audiomixer/controller/mixercontroller_w5100_pio/src/main.cpp

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/*
* Ideas/TODO:
* POT_MIN, POT_MAX as variable with calibration procedure. Drive slowly to both ends until value does not get lower.
* Motor error checking. Timeout overall (if regulation fails or stuck). Timeout movement (motor is tunring but no change in poti value detected). Move right direction.
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* Hardware: motorentstörkondensatoren einbauen direkt an motor. 47nF + zu - und zwei 10nF + zu case und - zu case
* PI Optimieren. aktuell overshoot
* Implement knob menu structure
*/
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#include <Arduino.h>
#include <Adafruit_NeoPixel.h>
#ifdef __AVR__
#include <avr/power.h>
#endif
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void reconnect();
uint32_t Wheel(byte WheelPos);
boolean srRead(uint8_t pbit);
void srWrite(uint8_t pbit, boolean state);
void callback(char* topic, byte* payload, unsigned int length);
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void srShiftOut();
void setMuteInt(uint8_t i);
void setSelectionInt(uint8_t i);
boolean getSelection(uint8_t pbit);
boolean getMute(uint8_t pbit);
void setSelectionChannel(uint8_t i, boolean state);
void setMuteChannel(uint8_t i, boolean state);
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void publishCurrentSetVolume();
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void publishAllStates(int pn, String pTopicname, boolean (*pgetBit) (uint8_t));
void changeRelaisByNumber(uint8_t pn, String pTopicPrefix, String pTopic, String pspayload, void (*psetXChannel) (uint8_t, boolean));
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#define LEDPIN 9 //PB1 = D9 = Pin15
Adafruit_NeoPixel leds = Adafruit_NeoPixel(9, LEDPIN, NEO_GRB + NEO_KHZ800);
uint8_t wheelpos=0;
#include "Ethernet.h"
#include "PubSubClient.h"
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boolean useethernet=true;
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//Ethernet and MQTT
String ip = "";
uint8_t mac[6] = {0x00, 0x01, 0x02, 0x03, 0x04, 0x06};
#define CLIENT_ID "Mixer"
EthernetClient ethClient;
PubSubClient mqttClient;
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String mqttdevname="audiomixer/";
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long last_send=0;
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#define MQTTRECONNECTDELAY 5000
unsigned long last_mqttreconnectattempt=0;
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//Serial
long last_serialdebug=0;
#define INTERVAL_SERIALDEBUG 200
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//Inputs
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#include "button.h"
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#define PIN_BUTTON A3 //A3 = PC3, defining PCx as pin doesnt work
#define PIN_ENCA A2 //A2 = PC2
#define PIN_ENCB A1 //A1 = PC1
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Button button_knob;
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//Shift Register 595
//connections: https://www.arduino.cc/en/tutorial/ShiftOut
#define SRLATCH PD4 //D4 = PD4
#define SRCLOCK PD3 //D3 = PD3
#define SRDATA PD2 //D2 = PD2
uint16_t srbits=0;
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#define NUMSELECTCHANNELS 8
#define NUMMUTECHANNELS 8
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#include <Encoder.h>
Encoder volEnc(PIN_ENCA,PIN_ENCB);
float encoderMultiplier=4.0;
//Servo stuff
#define PIN_MOTOR_IN1 PD5 //to L293(pin2) Motor IN1
#define PIN_MOTOR_IN2 PD6 //to L293(pin7) Motor IN2
//#define SRPIN_MOTOR_IN1 1 //L293(pin2) Motor IN1 -- moved to atmega pin
//#define SRPIN_MOTOR_IN2 2 //L293(pin7) Motor IN2 -- moved to atmega pin
uint8_t motorspeed=0;
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#define PIN_POT A0 //A0 = PC0, reference potentiometer wiper
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#define DEADZONE_POTI 10 //maximum allowed error. stop when reached this zone
