Here is a small contribution. A arduino framework for making almost every sensor or actuator you ever need.
It is still a work in progress so any help is usefull.
/**
* The MySensors Arduino library handles the wireless radio link and protocol
* between your home built sensors/actuators and HA controller of choice.
* The sensors forms a self healing radio network with optional repeaters. Each
* repeater and gateway builds a routing tables in EEPROM which keeps track of the
* network topology allowing messages to be routed to nodes.
*
* Created by Henrik Ekblad <henrik.ekblad@mysensors.org>
* Copyright (C) 2013-2015 Sensnology AB
* Full contributor list: https://github.com/mysensors/Arduino/graphs/contributors
*
* Documentation: http://www.mysensors.org
* Support Forum: http://forum.mysensors.org
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* version 2 as published by the Free Software Foundation.
*
*******************************
*
* REVISION HISTORY
* original version by Meister_Petz
* Version 1.0 - May 5, 2016 - Ton van den Berg
*
* DESCRIPTION
* This sketch provides a framework for multisensor
*
*
*/
#include <MySensor.h>
#include <SPI.h>
MySensor gw;
// Manual set node id
// Change node id for each node.
int NodeID = 20;
// Child ID s - Triggers - Buttons, Motion Sensors...
/*
#define TRIGGER1_ID 1 // Trigger 1
#define TRIGGER2_ID 2 // Trigger 2
#define TRIGGER3_ID 3 // Trigger 3
#define TRIGGER4_ID 4 // Trigger 4
#define TRIGGER5_ID 5 // Trigger 5
#define TRIGGER6_ID 6 // Trigger 6
#define TRIGGER7_ID 7 // Trigger 7
#define TRIGGER8_ID 8 // Trigger 8
#define TRIGGER9_ID 9 // Trigger 9
*/
// Child ID s - Actuators - Relays, LEDs,...
/*
#define ACTUATOR1_ID 11 // Actuator 1
#define ACTUATOR2_ID 12 // Actuator 2
#define ACTUATOR3_ID 13 // Actuator 3
#define ACTUATOR4_ID 14 // Actuator 4
#define ACTUATOR5_ID 15 // Actuator 5
#define ACTUATOR6_ID 16 // Actuator 6
#define ACTUATOR7_ID 17 // Actuator 7
#define ACTUATOR8_ID 18 // Actuator 8
#define ACTUATOR9_ID 19 // Actuator 9
*/
// Child ID s - Continuous Sensors - Temperature Sensors, Lightlevel Sensors,...
/*
#define SENSOR1_ID 21 // Sensor 1
#define SENSOR2_ID 22 // Sensor 2
#define SENSOR3_ID 23 // Sensor 3
#define SENSOR4_ID 24 // Sensor 4
#define SENSOR5_ID 25 // Sensor 5
#define SENSOR6_ID 26 // Sensor 6
#define SENSOR7_ID 27 // Sensor 7
#define SENSOR8_ID 28 // Sensor 8
#define SENSOR9_ID 29 // Sensor 9
*/
// Child ID s - Dimmers, ...
/*
#define DIMMER1_ID 31 // dimmer 1
#define DIMMER2_ID 32 // dimmer 2
#define DIMMER3_ID 33 // dimmer 3
#define DIMMER4_ID 34 // dimmer 4
#define DIMMER5_ID 35 // dimmer 5
#define DIMMER6_ID 36 // dimmer 6
#define DIMMER7_ID 37 // dimmer 7
#define DIMMER8_ID 38 // dimmer 8
#define DIMMER9_ID 39 // dimmer 9
*/
//-----------------------------------------------------------------------------------------------------------
//-----------------------------------------------------------------------------------------------------------
//-----------------------------------------------------------------------------------------------------------
// DEFINITIONS
//-----------------------------------------------------------------------------------------------------------
//------------------------------------------------------------------------
// Triggers - Triggers - Triggers - Triggers - Triggers - Triggers
//------------------------------------------------------------------------
// DEFINITIONS - Push Buttons, Door Sensors,...
