e=constrain(lamp1e, 0,255);
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output();
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}
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}
bool sensorValue = debouncer.read();
if (Homie.isConfigured() && Homie.isConnected() && sensorValue != lastSensorValue) {
sensorNode.setProperty("motion").send(sensorValue ? "true" : "false");
lastSensorValue = sensorValue;
}
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bool btn0 = debouncer_btn0.read();
bool btn1 = debouncer_btn1.read();
if (!btn0){
if (setbrightness0==0){
fluorescent0Handler_change("255");
}else{
fluorescent0Handler_change("0");
}
}
if (!btn1){
if (setbrightness1==0){
fluorescent1Handler_change("255");
}else{
fluorescent1Handler_change("0");
}
}
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}
void setup() {
Serial.begin(115200);
Serial << endl << endl;
pinMode(PIN_LAMP0_EDGE, OUTPUT);
pinMode(PIN_LAMP0, OUTPUT);
pinMode(PIN_LAMP1_EDGE, OUTPUT);
pinMode(PIN_LAMP1, OUTPUT);
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debouncer_btn0.attach(PIN_BUTTON0, INPUT_PULLUP);
debouncer_btn0.interval(50);
debouncer_btn1.attach(PIN_BUTTON1, INPUT_PULLUP);
debouncer_btn1.interval(50);
debouncer.attach(PIN_SENSOR, INPUT);
debouncer.interval(50);
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Homie_setFirmware(FW_NAME, FW_VERSION);
Homie_setBrand(FW_NAME);
Homie.setLoopFunction(loopHandler);
lightNode.advertise("lamp").settable(lampHandler);
lightNode.advertise("lamp0").settable(lamp0Handler);
lightNode.advertise("lamp1").settable(lamp1Handler);
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lightNode.advertise("fluorescent").settable(fluorescentHandler);
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lightNode.advertise("fluorescentquality").settable(fluorescentQualityHandler);
lightNode.advertise("fluorescent0").settable(fluorescent0Handler);
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lightNode.advertise("fluorescent0Quality").settable(fluorescent0QualityHandler);
lightNode.advertise("fluorescent1").settable(fluorescent1Handler);
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lightNode.advertise("fluorescent1Quality").settable(fluorescent1QualityHandler);
sensorNode.advertise("motion");
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// Activate other PWM frequency. 1000 (1 KHz) is default
analogWriteFreq(20000);
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// Restore last state
output();
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Homie.setup();
ArduinoOTA.setHostname(Homie.getConfiguration().deviceId);
ArduinoOTA.begin();
}
void loop() {
Homie.loop();
debouncer.update();
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debouncer_btn0.update();
debouncer_btn1.update();
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ArduinoOTA.handle();
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}