#define POT_MIN 45 //minimum value pot can reach
#define POT_MAX 950 //maximum value pot can reach
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#define POTIFILTER 0.6 //0 to 1. 1 means old value stays forever
#define MAX_MOTOR_PWM 255 //0 to 255. Maximum pwm to output
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int poti_set; //set value, initial value will be read from poti
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int poti_read=0; //read value from poti
boolean poti_reachedposition=true; //set to true if position reached. after that stop turning
//#define MOTOR_STOP(); srWrite(SRPIN_MOTOR_IN1,LOW); srWrite(SRPIN_MOTOR_IN2,LOW);
//#define MOTOR_LEFT(); srWrite(SRPIN_MOTOR_IN1,LOW); srWrite(SRPIN_MOTOR_IN2,HIGH);
//#define MOTOR_RIGHT(); srWrite(SRPIN_MOTOR_IN1,HIGH); srWrite(SRPIN_MOTOR_IN2,LOW);
//#define MOTOR_TURNING() (srRead(SRPIN_MOTOR_IN1) != srRead(SRPIN_MOTOR_IN2))
#define MOTOR_STOP(); digitalWrite(PIN_MOTOR_IN1,LOW); digitalWrite(PIN_MOTOR_IN2,LOW);
#define MOTOR_LEFT(); digitalWrite(PIN_MOTOR_IN1,LOW); digitalWrite(PIN_MOTOR_IN2,HIGH);
#define MOTOR_RIGHT(); digitalWrite(PIN_MOTOR_IN1,HIGH); digitalWrite(PIN_MOTOR_IN2,LOW);
#define MOTOR_LEFT_PWM(); digitalWrite(PIN_MOTOR_IN1,LOW); analogWrite(PIN_MOTOR_IN2,motorspeed);
#define MOTOR_RIGHT_PWM(); analogWrite(PIN_MOTOR_IN1,motorspeed); digitalWrite(PIN_MOTOR_IN2,LOW);
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#define MOTOR_TURNING() (digitalRead(PIN_MOTOR_IN1) != digitalRead(PIN_MOTOR_IN2))
//Motorcheck
long last_motorcheck=0;
#define INTERVAL_MOTORCHECK 100 //check motor movement every x ms
//int poti_read_last=0;
//int motor_vel=0; //analog read units per second //TODO: reintroduce into code or remove
//#define MINIMUM_MOTORVEL 20 //minimum velocity motor should turn wenn active
//#define MOTOR_FAILTIME 500 //in ms. if motor did not turn fox x amount of time at least with MINIMUM_MOTORVEL an error will initiate
//long last_motorTooSlow=0; //typically 0
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float motorP=4.0;
float motorI=0.5;
float potidifference_integral=0;
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#define MOTORI_ANTIWINDUP 200 //maximum value for (potidifference_integral*motorI). time depends on INTERVAL_MOTORCHECK
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//Motor starts moving at about speed=80
long last_potidifferenceLow=0;
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#define DEADZONETIMEUNTILREACHED 250 //time [ms] poti read value has to be inside of deadzone to set reachedposition flag (and stop regulating)
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//error
boolean motorerror=false;
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//Menu system
uint8_t menu_mode=0; //0= volume set mode, 1=mute output selection, 2=output group selection
uint8_t menu_selectedChannel=0;
#define MENU_MAXCHANNEL 7
long last_ledupdate=0;
#define INTERVAL_LEDUPDATE 50
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void setup() {
pinMode(PIN_BUTTON,INPUT_PULLUP);
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button_knob = Button();
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pinMode(PIN_POT,INPUT);
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pinMode(SRLATCH, OUTPUT);
pinMode(SRCLOCK, OUTPUT);
pinMode(SRDATA, OUTPUT);
Serial.begin(9600);
while (!Serial) {};
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Serial.println("Boot");
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leds.begin();
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leds.clear();
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for(uint8_t i=0;i<leds.numPixels();i++){ //set color of all leds
leds.setPixelColor(i, leds.Color(100,100,100));
}
leds.show();
if (useethernet)
{
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Serial.println("trying DHCP");
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if (Ethernet.begin(mac) == 0) { // setup ethernet communication using DHCP
useethernet=false;
//Unable to configure Ethernet using DHCP