#include <Bounce2.h>
// Trigger PINS - Digital PIN -> Button -> GND
/*
#define TRIGGER1_PIN 7
#define TRIGGER2_PIN 7
#define TRIGGER3_PIN 7
#define TRIGGER4_PIN 7
#define TRIGGER5_PIN 7
#define TRIGGER6_PIN 7
#define TRIGGER7_PIN 7
#define TRIGGER8_PIN 7
#define TRIGGER9_PIN 7
*/
// Bounce
/*
Bounce debouncer1 = Bounce();
Bounce debouncer2 = Bounce();
Bounce debouncer3 = Bounce();
Bounce debouncer4 = Bounce();
Bounce debouncer5 = Bounce();
Bounce debouncer6 = Bounce();
Bounce debouncer7 = Bounce();
Bounce debouncer8 = Bounce();
Bounce debouncer9 = Bounce();
*/
// MyMessage
/*
MyMessage msg01(TRIGGER1_ID,V_TRIPPED);
MyMessage msg02(TRIGGER2_ID,V_TRIPPED);
MyMessage msg03(TRIGGER3_ID,V_TRIPPED);
MyMessage msg04(TRIGGER4_ID,V_TRIPPED);
MyMessage msg05(TRIGGER5_ID,V_TRIPPED);
MyMessage msg06(TRIGGER6_ID,V_TRIPPED);
MyMessage msg07(TRIGGER7_ID,V_TRIPPED);
MyMessage msg08(TRIGGER8_ID,V_TRIPPED);
MyMessage msg09(TRIGGER9_ID,V_TRIPPED);
*/
// Some Variables
/*
int oldTrigValue1=-1;
int oldTrigValue2=-1;
int oldTrigValue3=-1;
int oldTrigValue4=-1;
int oldTrigValue5=-1;
int oldTrigValue6=-1;
int oldTrigValue7=-1;
int oldTrigValue8=-1;
int oldTrigValue9=-1;
*/
//------------------------------------------------------------------------
// Actuators - Actuators - Actuators - Actuators - Actuators - Actuators
//------------------------------------------------------------------------
// DEFINITIONS - LEDs, Relays, ...
// Actuators PINS - DIGITAL PIN to Actuator
/*
#define ACTUATOR1_PIN 3
#define ACTUATOR2_PIN 7
#define ACTUATOR3_PIN 7
#define ACTUATOR4_PIN 7
#define ACTUATOR5_PIN 7
#define ACTUATOR6_PIN 7
#define ACTUATOR7_PIN 7
#define ACTUATOR8_PIN 7
#define ACTUATOR9_PIN 7
*/
#define ACTUATOR_ON 1
#define ACTUATOR_OFF 0
bool state;
//------------------------------------------------------------------------
// Sensors - Sensors - Sensors - Sensors - Sensors - Sensors - Sensors
//------------------------------------------------------------------------
// DEFINITIONS - Temperatur, Humidity, Lightlevel,...
// Sensor PINS
/*
#define SENSOR1_PIN 3
#define SENSOR2_PIN 3
#define SENSOR3_PIN 3
#define SENSOR4_PIN 3
#define SENSOR5_PIN 3
#define SENSOR6_PIN 3
#define SENSOR7_PIN 3
#define SENSOR8_PIN 3
#define SENSOR9_PIN 3
*/
// MyMessage V_TEMP, V_LIGHT_LEVEL, ... depending on Sensor Type
/*
MyMessage msg11(SENSOR1_ID,V_TEMP);
MyMessage msg12(SENSOR2_ID,V_TEMP);
MyMessage msg13(SENSOR3_ID,V_TEMP);
MyMessage msg14(SENSOR4_ID,V_TEMP);
MyMessage msg15(SENSOR5_ID,V_TEMP);
MyMessage msg16(SENSOR6_ID,V_TEMP);
MyMessage msg17(SENSOR7_ID,V_TEMP);
MyMessage msg18(SENSOR8_ID,V_TEMP);
MyMessage msg19(SENSOR9_ID,V_TEMP);
*/
// Interval for each Sensor Read (number of loops) 1000000 = ca. 60 Sec - Adruino Nano ATmega 328
/*
long int sensorInterval1 = 1000000;
long int sensorInterval2 = 1000000;
long int sensorInterval3 = 1000000;
long int sensorInterval4 = 1000000;
long int sensorInterval5 = 1000000;
