void ManageCompressor () {
		if (m_compressor->GetPressureSwitchValue()) {
			m_compressor->Stop();
		} else {
			m_compressor->Start();
		}
	}
    void OperatorControl(void)
    {
        OperatorControlInit();
        compressor.Start();
        testActuator.Start();

        while (IsOperatorControl())
        {
            ProgramIsAlive();
            //No need to do waits because ProgramIsAlive function does a wait. //Wait(0.005);

            bool isButtonPressed = stick.GetRawButton(3);
            SmartDashboard::PutNumber("Actuator Button Status",isButtonPressed);
            if (isButtonPressed)
            {
                testActuator.Go();
            }


            float leftYaxis = stick.GetY();
            float rightYaxis = stick.GetRawAxis(5);	//RawAxis(5);
            TankDrive(leftYaxis,rightYaxis); 	// drive with arcade style (use right stick)for joystick 1
            SmartDashboard::PutNumber("Left Axis",leftYaxis);
            SmartDashboard::PutNumber("Right Axis",rightYaxis);
        }
    }
Exemple #3
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	void AutonomousPeriodic(void) 
	{
		//Start compressor
		compressor->Start();
		
		//Autonomous code goes here
	}
Exemple #4
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	void TeleopPeriodic(void ) 
	{
		 /* 
		 * Code placed in here will be called only when a new packet of information
		 * has been received by the Driver Station.  Any code which needs new information
		 * from the DS should go in here
		 */
		
		//Start compressor
		compressor->Start();
		
		driveTrainValues();
		deadzone();
		
		//Drivetrain.....
		//When button eight is pressed robot drives at 25% speed
		printf("right: %f and left: %f\n", useright, useleft);
		if (gamepad->GetRawButton(8)) 
		{
			drivetrain->TankDrive((-0.5*(useleft)), (-0.5*(useright)));
			//Negative for switched wires
		}
		else 
		{
			drivetrain->SetLeftRightMotorOutputs(-useleft, -useright);
			//Normal driving
			//Negative for switched wires
		}		
		
	}
Exemple #5
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	/**
	 * Runs the motors with arcade steering. 
	 */
	void OperatorControl(void)
	{
		
		GetWatchdog().SetEnabled(true);
		compressor->Start();
		
		GetWatchdog().SetExpiration(0.5);
		
		bool valve_state = false;
		
		while (IsOperatorControl())
		{
			motor->Set(stick->GetY());
			
			if (stick->GetRawButton(1) && !valve_state)
			{
				valve->Set(true);
				valve_state = true;
			}
			
			if (!stick->GetRawButton(1) && valve_state)
			{
				valve->Set(false);
				valve_state = false;
			}
			// Update driver station
			//dds->sendIOPortData(valve);

			GetWatchdog().Feed();
		}
	}
Exemple #6
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	RobotSystem(void):
		robotInted(false)
		,stick(1)		// as they are declared above.
		,stick2(2)
		,line1(10)
		,line2(11)
		,line3(12)
		//,camera(AxisCamera::GetInstance())
		,updateCAN("CANUpdate",(FUNCPTR)UpdateCAN)
		,cameraTask("CAMERA", (FUNCPTR)CameraTask)
		,compressor(14,1)
		,EncArm(2,3)
		,EncClaw(5,6)
		,PIDArm(.04,0,0) // .002, .033
		,PIDClaw(.014,.0000014,0)
		,LowArm(.1)
		/*
		,MiniBot1(4)
		,MiniBot2(2)
		,ClawGrip(3)
		*/
		,MiniBot1a(8,1)
		,MiniBot1b(8,2)
		,MiniBot2a(8,3)
		,MiniBot2b(8,4)
		,ClawOpen(8, 8)
		,ClawClose(8,7)
		,LimitClaw(7)
		,LimitArm(13)
	{
	//	myRobot.SetExpiration(0.1);
		GetWatchdog().SetEnabled(false);
		GetWatchdog().SetExpiration(1);
		compressor.Start();
		debug("Waiting to init CAN");
		Wait(2);
		
		Dlf = new CANJaguar(6,CANJaguar::kSpeed);
		Dlb = new CANJaguar(3,CANJaguar::kSpeed);
		Drf = new CANJaguar(7,CANJaguar::kSpeed);
		Drb = new CANJaguar(2,CANJaguar::kSpeed);
		arm1 = new CANJaguar(5);
		arm1_sec = new CANJaguar(8);
		arm2 = new CANJaguar(4);
		