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Serial.println("DHCP Err");
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delay(200);
//for (;;);
}else{
useethernet=true;
Serial.print("IP address: ");
Serial.println(Ethernet.localIP());
Serial.println();
ip = String (Ethernet.localIP()[0]);
ip = ip + ".";
ip = ip + String (Ethernet.localIP()[1]);
ip = ip + ".";
ip = ip + String (Ethernet.localIP()[2]);
ip = ip + ".";
ip = ip + String (Ethernet.localIP()[3]);
//Serial.println(ip);
// setup mqtt client
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Serial.println("Conf MQTT");
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mqttClient.setClient(ethClient);
mqttClient.setServer("10.0.0.1", 1883);
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Serial.println("MQTT ok");
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mqttClient.setCallback(callback);
}
}else{
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Serial.println("Eth disabled");
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}
poti_set=analogRead(PIN_POT);
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#ifdef DEBUG
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Serial.println("Ready");
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#endif
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last_send = millis();
}
void reconnect() {
// Loop until reconnected
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if (!mqttClient.connected()) {
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Serial.print("Connect MQTT ..");
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// Attempt to connect
if (mqttClient.connect(CLIENT_ID)) {
Serial.println("connected");
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publishCurrentSetVolume();
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mqttClient.publish("audiomixer/ip", ip.c_str()); //Publish own ip
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mqttClient.subscribe("audiomixer/volume/set"); //subscribe to /set, republish without /set
mqttClient.subscribe("audiomixer/mute/set"); //without range
for (uint8_t i=0;i<NUMMUTECHANNELS;i++) { //with range
String sub_topic="audiomixer/mute_"+String(i)+"/set";
mqttClient.subscribe((char*) sub_topic.c_str());
}
mqttClient.subscribe("audiomixer/select/set"); //without range
for (uint8_t i=0;i<NUMSELECTCHANNELS;i++) { //with range
String sub_topic="audiomixer/select_"+String(i)+"/set";
mqttClient.subscribe((char*) sub_topic.c_str());
}
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} else {
Serial.print("failed, rc=");
Serial.print(mqttClient.state());
}
}
}
void loop() {
long loopmillis=millis();
if (useethernet){
if (!mqttClient.connected()) {
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if (loopmillis-last_mqttreconnectattempt > MQTTRECONNECTDELAY) {
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Serial.println("Recon. mqtt");
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reconnect();
last_mqttreconnectattempt=loopmillis;
}
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}
mqttClient.loop();
}
//Serial Input ##############################################
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/*For debugging
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while (Serial.available() > 0) {
int _value = Serial.parseInt();
if (Serial.read() == '\n') {
Serial.print("value=");
Serial.println(_value);
//poti_set=_value;
//poti_reachedposition=false; //aim for new position
srWrite(_value,!srRead(_value));
}
}
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*/
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//Inputs ###################################################
poti_read=poti_read*POTIFILTER + (1.0-POTIFILTER)*analogRead(PIN_POT); //read poti
button_knob.update(millis(),!digitalRead(PIN_BUTTON)); //Update routine
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if (button_knob.buttonPressed()){ //short press
switch(menu_mode) {
case 0: //volume
//TODO: implement someting here, muting maybe?
