Skip to content
View Akbar0333's full-sized avatar

Block or report Akbar0333

Block user

Prevent this user from interacting with your repositories and sending you notifications. Learn more about blocking users.

You must be logged in to block users.

Please don't include any personal information such as legal names or email addresses. Maximum 100 characters, markdown supported. This note will be visible to only you.
Report abuse

Contact GitHub support about this user’s behavior. Learn more about reporting abuse.

Report abuse
Akbar0333/README.md

#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); }

Pinned Loading

  1. github/training-kit github/training-kit Public

    Open source courseware for Git and GitHub

    HTML 4.4k 4.4k