Update redirect #1026
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Update redirect #1026
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#include <EEPROM.h>
#include <SoftwareSerial.h>
SoftwareSerial bt(0,2);
String inputs;
#define stop A0//0push
#define start A1//0push
#define on A2
#define off A3
#define Send A5//outpt waire
int value = A5; //moter reding waire
//newturn pins 4 7 10
int values=0,sete=0;
#define bling 10//mode
#define Relay1 6//mode led
#define bazar 8 //bazar
#define r2 9 //timer start send > A4
#define moter 11 //on relay man time
#define r1 11 //on relay man time
#define r3 12 //off relay
#define dipar 13 //dipar
int re1 = 0,re2 = 0,re3 = 0,time=0;
int Load = 0, Mode=0;
int de=0,count=0,mm=0,ss=0,hh=0,timer=0;
void setup() {
bt.begin(9600);
Serial.begin(9600);
digitalWrite(moter,LOW);
pinMode(dipar, OUTPUT);
pinMode(bazar, OUTPUT);
pinMode(moter, OUTPUT);
digitalWrite(moter,LOW);
pinMode(Relay1, OUTPUT);
pinMode(bling, OUTPUT);
pinMode(r1, OUTPUT);
pinMode(r2, OUTPUT);
pinMode(r3, OUTPUT);
pinMode(start, INPUT_PULLUP);
pinMode(stop, INPUT_PULLUP);
pinMode(Send, INPUT_PULLUP);
pinMode(off, INPUT_PULLUP);
pinMode(value, INPUT_PULLUP);
pinMode(on,INPUT_PULLUP);
delay(5000);
re1 = EEPROM.read(11);
re2 = EEPROM.read(12);
re3 = EEPROM.read(13);
digitalWrite(r1, re1);
digitalWrite(r2, re2);
digitalWrite(r3, re3);
if (EEPROM.read(0) == 0) {
} else {
de_write();
count_write();
values_write();
sete_write();
EEPROM.write(0, 0);
EEPROM.write(1, 1);
}
de_read();
count_read();
read_eeprom();
values_read();
sete_read();
}
void read_eeprom() {
Mode = EEPROM.read(1);
}
void loop() {
int value = analogRead(A5);
value = value -1;
value = value + sete;
if (digitalRead(stop) == 0) {
digitalWrite(r1,0);
delay(300);
digitalWrite(bling,LOW);
digitalWrite(dipar,LOW);
digitalWrite(r3,0);
EEPROM.write(13,0);
delay(200);
if (hh == 0) {
hh = 1;
Mode = !Mode;
EEPROM.write(1, Mode);
delay(100);
}
} else {
hh = 0;
}
if (Mode == 1) {
digitalWrite(Relay1, HIGH);
//LOWshuru
if(timer<60){timer=timer+1;
if(timer<50){
bt.print(value); //send
bt.print(";");
digitalWrite(dipar, HIGH);
bt.print(timer);
bt.print(";");
}
if(timer==2){
digitalWrite(r1,0);
EEPROM.write(11,0);
digitalWrite(r3,0);
EEPROM.write(12,0);
}
delay(500);
if(timer==60){
digitalWrite(dipar,LOW);
bt.print(value); //send
bt.print(";");
timer=58;
if (value<values) {
if(time<20){time=time+1;
delay(200);
if(time==1) {
digitalWrite(bazar, HIGH);
}
if(time==20){
digitalWrite(bazar, LOW);
}
}
delay(2000);
digitalWrite(moter, HIGH);
digitalWrite(r3,0);
EEPROM.write(13,0);
}
else if(value<310){
digitalWrite(bazar, LOW);
digitalWrite(moter, LOW);
}
else if(value<0){
if(time<20){time=time+1;
delay(200);
if(time==1) {
digitalWrite(bazar, HIGH);
}
if(time==20){
digitalWrite(bazar, LOW);
}
}
digitalWrite(bazar, LOW);
digitalWrite(moter,HIGH);
}
Serial.println(value);
}
}
while (Serial.available())
{
delay(10);
char c = Serial.read();
inputs += c;
if (inputs.length() > 0) {
Serial.println(inputs);
if(inputs == "@") {
values=values+1;
delay(200);
values_write();
for(int t=1;t<=5;t++){
delay(100);
bt.print(values);
bt.print(";");
}
}
else if(inputs == "&") {
values=values-1;
delay(200);
values_write();
for(int t=1;t<=5;t++){
delay(100);