break;
case 1: //mute
if (menu_selectedChannel<=MENU_MAXCHANNEL) { //inside valid range
setMuteChannel(menu_selectedChannel,!getMute(menu_selectedChannel)); // mute/unmute menu_selectedChannel
}else{ //nothing selected
menu_mode = 0; //return to volume mode
}
break;
case 2: //group selection
if (menu_selectedChannel<=MENU_MAXCHANNEL) { //inside valid range
setSelectionChannel(menu_selectedChannel,!getSelection(menu_selectedChannel)); // toggle selection menu_selectedChannel
}else{ //nothing selected
menu_mode = 0; //return to volume mode
}
break;
}
}else if(button_knob.buttonHold()){ //long press
switch(menu_mode) {
case 0: //volume
menu_mode = 1; //change to mute select mode
break;
case 1: //mute
menu_mode = 2; //change to output group select mode. (hold button a second time)
break;
case 2: //group selection
menu_mode = 1; //change back to mute select mode
break;
}
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}
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//Read Encoder to velocity "volEncVel"
int volEncVel=0;
int _volEnc=volEnc.read();
if (_volEnc!=0){ //encoder moved
volEncVel=_volEnc;
volEnc.write(0); //reset value
}
//Input Handling
if (volEncVel!=0){ //knob moved
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switch(menu_mode) {
case 0: //volume
poti_set+=volEncVel*encoderMultiplier; //change poti set value
poti_set=constrain(poti_set, POT_MIN,POT_MAX);
poti_reachedposition=false;
publishCurrentSetVolume();
break;
case 1: case 2: //mute or group selection
menu_selectedChannel+=127; //offset to compensate negative values
menu_selectedChannel+=volEncVel;
if (menu_selectedChannel<127){
menu_selectedChannel=127; //lower limit (0)
}else if (menu_selectedChannel > MENU_MAXCHANNEL+1) { //max channel and one extra for "nothing selected"
menu_selectedChannel=127+MENU_MAXCHANNEL+1; //upper limit
}
menu_selectedChannel-=127; //take out offset
break;
}
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}
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//Motor Movement Routine #################
if (!motorerror) //motor not stuck etc
{
if (loopmillis-last_motorcheck>INTERVAL_MOTORCHECK)
{
last_motorcheck=loopmillis;
int potidifference=poti_set-poti_read; //positive means poti needs to be moved higher. max poti value is 1023
if (poti_reachedposition) {
motorspeed=0;
potidifference_integral=0;
MOTOR_STOP();
}else{ //not reached position
int _motormove=0; //negative: move left, positive: move right. abs value: speed. 0 <= abs(_motormove) <= 255
potidifference_integral+=potidifference*motorI;
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potidifference_integral=constrain(potidifference_integral,-MOTORI_ANTIWINDUP,MOTORI_ANTIWINDUP); //constrain
_motormove=potidifference*motorP+potidifference_integral;
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motorspeed=constrain(abs(_motormove), 0,MAX_MOTOR_PWM);
if (poti_read<=POT_MIN && _motormove<0) { //stop motor if soft endstops reached and wants to turn that way
MOTOR_STOP();
potidifference_integral=0;
_motormove=0;
}else if (poti_read>=POT_MAX && _motormove>0){ //stop motor if soft endstops reached and wants to turn that way
MOTOR_STOP();
potidifference_integral=0;
_motormove=0;
}else{ //no endstop reached
if (_motormove<0) {
MOTOR_LEFT_PWM();
}else if (_motormove>0) {
MOTOR_RIGHT_PWM();
}else{
MOTOR_STOP();
}
}
if (abs(potidifference)<DEADZONE_POTI) {
if (last_potidifferenceLow==0){
last_potidifferenceLow=loopmillis; //save millis first time entered deadzone
}
if (loopmillis-last_potidifferenceLow>DEADZONETIMEUNTILREACHED) {
poti_reachedposition=true;
}
}else{
last_potidifferenceLow = 0;
}
}
}
}
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if ( loopmillis > last_ledupdate+INTERVAL_LEDUPDATE){
last_ledupdate=loopmillis;
switch(menu_mode) {
case 0: //volume
for(uint8_t i=0;i<leds.numPixels();i++){ //set color of all leds
leds.setPixelColor(i, Wheel(wheelpos+i*10));
}
wheelpos+=1;
break;
case 1: case 2: //group selection //mute
//show selected channel
leds.clear();
uint8_t _r=0;
uint8_t _g=0;
uint8_t _b=0;
for(uint8_t i=0;i<leds.numPixels();i++){ //set color of all leds
