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#include <ArduinoJson.h>
class Metrics {
public:
//sensor readings
int rightDistance, leftDistance, frontDistance;
String labelRD = "rightDistance";
String labelLD = "leftDistance";
String labelFD = "frontDistance";
//method that returns the distances in a json format
String toString() {
return ("{\"" + labelRD + "\":\"" + rightDistance + "\",\"" + labelLD + "\":\"" + leftDistance + "\",\"" + labelFD + "\":\"" + frontDistance + "\"}");
};
};
// Input pins for motors. Side: Right/Left Cable Color: Red/Black
const int in_RR = 6 ;
const int in_RK = 9 ;
const int in_LR = 11 ;
const int in_LK = 10 ;
// define sensor pins t->trig e->echo
const int rightTPin = 2;
const int rightEPin = 3;
const int leftTPin = 7;
const int leftEPin = 8;
const int frontTPin = 4;
const int frontEPin = 5;
//define values for speed
const int high = 150;
const int low = 0;
const int capacity = 6 * JSON_OBJECT_SIZE(3);
Metrics *m = new Metrics();
//function to get input from a sensor
void getRightDistance() {
// Clears the trigPin
digitalWrite(rightTPin, LOW);
delayMicroseconds(2);
// Sets the trigPin on HIGH state for 10 micro seconds
digitalWrite(rightTPin, HIGH);
delayMicroseconds(10);
digitalWrite(rightTPin, LOW);
// Reads the echoPin, returns the sound wave travel time in microseconds
long duration = pulseIn(rightEPin, HIGH);
m->rightDistance = duration * 0.034 / 2;
}
void getLeftDistance() {
// Clears the trigPin
digitalWrite(leftTPin, LOW);
delayMicroseconds(2);
// Sets the trigPin on HIGH state for 10 micro seconds
digitalWrite(leftTPin, HIGH);
delayMicroseconds(10);
digitalWrite(leftTPin, LOW);
// Reads the echoPin, returns the sound wave travel time in microseconds
long duration = pulseIn(leftEPin, HIGH);
m->leftDistance = duration * 0.034 / 2;
}
void getFrontDistance() {
// Clears the trigPin
digitalWrite(frontTPin, LOW);
delayMicroseconds(2);
// Sets the trigPin on HIGH state for 10 micro seconds
digitalWrite(frontTPin, HIGH);
delayMicroseconds(10);
digitalWrite(frontTPin, LOW);
// Reads the echoPin, returns the sound wave travel time in microseconds
long duration = pulseIn(frontEPin, HIGH);
m->frontDistance = duration * 0.034 / 2;
}
//functions to control the car
void turnRight() {
analogWrite(in_RR, low);
analogWrite(in_RK, high);
analogWrite(in_LK, low);
analogWrite(in_LR, high);
}
void turnLeft() {
analogWrite(in_RR, high);
analogWrite(in_RK, low);
analogWrite(in_LK, high);
analogWrite(in_LR, low);
}
void forward() {
analogWrite(in_RR, high) ;
analogWrite(in_RK, low) ;
analogWrite(in_LR, high) ;
analogWrite(in_LK, low) ;
}
void brake() {
analogWrite(in_RR, low) ;
analogWrite(in_RK, low) ;
analogWrite(in_LR, low) ;
analogWrite(in_LK, low) ;
}
//function to receive command from raspberry pi
//command should be a string in json format {"code":"integer between 0-4"}
//code 0: forward
//code 1: turn right
//code 2: turn left
//code 3: turnAround !Need work
//code 4: brake
void getCommand() {
String input;
if (Serial.available() > 0) {
input = Serial.readString();
DynamicJsonDocument dict(capacity);
DeserializationError err = deserializeJson(dict, input);
int command = dict["code"].as<int>();
if (command == 0) {
forward();
}
else if (command == 1) {
turnRight();
}
else if (command == 2) {
turnLeft();
}
else if (command == 3) {
//turnAround();
}
else {
brake();
}
}
}
void setup() {
pinMode(in_RR, OUTPUT) ; //Logic pins are also set as output
pinMode(in_RK, OUTPUT) ;
pinMode(in_LR, OUTPUT) ;
pinMode(in_LK, OUTPUT) ;
pinMode(rightTPin, OUTPUT); // Sets the trigPin as an Output
pinMode(rightEPin, INPUT); // Sets the echoPin as an Input
pinMode(leftTPin, OUTPUT);
pinMode(leftEPin, INPUT);
pinMode(frontTPin, OUTPUT);
pinMode(frontEPin, INPUT);
Serial.begin(9600); // Starts the serial communication
}
void loop() {
getRightDistance();
getLeftDistance();
getFrontDistance();
Serial.println(m->toString());
getCommand();
}