bt.print(values);
bt.print(";");
}
}
else if(inputs == "X") {
sete=sete+1;
for(int t=1;t<=5;t++){
delay(100);
bt.print(sete);
bt.print(";");
}
Serial.println("+1 ");
}
else if(inputs == "x") {
sete=sete-1;
sete_write();
for(int t=1;t<=5;t++){
delay(100);
bt.print(sete);
bt.print(";");
}
}
else if(inputs == "E") {
digitalWrite(r1,0);
EEPROM.write(11,0);
digitalWrite(bling,HIGH);
}
else if(inputs == "S") {
sete=0;
values=10;
sete_write();
values_write();
for(int t=1;t<=10;t++){
delay(100);
bt.print(values);
bt.print(";");
bt.print(sete);
bt.print(";");
}
}
inputs = "";
}
}
//LOWpaste
}
else {
digitalWrite(Relay1, LOW);
//highshuru
if (digitalRead(Send) == 0) {
digitalWrite(dipar, HIGH);
delay(400);
digitalWrite(dipar, LOW);
delay(400);
count = count + 1;
count_write();
if(timer<60){timer=timer+1;
if(timer==2) {
delay(100);
digitalWrite(r1,0);
digitalWrite(r3,0);
}
bt.print(value); //send
bt.print(";");
if(timer<50){
bt.print(timer);
bt.print(";");
}
if(timer==60){
digitalWrite(r1,0);
digitalWrite(r3,0);
timer=58;
if (value<values) {
if(time<20){time=time+1;
delay(200);
if(time==1) {
digitalWrite(bazar, HIGH);
}
if(time==20){
digitalWrite(bazar, LOW);
}
}
digitalWrite(moter, HIGH);
digitalWrite(r3,0);
EEPROM.write(13,0);
}
else if(value<310){
digitalWrite(bazar, LOW);
digitalWrite(moter, LOW);
}
else if(value<0){
if(time<20){time=time+1;
delay(200);
if(time==1) {
digitalWrite(bazar, HIGH);
}
if(time==20){
digitalWrite(bazar, LOW);
}
}
digitalWrite(bazar, LOW);
digitalWrite(moter,HIGH);
}
}
}
bt.print(count);
bt.print(";");
if (count > de) {
digitalWrite(bling,HIGH);
count = 0;
count_write();
digitalWrite(bazar, HIGH);
delay(1000);
digitalWrite(r1, 1);//offrelay
digitalWrite(r2, 0);
digitalWrite(r3,0);
digitalWrite(bazar, LOW);
}
}
if(digitalRead(start)==0){
count=0;
count_write();
timer=0;
digitalWrite(bazar, HIGH);
delay(200);
//only on
digitalWrite(r1,0);
digitalWrite(r2,1);
}
else{
delay(200);
digitalWrite(bazar,LOW);
}
if(digitalRead(on)==0) {
digitalWrite(bazar, HIGH);
timer=0;
delay(200);
count = 0;
count_write();
digitalWrite(r1,0);
EEPROM.write(11,0);
digitalWrite(r3,1);
EEPROM.write(13,0);
digitalWrite(r2,1);
EEPROM.write(12,0);
delay(1000);
digitalWrite(bazar,LOW);
digitalWrite(r3,0);
EEPROM.write(13,0);
}
if (digitalRead(off) == 0) {
digitalWrite(dipar, HIGH);
delay(200);
digitalWrite(dipar, LOW);
delay(200);
digitalWrite(bazar, HIGH);
digitalWrite(r1, 1);
EEPROM.write(11, 0);
digitalWrite(r2, 0);
EEPROM.write(12,0);
delay(1000);
digitalWrite(bazar, LOW);
}
//HIGHpaste
}
while (Serial.available())
{
delay(10);
char c = Serial.read();
inputs += c;
if (inputs.length() > 0) {
Serial.println(inputs);
if(inputs == "A") {
digitalWrite(bazar, HIGH);
timer=0;
count=0;
count_write();
digitalWrite(r1,0);
digitalWrite(r2,1); //onrelay
digitalWrite(r3,1);
delay(2000);
//only on
digitalWrite(r3,0);
delay(500);
digitalWrite(bazar,LOW);
}
else if(inputs == "a") {
digitalWrite(bazar, HIGH);
digitalWrite(r1,1);
digitalWrite(r3,0);
digitalWrite(r2,0); //onrelay time
delay(100);
//only on
delay(500);
digitalWrite(bazar,LOW);
}
else if(inputs == "B") {
digitalWrite(r2,1); //onrelay
EEPROM.write(12,1);
}
else if(inputs == "b") {
digitalWrite(r2, 0);//onrelay
EEPROM.write(12,0);