if (menu_mode==1) { //in mute mode
if (!getMute(i)) { //not muted
_r = 0; _g = 50; _b = 0;
}else{ //muted
_r = 50; _g = 0; _b = 50;
}
}else if(menu_mode==2) { //in selection mode
if (!getSelection(i)) { //Selected A
_r = 50; _g = 50; _b = 50;
}else{ //Selected B
_r = 50; _g = 0; _b = 0;
}
}
if (menu_selectedChannel==i) { //this item is currently selected
_r*=4; //make color brighter
_g*=4;
_b*=4;
}
if (menu_selectedChannel==MENU_MAXCHANNEL+1) { //nothing selected
_r=50; _g=50; _b=50;
}
leds.setPixelColor(i, leds.Color(_r,_g,_b));
}
break;
}
leds.show();
}
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if ( loopmillis > last_serialdebug+INTERVAL_SERIALDEBUG){
last_serialdebug=loopmillis;
Serial.print(" set=");
Serial.print(poti_set);
Serial.print(" is=");
Serial.print(poti_read);
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Serial.print(" mspeed=");
Serial.print(motorspeed);
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Serial.print(" iVal=");
Serial.print(potidifference_integral);
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if (poti_reachedposition) {
Serial.print("!");
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}
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Serial.println("");
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}
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if (loopmillis%5001==0) { //TODO: remove when working
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Serial.println(loopmillis); //alive print. for debugging
}
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}
void callback(char* topic, byte* payload, unsigned int length) {
payload[length] = '\0'; //add end of string character
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String spayload = String((char*)payload);
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Serial.print("Message arrived:");
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Serial.print(topic);
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for (unsigned int i = 0; i < length; i++) {
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Serial.print((char)payload[i]);
}
Serial.println();
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if (String(topic).equals("audiomixer/volume/set")){
float _floatvalue = spayload.toFloat();
_floatvalue=constrain(_floatvalue,0.0,100.0);
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poti_set=constrain(map(_floatvalue,0.0,100.0,POT_MIN,POT_MAX),POT_MIN,POT_MAX); //set new poti position
poti_reachedposition=false; //aim for new position
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publishCurrentSetVolume();
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}else if (String(topic).equals("audiomixer/mute/set")) { //withouth range
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//Serial.print("Mute string="); Serial.println(spayload);
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uint16_t ipayload=spayload.toInt();
if (spayload.equalsIgnoreCase("false")) {
setMuteInt(0); //all unmuted
}else if (spayload.equalsIgnoreCase("true")) {
setMuteInt(pow(2,NUMMUTECHANNELS)-1); //all muted
}else if (ipayload>=0 && ipayload<((uint16_t)1<<NUMMUTECHANNELS)){ //in range
setMuteInt(ipayload); //set bits directly
}
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publishAllStates(NUMMUTECHANNELS,"mute_", &getMute);
}else if (String(topic).equals("audiomixer/select/set")) { //withouth range
//Serial.print("Select string="); Serial.println(spayload);
uint16_t ipayload=spayload.toInt();
if (spayload.equalsIgnoreCase("false")) {
setSelectionInt(0); //all select to NC
}else if (spayload.equalsIgnoreCase("true")) {
setSelectionInt(pow(2,NUMSELECTCHANNELS)-1); //all select to NO
}else if (ipayload>=0 && ipayload<((uint16_t)1<<NUMSELECTCHANNELS)){ //in range
setSelectionInt(ipayload); //set bits directly
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}
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publishAllStates(NUMSELECTCHANNELS,"select_", &getSelection);
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}else if (String(topic).startsWith("audiomixer/mute_")) { //with range