long int sensorInterval6 = 1000000;
long int sensorInterval7 = 1000000;
long int sensorInterval8 = 1000000;
long int sensorInterval9 = 1000000;
*/
// Special Config for each Sensor
// SENSOR 1
// SENSOR 2
// SENSOR 3
// SENSOR 4
// SENSOR 5
// SENSOR 6
// SENSOR 7
// SENSOR 8
// SENSOR 9
//for sending only if value changed
float lastRead1;
float lastRead2;
float lastRead3;
float lastRead4;
float lastRead5;
float lastRead6;
float lastRead7;
float lastRead8;
float lastRead9;
//for loops
/*
long int sI1 = sensorInterval1;
long int sI2 = sensorInterval2;
long int sI3 = sensorInterval3;
long int sI4 = sensorInterval4;
long int sI5 = sensorInterval5;
long int sI6 = sensorInterval6;
long int sI7 = sensorInterval7;
long int sI8 = sensorInterval8;
long int sI9 = sensorInterval9;
*/
//------------------------------------------------------------------------
// Dimmers - Dimmers - Dimmers - Dimmers - Dimmers - Dimmers - Dimmers
//------------------------------------------------------------------------
// DEFINITIONS - DIMMERS, ...
// Dimmer PINS - DIGITAL PIN to Actuator
/*
#define DIMMER1_PIN 5
#define DIMMER2_PIN 6
#define DIMMER3_PIN 7
#define DIMMER4_PIN 7
#define DIMMER5_PIN 7
#define DIMMER6_PIN 7
#define DIMMER7_PIN 7
#define DIMMER8_PIN 7
#define DIMMER9_PIN 7
*/
//store old lastlevel
static int currentLevel = 0;
static int lastLevel1 = 0;
static int lastLevel2 = 0;
static int lastLevel3 = 0;
static int lastLevel4 = 0;
static int lastLevel5 = 0;
static int lastLevel6 = 0;
static int lastLevel7 = 0;
static int lastLevel8 = 0;
static int lastLevel9 = 0;
#define FADE_DELAY 10 // Delay in ms for each percentage fade up/down (10ms = 1s full-range dim)
//-----------------------------------------------------------------------------------------------------------
//-----------------------------------------------------------------------------------------------------------
//-----------------------------------------------------------------------------------------------------------
// VOID SETUP - VOID SETUP - VOID SETUP - VOID SETUP - VOID SETUP
//-----------------------------------------------------------------------------------------------------------
void setup()
{
gw.begin(incomingMessage, NodeID, true);
// Send the sketch version information to the gateway and Controller
gw.sendSketchInfo("Framework sensor/actuator", "1.0");
//------------------------------------------------------------------------
// Triggers - Triggers - Triggers - Triggers - Triggers - Triggers
//------------------------------------------------------------------------
// VOID SETUP
/*
pinMode(TRIGGER1_PIN,INPUT);
pinMode(TRIGGER2_PIN,INPUT);
pinMode(TRIGGER3_PIN,INPUT);
pinMode(TRIGGER4_PIN,INPUT);
pinMode(TRIGGER5_PIN,INPUT);
pinMode(TRIGGER6_PIN,INPUT);
pinMode(TRIGGER7_PIN,INPUT);
pinMode(TRIGGER8_PIN,INPUT);
pinMode(TRIGGER9_PIN,INPUT);
*/
// Activate internal pull-up
/*
digitalWrite(TRIGGER1_PIN,HIGH);