digitalWrite(r3,0); //onrelay
EEPROM.write(13,0);//TIMER on
}
else if(inputs == "C") {
digitalWrite(r1, 0);//offrelay
EEPROM.write(11, 0);
digitalWrite(r2,1);
EEPROM.write(12,1);
digitalWrite(r3,1); //onrelay
EEPROM.write(13,1);//TIMER on
}
else if(inputs == "c") { //onlyoff
digitalWrite(r1,1);//offrelay
EEPROM.write(11, 1);
digitalWrite(r2,0);
EEPROM.write(12,0);
digitalWrite(r3,0);
EEPROM.write(13,0);
}
else if(inputs == "E") {
digitalWrite(r1,0);
EEPROM.write(11,0);
digitalWrite(bling,HIGH);
}
else if(inputs == "Y") {
digitalWrite(dipar, HIGH);
delay(200);
digitalWrite(dipar, LOW);
delay(200);
if(mm<10){mm=mm+1;
if(mm==10){
digitalWrite(bazar,HIGH);
delay(500);
digitalWrite(bazar,LOW);
mm=0;
}
}
de=de +60;
de_write();
for(int t=1;t<=5;t++){
delay(100);
bt.print(de);
bt.print(";");
}
Serial.println(de);
Serial.println("+59 ");
}
else if(inputs == "y") {
digitalWrite(dipar, HIGH);
delay(200);
digitalWrite(dipar, LOW);
delay(200);
if (de > 0) {
if(mm<10){mm=mm+1;
if(mm==10){
digitalWrite(bazar,HIGH);
delay(500);
digitalWrite(bazar,LOW);
mm=0;
}
}
de=de-60;
de_write();
for(int t=1;t<=5;t++){
delay(100);
bt.print(de);
bt.print(";");
}
Serial.println(de);
Serial.println("-60 ");
}
}
else if(inputs == "W"){
de=60;
de_write();
for(int t=1;t<=5;t++){
delay(100);
bt.print(de);
bt.print(";");
}
}
else if(inputs == "@") {
values=values+1;
delay(200);
values_write();
for(int t=1;t<=5;t++){
delay(100);
bt.print(values);
bt.print(";");
}
}
else if(inputs == "&") {
values=values-1;
delay(200);
values_write();
for(int t=1;t<=5;t++){
delay(100);
bt.print(values);
bt.print(";");
}
}
else if(inputs == "X") {
sete=sete+1;
sete_write();
for(int t=1;t<=5;t++){
delay(100);
bt.print(sete);
bt.print(";");
}
Serial.println("+1 ");
}
else if(inputs == "x") {
sete=sete-1;
sete_write();
for(int t=1;t<=5;t++){
delay(100);
bt.print(sete);
bt.print(";");
}
}
else if(inputs == "S") {
sete=0;
values=10;
sete_write();
values_write();
for(int t=1;t<=10;t++){
delay(100);
bt.print(sete);
bt.print(";");
bt.print(values);
bt.print(";");
}
}
inputs = "";
}
}
}
void de_write() {
EEPROM.write(2, de % 10);
EEPROM.write(3, (de / 10) % 10);
EEPROM.write(4, (de / 100) % 10);
EEPROM.write(5, (de / 1000) % 10);
}
void de_read() {
de = EEPROM.read(5) * 1000 + EEPROM.read(4) * 100 + EEPROM.read(3) * 10 + EEPROM.read(2);
}
void count_write() {
EEPROM.write(6, count % 10);
EEPROM.write(7, (count / 10) % 10);
EEPROM.write(8, (count / 100) % 10);
EEPROM.write(9, (count / 1000) % 10);
}
void count_read() {
count = EEPROM.read(9) * 1000 + EEPROM.read(8) * 100 + EEPROM.read(7) * 10 + EEPROM.read(6);
}
void values_write() {
EEPROM.write(15, values % 10);
EEPROM.write(16, (values / 10) % 10);
EEPROM.write(17, (values / 100) % 10);
EEPROM.write(18, (values / 1000) % 10);
}
void values_read() {
values = EEPROM.read(18) * 1000 + EEPROM.read(17) * 100 + EEPROM.read(16) * 10 + EEPROM.read(15);
}
void sete_write() {
EEPROM.write(19, sete % 10);
EEPROM.write(20, (sete / 10) % 10);
EEPROM.write(21, (sete / 100) % 10);
EEPROM.write(22, (sete / 1000) % 10);
}
void sete_read() {
sete = EEPROM.read(22) * 1000 + EEPROM.read(20) * 100 + EEPROM.read(21) * 10 + EEPROM.read(19);
}
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#include <EEPROM.h>