		
		EncArm.SetDistancePerPulse(.00025);
		EncClaw.SetDistancePerPulse(.00025);
		EncClaw.SetReverseDirection(false);
		EncArm.SetReverseDirection(true);
		EncArm.Reset();
		EncClaw.Reset();
		
		
		updateCAN.Start((int)this);
		//cameraTask.Start((int)this);
		EncArm.Start();
		EncClaw.Start();
		debug("done initing");
	}
	virtual void RobotInit() {
		CommandBase::init();
		mainCompressor = new Compressor(COMPRESSOR_PRESSURE_SWITCH, COMPRESSOR_RELAY);// COMPRESSOR_RELAY);
		autonomousCommand = new cmdAutonomousScheduler();	//DEFINE COMMANDS HERE
		mainCompressor->Start();
		CommandBase::loaderSubsystem->LowerLoader();
		CommandBase::winchSubsystem->Retract();
	}
Exemple #8
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	void TeleopPeriodic()
	{
		comp599->Start();
		while(IsOperatorControl())
		{
			 teleDrive();
		}
	}
 virtual void RobotInit()
 {
   CommandBase::init();
   SmartDashboard::init();
   autonomousCommand = new AutonomousCommandGroup();
   compressor = new Compressor(COMPRESSOR_SWITCH, COMPRESSOR_RELAY);
   compressor->Start();
 }
Exemple #10
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 void RobotInit(void)
 {
 	/* Once the start function is called no further programming
 	 * is required. However if needed the Stop() function can be
 	 * called.                                                   
 	 * */
 	airCompressor->Start();
 }
void RobotDemo::toggleCompressor(){
	if(compressor->Enabled()){
		compressor->Stop();
	}
	else{
		compressor->Start();
	}
}
Exemple #12
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	/**
	 * Initialization code for test mode should go here.
	 * 
	 * Use this method for initialization code which will be called each time
	 * the robot enters test mode.
	 */
	void RA14Robot::TestInit() {
		myCam->Disable();
		myCompressor->Start();
		Config::LoadFromFile("config.txt");
		Config::Dump();
		
		myCamera->Set(Relay::kForward); // turn on light
	}
	void TeleopInit()
	{
		step = 0;
		drive->setLinVelocity(0);
		drive->setTurnSpeed(0, false);
		drive->drive();
		comp599->Start();
		timer->Start();		
	}
 CommandBasedRobot() {
     compressor = new Compressor(PRESSURE_SWITCH_PORT, COMPRESSOR_RELAY_PORT);
     compressor->Start();
     
     driveStyle = new SendableChooser();
     driveStyle->AddDefault("Arcade", new ArcadeDrive());
     driveStyle->AddObject("Tank", new TankDrive());
     
     CommandBase::init();
 }
	void AutonomousInit(void) {
		printf("Robot autonomous initializing...\n");

		GetWatchdog().Feed();
		
		compressor->Start();
		kicker->Reset();
		
		printf("Robot autonomous initialization complete.\n");
	}
	// Code to be run during the remaining 2:20 of the match (after Autonomous())
	//
	// OperatorControl
	//	* Calls all the above methods
	void OperatorControl()
	{
		// SAFETY AND SANITY - SET ALL TO ZERO
		intake.Set(0.0);
		rightWinch.Set(0.0);
		leftWinch.Set(0.0);

		arm.Set(DoubleSolenoid::kReverse);

		/* TODO: Investigate. At least year's (GTR East) competition, we reached the conclusion that disabling this was 
		 * the only way we could get out robot code to work (reliably). Should this be set to false?
		 */ 
		robotDrive.SetSafetyEnabled(false);

		Timer clock;
		int sanity = 0;
		int bigSanity = 0;

		loading = false;
		loaded = winchSwitch.Get();

		RegisterButtons();
		gamepad.Update();
		leftStick.Update();

		compressor.Start();

		while (IsOperatorControl() && IsEnabled())
		{
			clock.Start();

			HandleDriverInputs();
			HandleShooter();
			HandleArm();
			//			HandleEject();

			while (!clock.HasPeriodPassed(LOOP_PERIOD)); // add an IsEnabled???
			clock.Reset();
			sanity++;
			if (sanity >= 100)
			{
				bigSanity++;
				sanity = 0;
				dsLCD->PrintfLine(DriverStationLCD::kUser_Line4, "%d", bigSanity);
			}
			gamepad.Update();
			leftStick.Update();
			dsLCD->UpdateLCD();
		}

		// SAFETY AND SANITY - SET ALL TO ZERO
		intake.Set(0.0);
		rightWinch.Set(0.0);
		leftWinch.Set(0.0);
	}
	void toggleCompressor(bool start, bool stop)
	{
		if(start)
		{
			comp599->Start();		
		}
		else if(stop)
		{
			comp599->Stop();
		}
	}
/**
 * Initialization code for teleop mode should go here.
 * 
 * Use this method for initialization code which will be called each time
 * the robot enters teleop mode.
 */
void RobotDemo::TeleopInit() {
	s1Status=true;
	s2Status=true;
	s3Status=true;
	retract(s3,s3Status);
	retract(s1,s1Status);				
	spinnerStatusLeft=true;
	spinnerStatusRight=true;
	compressor->Start();
	return;
}
	Anesthesiologist()
	{
		manipulator = new AnesthesiologistManipulator();
		launcher = new AnesthesiologistLauncher(manipulator);
		oi = new AnesthesiologistOperatorInterface();
		drive = new AnesthesiologistDrive(oi);
		comp599 = new Compressor(1, 1, 1, 2); 	
		timer = new Timer();
				
		oi->dashboard->init();
		comp599->Start();
	}
Exemple #20
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	Medic()
	{
		drive = new MedicDrive();
		manipulator = new MedicManipulator();
		oi = new MedicOperatorInterface();
		shooter = new MedicShooter();
		pid = new MedicPIDOutput();
		comp599 = new Compressor(1, 1);//TODO: add real values
		
		comp599->Start();