digitalWrite(TRIGGER2_PIN,HIGH);
digitalWrite(TRIGGER3_PIN,HIGH);
digitalWrite(TRIGGER4_PIN,HIGH);
digitalWrite(TRIGGER5_PIN,HIGH);
digitalWrite(TRIGGER6_PIN,HIGH);
digitalWrite(TRIGGER7_PIN,HIGH);
digitalWrite(TRIGGER8_PIN,HIGH);
digitalWrite(TRIGGER9_PIN,HIGH);
*/
// After setting up the button, setup debouncer
/*
debouncer1.attach(TRIGGER1_PIN);
debouncer2.attach(TRIGGER2_PIN);
debouncer3.attach(TRIGGER3_PIN);
debouncer4.attach(TRIGGER4_PIN);
debouncer5.attach(TRIGGER5_PIN);
debouncer6.attach(TRIGGER6_PIN);
debouncer7.attach(TRIGGER7_PIN);
debouncer8.attach(TRIGGER8_PIN);
debouncer9.attach(TRIGGER9_PIN);
*/
/*
debouncer1.interval(5);
debouncer2.interval(5);
debouncer3.interval(5);
debouncer4.interval(5);
debouncer5.interval(5);
debouncer6.interval(5);
debouncer7.interval(5);
debouncer8.interval(5);
debouncer9.interval(5);
*/
// present all Triggers to the Gateway
/*
gw.present(TRIGGER1_ID, S_DOOR);
gw.present(TRIGGER2_ID, S_DOOR);
gw.present(TRIGGER3_ID, S_DOOR);
gw.present(TRIGGER4_ID, S_DOOR);
gw.present(TRIGGER5_ID, S_DOOR);
gw.present(TRIGGER6_ID, S_DOOR);
gw.present(TRIGGER7_ID, S_DOOR);
gw.present(TRIGGER8_ID, S_DOOR);
gw.present(TRIGGER9_ID, S_DOOR);
*/
//------------------------------------------------------------------------
// Actuators - Actuators - Actuators - Actuators - Actuators - Actuators
//------------------------------------------------------------------------
// VOID SETUP
/*
pinMode(ACTUATOR1_PIN, OUTPUT);
pinMode(ACTUATOR2_PIN, OUTPUT);
pinMode(ACTUATOR3_PIN, OUTPUT);
pinMode(ACTUATOR4_PIN, OUTPUT);
pinMode(ACTUATOR5_PIN, OUTPUT);
pinMode(ACTUATOR6_PIN, OUTPUT);
pinMode(ACTUATOR7_PIN, OUTPUT);
pinMode(ACTUATOR8_PIN, OUTPUT);
pinMode(ACTUATOR9_PIN, OUTPUT);
*/
// present all Actuators to the Gateway
/*
gw.present(ACTUATOR1_ID, S_LIGHT);
gw.present(ACTUATOR2_ID, S_LIGHT);
gw.present(ACTUATOR3_ID, S_LIGHT);
gw.present(ACTUATOR4_ID, S_LIGHT);
gw.present(ACTUATOR5_ID, S_LIGHT);
gw.present(ACTUATOR6_ID, S_LIGHT);
gw.present(ACTUATOR7_ID, S_LIGHT);
gw.present(ACTUATOR8_ID, S_LIGHT);
gw.present(ACTUATOR9_ID, S_LIGHT);
*/
// FETCH old State and SET old state
/*
bool state1 = gw.loadState(ACTUATOR1_ID); digitalWrite(ACTUATOR1_ID, state1?ACTUATOR_ON:ACTUATOR_OFF);
bool state2 = gw.loadState(ACTUATOR2_ID); digitalWrite(ACTUATOR2_ID, state2?ACTUATOR_ON:ACTUATOR_OFF);
bool state3 = gw.loadState(ACTUATOR3_ID); digitalWrite(ACTUATOR3_ID, state3?ACTUATOR_ON:ACTUATOR_OFF);
bool state4 = gw.loadState(ACTUATOR4_ID); digitalWrite(ACTUATOR4_ID, state4?ACTUATOR_ON:ACTUATOR_OFF);
bool state5 = gw.loadState(ACTUATOR5_ID); digitalWrite(ACTUATOR5_ID, state5?ACTUATOR_ON:ACTUATOR_OFF);
bool state6 = gw.loadState(ACTUATOR6_ID); digitalWrite(ACTUATOR6_ID, state6?ACTUATOR_ON:ACTUATOR_OFF);
bool state7 = gw.loadState(ACTUATOR7_ID); digitalWrite(ACTUATOR7_ID, state7?ACTUATOR_ON:ACTUATOR_OFF);
bool state8 = gw.loadState(ACTUATOR8_ID); digitalWrite(ACTUATOR8_ID, state8?ACTUATOR_ON:ACTUATOR_OFF);