#include <SoftwareSerial.h>
SoftwareSerial bt(0,2);
String inputs;
#define stop A0//0push
#define start A1//0push
#define on A2
#define off A3
#define Send A5//outpt waire
int value = A5; //moter reding waire
//newturn pins 4 7 10
int values=0,sete=0;
#define bling 10//mode
#define Relay1 6//mode led
#define bazar 8 //bazar
#define r2 9 //timer start send > A4
#define moter 11 //on relay man time
#define r1 11 //on relay man time
#define r3 12 //off relay
#define dipar 13 //dipar
int re1 = 0,re2 = 0,re3 = 0,time=0;
int Load = 0, Mode=0;
int de=0,count=0,mm=0,ss=0,hh=0,timer=0;
void setup() {
bt.begin(9600);
Serial.begin(9600);
digitalWrite(moter,LOW);
pinMode(dipar, OUTPUT);
pinMode(bazar, OUTPUT);
pinMode(moter, OUTPUT);
digitalWrite(moter,LOW);
pinMode(Relay1, OUTPUT);
pinMode(bling, OUTPUT);
pinMode(r1, OUTPUT);
pinMode(r2, OUTPUT);
pinMode(r3, OUTPUT);
pinMode(start, INPUT_PULLUP);
pinMode(stop, INPUT_PULLUP);
pinMode(Send, INPUT_PULLUP);
pinMode(off, INPUT_PULLUP);
pinMode(value, INPUT_PULLUP);
pinMode(on,INPUT_PULLUP);
delay(5000);
re1 = EEPROM.read(11);
re2 = EEPROM.read(12);
re3 = EEPROM.read(13);
digitalWrite(r1, re1);
digitalWrite(r2, re2);
digitalWrite(r3, re3);
if (EEPROM.read(0) == 0) {
} else {
count_write();
values_write();
sete_write();
EEPROM.write(0, 0);
EEPROM.write(1, 1);
}
de_read();
count_read();
read_eeprom();
values_read();
sete_read();
}
void read_eeprom() {
Mode = EEPROM.read(1);
}
void loop() {
int value = analogRead(A5);
value = value -1;
value = value + sete;
if (digitalRead(stop) == 0) {
digitalWrite(r1,0);
} else {
hh = 0;
}
if (Mode == 1) {
digitalWrite(bazar, LOW);
digitalWrite(moter, LOW);
}
Serial.println(value);
{
}
}
}
delay(100);
bt.print(sete);
bt.print(";");
}
Serial.println("+1 ");
delay(100);
bt.print(sete);
bt.print(";");
}
}
}
else {
}
if(digitalRead(start)==0){
count=0;
count_write();
timer=0;
digitalWrite(bazar, HIGH);
delay(200);
//only on
digitalWrite(r1,0);
if (digitalRead(off) == 0) {
digitalWrite(dipar, HIGH);
delay(200);
digitalWrite(dipar, LOW);
delay(200);
//HIGHpaste
}
while (Serial.available())
{
de=de +60;
if(mm<10){mm=mm+1;
if(mm==10){
}
void de_write() {
EEPROM.write(2, de % 10);
EEPROM.write(3, (de / 10) % 10);
EEPROM.write(4, (de / 100) % 10);
EEPROM.write(5, (de / 1000) % 10);
}
void de_read() {
de = EEPROM.read(5) * 1000 + EEPROM.read(4) * 100 + EEPROM.read(3) * 10 + EEPROM.read(2);
}
void count_write() {
EEPROM.write(6, count % 10);
EEPROM.write(7, (count / 10) % 10);
EEPROM.write(8, (count / 100) % 10);
EEPROM.write(9, (count / 1000) % 10);
}
void count_read() {
count = EEPROM.read(9) * 1000 + EEPROM.read(8) * 100 + EEPROM.read(7) * 10 + EEPROM.read(6);
}
void values_write() {
EEPROM.write(15, values % 10);
EEPROM.write(16, (values / 10) % 10);
EEPROM.write(17, (values / 100) % 10);
EEPROM.write(18, (values / 1000) % 10);
}
void values_read() {
values = EEPROM.read(18) * 1000 + EEPROM.read(17) * 100 + EEPROM.read(16) * 10 + EEPROM.read(15);
}
void sete_write() {
EEPROM.write(19, sete % 10);
EEPROM.write(20, (sete / 10) % 10);
EEPROM.write(21, (sete / 100) % 10);
EEPROM.write(22, (sete / 1000) % 10);
}
void sete_read() {
sete = EEPROM.read(22) * 1000 + EEPROM.read(20) * 100 + EEPROM.read(21) * 10 + EEPROM.read(19);
}