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changeRelaisByNumber(NUMMUTECHANNELS,"audiomixer/mute_", topic, spayload, &setMuteChannel);
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}else if (String(topic).startsWith("audiomixer/select_")) {
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changeRelaisByNumber(NUMSELECTCHANNELS,"audiomixer/select_", topic, spayload, &setSelectionChannel);
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}
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}
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void srWrite(uint8_t pbit, boolean state){ //change bit to state
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if (state==true){
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srbits |= 1UL << pbit; //set bit
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}else{
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srbits &= ~(1UL << pbit); //clear bit
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}
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srShiftOut();
}
void srShiftOut(){
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digitalWrite(SRLATCH, LOW);
shiftOut(SRDATA, SRCLOCK, MSBFIRST, srbits>>8);
shiftOut(SRDATA, SRCLOCK, MSBFIRST, srbits);
digitalWrite(SRLATCH, HIGH);
}
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boolean srRead(uint8_t pbit){ //get state at bit
return (srbits >> pbit) & 1U;
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}
uint32_t Wheel(byte WheelPos) {
WheelPos = 255 - WheelPos;
if(WheelPos < 85) {
return leds.Color(255 - WheelPos * 3, 0, WheelPos * 3);
}
if(WheelPos < 170) {
WheelPos -= 85;
return leds.Color(0, WheelPos * 3, 255 - WheelPos * 3);
}
WheelPos -= 170;
return leds.Color(WheelPos * 3, 255 - WheelPos * 3, 0);
}
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void setMuteInt(uint8_t i) {
uint16_t mask=(( (uint16_t)1<<(NUMMUTECHANNELS))-1 )<<NUMSELECTCHANNELS;
srbits = ((i<<NUMSELECTCHANNELS) & mask) | (srbits & ~mask);
srShiftOut();
}
boolean getMute(uint8_t pbit) {
return srbits & (1<<(pbit+NUMSELECTCHANNELS)); //check bit at position
}
void setSelectionInt(uint8_t i) {
uint16_t mask=(( (uint16_t)1<<(NUMMUTECHANNELS))-1 )<<NUMSELECTCHANNELS;
srbits = (srbits & mask) | (i & ~mask);
srShiftOut();
}
boolean getSelection(uint8_t pbit) {
return srbits & (1<<pbit); //check bit at position
}
void setSelectionChannel(uint8_t i, boolean state){
if (i<NUMSELECTCHANNELS) {
srWrite(i, state);
}
}
void setMuteChannel(uint8_t i, boolean state){
if (i<NUMMUTECHANNELS) {
srWrite(i+NUMSELECTCHANNELS, state); //offset. selection is first shift register
}
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}
void publishCurrentSetVolume()
{
float _setpercentage=map(poti_set,POT_MIN,POT_MAX, 0.0,100.0); //get percentage from set poti value
char pub_payload[8]; // Buffer big enough for 7-character float
dtostrf(_setpercentage, 1, 2, pub_payload);
mqttClient.publish("audiomixer/volume", pub_payload);
Serial.print("pub="); Serial.println(_setpercentage);
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}
void publishAllStates(int pn, String pTopicname, boolean (*pgetBit) (uint8_t)){
for (uint8_t i=0;i<pn;i++) {
String pub_topic = mqttdevname+pTopicname+String(i);
boolean _state=pgetBit(i);
if (_state) {
mqttClient.publish((char*) pub_topic.c_str(), "true");
}else{
mqttClient.publish((char*) pub_topic.c_str(), "false");
}
}
}
void changeRelaisByNumber(uint8_t pn, String pTopicPrefix, String pTopic, String pspayload, void (*psetXChannel) (uint8_t, boolean))
{
uint8_t _index=255;
for (uint8_t i=0; i<pn && _index==255; i++) {
if (String(pTopic).equals(pTopicPrefix+String(i)+"/set")) {
_index=i;
}
}
if (_index==255) {
Serial.println("Index OOR");
}else{ //index ok
String pub_topic = pTopicPrefix+String(_index);
if (pspayload.equalsIgnoreCase("false")) {
psetXChannel(_index,false);
mqttClient.publish((char*) pub_topic.c_str(), "false");
}else if (pspayload.equalsIgnoreCase("true")) {
psetXChannel(_index,true);
mqttClient.publish((char*) pub_topic.c_str(), "true");
}
}
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}