bool state9 = gw.loadState(ACTUATOR9_ID); digitalWrite(ACTUATOR9_ID, state9?ACTUATOR_ON:ACTUATOR_OFF);
*/
//------------------------------------------------------------------------
// Sensors - Sensors - Sensors - Sensors - Sensors - Sensors - Sensors
//------------------------------------------------------------------------
// VOID SETUP
// present all Sensors to Gateway - S_TEMP, S_LIGHT_LEVEL,... depending an SENSOR type
/*
gw.present(SENSOR1_ID, S_TEMP);
gw.present(SENSOR2_ID, S_TEMP);
gw.present(SENSOR3_ID, S_TEMP);
gw.present(SENSOR4_ID, S_TEMP);
gw.present(SENSOR5_ID, S_TEMP);
gw.present(SENSOR6_ID, S_TEMP);
gw.present(SENSOR7_ID, S_TEMP);
gw.present(SENSOR8_ID, S_TEMP);
gw.present(SENSOR9_ID, S_TEMP);
*/
// Special SETUP for each Sensor
// SENSOR 1
// SENSOR 2
// SENSOR 3
// SENSOR 4
// SENSOR 5
// SENSOR 6
// SENSOR 7
// SENSOR 8
// SENSOR 9
//------------------------------------------------------------------------
// Dimmers - Dimmers - Dimmers - Dimmers - Dimmers - Dimmers - Dimmers
//------------------------------------------------------------------------
// VOID SETUP
/*
pinMode(DIMMER1_PIN, OUTPUT);
pinMode(DIMMER2_PIN, OUTPUT);
pinMode(DIMMER3_PIN, OUTPUT);
pinMode(DIMMER4_PIN, OUTPUT);
pinMode(DIMMER5_PIN, OUTPUT);
pinMode(DIMMER6_PIN, OUTPUT);
pinMode(DIMMER7_PIN, OUTPUT);
pinMode(DIMMER8_PIN, OUTPUT);
pinMode(DIMMER9_PIN, OUTPUT);
*/
// present all dimmers to the Gateway
/*
gw.present(DIMMER1_ID, S_DIMMER);
gw.present(DIMMER2_ID, S_DIMMER);
gw.present(DIMMER3_ID, S_DIMMER);
gw.present(DIMMER4_ID, S_DIMMER);
gw.present(DIMMER5_ID, S_DIMMER);
gw.present(DIMMER6_ID, S_DIMMER);
gw.present(DIMMER7_ID, S_DIMMER);
gw.present(DIMMER8_ID, S_DIMMER);
gw.present(DIMMER9_ID, S_DIMMER);
*/
}
//-----------------------------------------------------------------------------------------------------------
//-----------------------------------------------------------------------------------------------------------
//-----------------------------------------------------------------------------------------------------------
// VOID LOOP - VOID LOOP - VOID LOOP - VOID LOOP - VOID LOOP - VOID LOOP
//-----------------------------------------------------------------------------------------------------------
// Check if digital input has changed and send in new value
void loop()
{
gw.process();
//------------------------------------------------------------------------
// Triggers - Triggers - Triggers - Triggers - Triggers - Triggers
//------------------------------------------------------------------------
// LOOP
/*
debouncer1.update();
debouncer2.update();
debouncer3.update();
debouncer4.update();
debouncer5.update();
debouncer6.update();
debouncer7.update();
debouncer8.update();
debouncer9.update();
*/
// Get the update value
/*
int value1 = debouncer1.read();
int value2 = debouncer2.read();
int value3 = debouncer3.read();
int value4 = debouncer4.read();
int value5 = debouncer5.read();
