int main(void)
{
const unsigned short MainCycle = 60;
Init(MainCycle);
int i;
for(i=0;i<10000;i++){
forward(EDGE);
Wait(50);
if(ADRead(0)>500){
left_motor(EDGE);
LED(1);
}
if(ADRead(1)>500){
right_motor(EDGE);
LED(2);
}
if((ADRead(1)>500)&&(ADRead(0)>500)){
stop();
LED(3);
for (;;) {
kaeru();
Wait(3000);
}
Wait(10000);
}
}
return 0;
}
int main() {
//Handle Ctrl-C quit
signal(SIGINT, sig_handler);
Shield *shield = new Shield();
//two motor setup
Motor left_motor(15, 0);
Motor right_motor(4, 2);
Gyro gyro;
IR medA = IR(2, 6149.816568, 4.468768853);
IR medB = IR(1, 2391.189039, -0.079559138);
//was 0.015, 0, 0.4
//also 0.05, 0, 0.2
//for medA:
PIDDrive driveA(&left_motor, &right_motor, shield, 0.00001, 0.0001, 0.2);
PIDDrive driveB(&left_motor, &right_motor, shield, 0.00001, 0.0001, 0.1);
int straight = 0;
int turning = 0;
double curAngle = gyro.get_angle();
/*double startDist = medA.getDistance();
double dist[5] = {startDist, startDist, startDist, startDist, startDist};
double avg = startDist;
double sum = 0;
*/
while (running) {
/*sum = 0;
for (int i = 1; i <= 4; i++) {
dist[i-1] = dist[i];
}
dist[4] = medA.getDistance();
for (int i = 0; i < 5; i++) {
sum += dist[i];
}
avg = sum / 5.;
*/
std::cout << "sensor A: " << medA.getDistance() << "\t";
std::cout << "sensor B: " << medB.getDistance() << std::endl;
//std::cout << "avg: " << avg << std::endl;
/*if (medA.getDistance() < 20 && medB.getDistance() > 30) {
turning = 0;
if (straight == 0) {
curAngle = gyro.get_angle();
}
straight++;
driv.drive(curAngle, gyro.get_angle(), 0.25); //keep driving straight
std::cout << "straight\t" << "angle: " << curAngle << std::endl;
} else if ((medA.getDistance() < 20 && medB.getDistance() < 30) || (medA.getDistance() > 30)) {
straight = 0;
if (turning == 0) {
curAngle = gyro.get_angle();
}
turning++;
//drive.drive(curAngle + 10, gyro.get_angle(), .2); //turn away from wall
drive.stop();
straight = 0;
sleep(.2);
std::cout << "turning " << "angle: " << curAngle << std::endl;
} else {
drive.drive(gyro.get_angle(), gyro.get_angle(), 0.2);
}*/
if (medB.getDistance() < 15) {
driveA.stop();
driveB.stop();
while (medB.getDistance() < 30) {
left_motor.setSpeed(shield, 0.2);
right_motor.setSpeed(shield, -0.2);
std::cout << "B" << std::endl;
}
} else if (medA.getDistance() > 80) {
left_motor.setSpeed(shield, 0.2);
right_motor.setSpeed(shield, -0.2);
usleep(300000);
} else {
turning = 0;
driveA.drive(15, medA.getDistance(), 0.2);
std::cout << "A" << std::endl;
usleep(100000);
}
/*
if (medA.getDistance() < 14) {
left_motor.setSpeed(shield, 0.2);
right_motor.setSpeed(shield, -0.15);
} else if (medA.getDistance() > 16) {
left_motor.setSpeed(shield, -0.15);
right_motor.setSpeed(shield, 0.2);
} else {
left_motor.setSpeed(shield, 0.2);
right_motor.setSpeed(shield, 0.2);
}
*/
/*if (avg < 30) {
drive.drive(gyro.get_angle(), gyro.get_angle(), -.25);
} else {
drive.drive(gyro.get_angle(), gyro.get_angle(), 0.25);
}*/
usleep(50000);
//sleep(1);
}
}
int main() {
//Handle Ctrl-C quit
signal(SIGINT, sig_handler);
Shield *shield = new Shield();
//two motor setup
Motor left_motor(15, 2);
Motor right_motor(4, 8);
Gyro gyro;
IR medA = IR(1, 6149.816568, 4.468768853);
//was 0.015, 0, 0.4
PIDDrive drive(&left_motor, &right_motor, shield, 0.05, 0, 0.2);
int straight = 0;
int turning = 0;
double curAngle = gyro.get_angle();
/*double startDist = medA.getDistance();
double dist[5] = {startDist, startDist, startDist, startDist, startDist};
double avg = startDist;
double sum = 0;
*/
while (running) {
/*sum = 0;
for (int i = 1; i <= 4; i++) {
dist[i-1] = dist[i];
}
dist[4] = medA.getDistance();
for (int i = 0; i < 5; i++) {
sum += dist[i];
}
avg = sum / 5.;
*/
std::cout << "sensor: " << medA.getDistance() << std::endl;
//std::cout << "avg: " << avg << std::endl;
if (medA.getDistance() < 30) {
if (turning == 0) {
curAngle = gyro.get_angle();
}
turning++;
drive.drive(curAngle + 90, gyro.get_angle(), .25); //turn away from wall
straight = 0;
sleep(.75);
std::cout << "turning " << "angle: " << curAngle << std::endl;
} else {
turning = 0;
if (straight == 0) {
curAngle = gyro.get_angle();
}
straight++;
drive.drive(curAngle, gyro.get_angle(), 0.25); //keep driving straight
std::cout << "straight\t" << "angle: " << curAngle << std::endl;
//sleep(0.25);
}
/*if (avg < 30) {
drive.drive(gyro.get_angle(), gyro.get_angle(), -.25);
} else {
drive.drive(gyro.get_angle(), gyro.get_angle(), 0.25);
}*/
usleep(30000);
}
}
