public void autonomousPeriodic() {
relay.set(Relay.Value.kOn);
smart.putNumber("distance", ultrasonic.getVoltage());
drive.setRun(false);
loadAndShoot.setRun(false);
// relay.set(Relay.Value.kOn);
if (autoTimer.get() < autoMoveForwardTime) {
System.out.println(
"Moving forward, Timer at "
+ autoTimer.get()
+ ", Ultrasonic at "
+ ultrasonic.getAverageVoltage());
}
if (autoTimer.get() >= autoMoveForwardTime && ultrasonic.getAverageVoltage() <= AUTO_DISTANCE) {
stop();
if (!autonomousStopped) {
autonomousStopped = true;
autoTimeAtStop = autoTimer.get();
}
System.out.println("Stopped, Ultrasonic at " + ultrasonic.getAverageVoltage());
}
if (autoTimer.get() >= autoTimeAtStop + 1 && ultrasonic.getAverageVoltage() <= AUTO_DISTANCE) {
autoStop = true;
shoot();
System.out.println("Shooting, Ultrasonic at " + ultrasonic.getAverageVoltage());
}
}
/** This function is called periodically during operator control */
public void teleopInit() {
// relayCompressor.set(Relay.Value.kOn);
relay.set(Relay.Value.kOff);
drive.setRun(true);
loadAndShoot.teleoperatedInit();
loadAndShoot.setRun(true);
}
/** This function is called periodically during autonomous */
public void autonomousInit() {
autoTimer.reset();
autoTimer.start();
gyro.reset();
relay.set(Relay.Value.kOn);
setSpeedFast();
setLEDTeamColour();
sol4.set(false);
sol5.set(true);
sol7.set(true);
sol8.set(false);
autoStop = false;
autonomousStopped = false;
autoTimeAtStop = 99999;
drive.setRun(false);
loadAndShoot.setRun(false);
autoForward();
}
public void disabledInit() {
drive.setRun(false);
loadAndShoot.resetBooleans();
loadAndShoot.setRun(false);
}