int value6 = debouncer6.read();
int value7 = debouncer7.read();
int value8 = debouncer8.read();
int value9 = debouncer9.read();
*/
// Send in the new value - if value changed
/*
if (value1 != oldTrigValue1) { gw.send(msg01.set(value1==LOW ? 1 : 0)); oldTrigValue1 = value1; }
if (value2 != oldTrigValue2) { gw.send(msg02.set(value2==LOW ? 1 : 0)); oldTrigValue2 = value2; }
if (value3 != oldTrigValue3) { gw.send(msg03.set(value3==LOW ? 1 : 0)); oldTrigValue3 = value3; }
if (value4 != oldTrigValue4) { gw.send(msg04.set(value4==LOW ? 1 : 0)); oldTrigValue4 = value4; }
if (value5 != oldTrigValue5) { gw.send(msg05.set(value5==LOW ? 1 : 0)); oldTrigValue5 = value5; }
if (value6 != oldTrigValue6) { gw.send(msg06.set(value6==LOW ? 1 : 0)); oldTrigValue6 = value6; }
if (value7 != oldTrigValue7) { gw.send(msg07.set(value7==LOW ? 1 : 0)); oldTrigValue7 = value7; }
if (value8 != oldTrigValue8) { gw.send(msg08.set(value8==LOW ? 1 : 0)); oldTrigValue8 = value8; }
if (value9 != oldTrigValue9) { gw.send(msg09.set(value9==LOW ? 1 : 0)); oldTrigValue9 = value9; }
*/
//------------------------------------------------------------------------
// Sensors - Sensors - Sensors - Sensors - Sensors - Sensors - Sensors
//------------------------------------------------------------------------
// LOOP
/*
// Sensor1
if (sI1 == sensorInterval1){
sI1 = 0;
// put here the read sensor function like:
// float sensorRead1 = analogRead(SENSOR1_PIN);
if (lastRead1 != sensorRead1){
float sensorCalc = (sensorRead1 / 10) - 45.5;
gw.send(msg11.set(sensorCalc,1));
lastRead1 = sensorRead1;
}
}
// Sensor2
if (sI2 == sensorInterval2){
sI2 = 0;
// put here the read sensor function like:
// float sensorRead2 = analogRead(SENSOR2_PIN);
if (lastRead2 != sensorRead2){
gw.send(msg12.set(sensorRead2,1));
lastRead2 = sensorRead2;
}
}
// Sensor3
if (sI3 == sensorInterval3){
sI3 = 0;
// put here the read sensor function like:
// float sensorRead3 = analogRead(SENSOR3_PIN);
if (lastRead3 != sensorRead3){
gw.send(msg13.set(sensorRead3,1));
lastRead3 = sensorRead3;
}
}
// Sensor4
if (sI4 == sensorInterval4){
sI4 = 0;
// put here the read sensor function like:
// float sensorRead4 = analogRead(SENSOR4_PIN);
if (lastRead4 != sensorRead4){
gw.send(msg14.set(sensorRead4));
lastRead4 = sensorRead4;
}
}
// Sensor5
// Sensor6
// Sensor7
// Sensor8
// Sensor9
*/
/*
sI1++;
sI2++;
sI3++;
sI4++;
sI5++;
sI6++;
sI7++;
sI8++;
sI9++;
*/
}
//------------------------------------------------------------------------
//------------------------------------------------------------------------
//------------------------------------------------------------------------
// VOID INCOMING MESSAGE - VOID INCOMING MESSAGE - VOID INCOMING MESSAGE
//------------------------------------------------------------------------
void incomingMessage(const MyMessage &message) {
// We only expect one type of message from controller. But we better check anyway.
if (message.isAck()) {
Serial.println("This is an ack from gateway");
}
//------------------------------------------------------------------------
// Actuators - Actuators - Actuators - Actuators - Actuators - Actuators
//------------------------------------------------------------------------
// VOID INCOMING MESSAGE
if (message.type==V_LIGHT) {
int actPin;
/*
if (message.sensor == 11){ actPin = ACTUATOR1_PIN; }
if (message.sensor == 12){ actPin = ACTUATOR2_PIN; }
if (message.sensor == 13){ actPin = ACTUATOR3_PIN; }
if (message.sensor == 14){ actPin = ACTUATOR4_PIN; }
if (message.sensor == 15){ actPin = ACTUATOR5_PIN; }
if (message.sensor == 16){ actPin = ACTUATOR6_PIN; }
if (message.sensor == 17){ actPin = ACTUATOR7_PIN; }
if (message.sensor == 18){ actPin = ACTUATOR8_PIN; }
if (message.sensor == 19){ actPin = ACTUATOR9_PIN; }
*/
//------------------------------------------------------------------------
// switch Actuator
//------------------------------------------------------------------------
state = message.getBool();
digitalWrite(actPin, state?ACTUATOR_ON:ACTUATOR_OFF);
gw.saveState(message.sensor, state);
Serial.println(); Serial.print("Change for sensor:"); Serial.print(message.sensor); Serial.print(", New status: "); Serial.println(message.getBool()); Serial.println();
// set state back to old state
gw.loadState(message.sensor);
digitalWrite(actPin, state?ACTUATOR_ON:ACTUATOR_OFF);
MyMessage msgTmp(message.sensor,V_LIGHT);
gw.send(msgTmp.set(state));
}
//------------------------------------------------------------------------
// Dimmers - Dimmers - Dimmers - Dimmers - Dimmers - Dimmers - Dimmers -
//------------------------------------------------------------------------
if (message.type==V_DIMMER) {
int pwmPin;
// Retrieve the power or dim level from the incoming request message
int requestedLevel = atoi( message.data );
/*
if (message.sensor == 31){ pwmPin = DIMMER1_PIN; currentLevel = lastLevel1; lastLevel1 = requestedLevel; }
if (message.sensor == 32){ pwmPin = DIMMER2_PIN; currentLevel = lastLevel2; lastLevel2 = requestedLevel; }
if (message.sensor == 33){ pwmPin = DIMMER3_PIN; currentLevel = lastLevel3; lastLevel3 = requestedLevel; }
if (message.sensor == 34){ pwmPin = DIMMER4_PIN; currentLevel = lastLevel4; lastLevel4 = requestedLevel; }
if (message.sensor == 35){ pwmPin = DIMMER5_PIN; currentLevel = lastLevel5; lastLevel5 = requestedLevel; }
if (message.sensor == 36){ pwmPin = DIMMER6_PIN; currentLevel = lastLevel6; lastLevel6 = requestedLevel; }
if (message.sensor == 37){ pwmPin = DIMMER7_PIN; currentLevel = lastLevel7; lastLevel7 = requestedLevel; }
if (message.sensor == 38){ pwmPin = DIMMER8_PIN; currentLevel = lastLevel8; lastLevel8 = requestedLevel; }
if (message.sensor == 39){ pwmPin = DIMMER9_PIN; currentLevel = lastLevel9; lastLevel9 = requestedLevel; }
*/
//------------------------------------------------------------------------
// set Dimmer
//------------------------------------------------------------------------
// Clip incoming level to valid range of 0 to 100
requestedLevel = requestedLevel > 100 ? 100 : requestedLevel;
requestedLevel = requestedLevel < 0 ? 0 : requestedLevel;
Serial.println();
Serial.print( "Changing sensor " );
Serial.println( message.sensor );
Serial.print( "Changing level to " );
Serial.print( requestedLevel );
Serial.print( ", from " );
Serial.println( currentLevel );
Serial.println();
fadeToLevel( requestedLevel, pwmPin );
// Inform the gateway of the current DimmableLED's SwitchPower1 and LoadLevelStatus value...
MyMessage lightTmp(message.sensor,V_LIGHT);
gw.send(lightTmp.set(currentLevel > 0 ? 1 : 0));
MyMessage msgTmp(message.sensor,V_DIMMER);
gw.send(msgTmp.set(currentLevel));
}
}
/***
* This method provides a graceful fade up/down effect
*/
void fadeToLevel( int toLevel, int pwmpin ) {
int delta = ( toLevel - currentLevel ) < 0 ? -1 : 1;
while ( currentLevel != toLevel ) {
currentLevel += delta;
analogWrite( pwmpin, (int)(currentLevel / 100. * 255) );
delay( FADE_DELAY );
}
}```