	}
Exemple #21
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	Medic()
	{
		oi = new MedicOperatorInterface();
		drive = new MedicDrive();
		comp599 = new Compressor(1, 1, 1, 1);//TODO: check values
//		rpmSensor = new Solenoid(PNEUMATICS_24V_SLOT, 5);
//		rpmIRSensor = new DigitalInput(1, SHOOTER_WHEEL_IR_CHANNEL);

		oi->dashboard->init();
		comp599->Start();
		timer = new Timer();
	}
Exemple #22
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	RobotDemo(void)
	{
		rightStick = new Joystick(2);			// create the joysticks
		leftStick = new Joystick(1);
		turretStick = new Joystick(3);
		ds = DriverStation::GetInstance();
		SmartDashboard *Dash = SmartDashboard::GetInstance();
		AutonomousContol = new AutonomousControllerClass(ds);
	
		compressor = new Compressor(14,1);	//Pressure Switch, Compressor Relay 
		compressor->Start();
		Dash->PutInt("Initialized", 1);
	}
	void TeleopInit(void) {
		printf("Robot teleop initializing...\n");

		GetWatchdog().Feed();
		
		compressor->Start();
		kicker->SafeReset();
		
		leftDrivetrainEncoder->Start();
		rightDrivetrainEncoder->Start();
		
		printf("Robot teleop initialization complete.\n");
	}
Exemple #24
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	void AutonomousInit() {
		autoDelay = 20 * AUTO_DELAY;
		if(!fout.is_open()) {
			fout.open("logging.csv");
			logheaders();
		}
			
		compressor->Start();
		autoState = 0;
		autoReady = false;
		lc->setMode(2);
		freshStart = false;
	} 
Exemple #25
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	void OperatorControl(void)
	{
		myRobot.SetSafetyEnabled(true);
		
		gamepad.EnableButton(BUTTON_COLLECTOR_FWD);
		gamepad.EnableButton(BUTTON_COLLECTOR_REV);
		gamepad.EnableButton(BUTTON_SHOOTER);
		gamepad.EnableButton(BUTTON_CLAW_1_LOCKED);
		gamepad.EnableButton(BUTTON_CLAW_2_LOCKED);
		gamepad.EnableButton(BUTTON_CLAW_1_UNLOCKED);
		gamepad.EnableButton(BUTTON_CLAW_2_UNLOCKED);
		gamepad.EnableButton(BUTTON_STOP_ALL);
		gamepad.EnableButton(BUTTON_JOG_FWD);
		gamepad.EnableButton(BUTTON_JOG_REV);

		stick2.EnableButton(BUTTON_SHIFT);

		// Set inital states for all switches and buttons
		gamepad.Update();
		indexSwitch.Update();
		greenClawLockSwitch.Update();
		yellowClawLockSwitch.Update();
		
		stick2.Update();
		
		// Set initial states for all pneumatic actuators
		shifter.Set(DoubleSolenoid::kReverse);
		greenClaw.Set(DoubleSolenoid::kReverse);
		yellowClaw.Set(DoubleSolenoid::kReverse);

		compressor.Start ();
		
		while (IsOperatorControl())
		{
			gamepad.Update();
			stick2.Update();
			indexSwitch.Update();
			greenClawLockSwitch.Update();
			yellowClawLockSwitch.Update();
			
			HandleCollectorInputs();
			HandleDriverInputsManual();
			HandleArmInputs();
			HandleShooterInputs();
			HandleResetButton();
			UpdateStatusDisplays();
			
			dsLCD->UpdateLCD();
			Wait(0.005);				// wait for a motor update time
		}
	}
	void Test(void)
	{
		compressor->Start();
		myRobot.SetSafetyEnabled(true);
		GetWatchdog().SetEnabled(true);
		GetWatchdog().SetExpiration(1);
		GetWatchdog().Feed();

		while(IsTest())
		{
			GetWatchdog().Feed();
			Wait(0.1);
		}
	}
Exemple #27
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	void teleDrive()
	{
		drive->setLinVelocity(-oi->getDriveJoystick()->GetY(Joystick::kRightHand));
		drive->setTurnSpeed(oi->getDriveJoystick()->GetX(Joystick::kRightHand), oi->getDriveJoystickButton(1));
		drive->drive();
		drive->shift(oi->getDriveJoystickButton(8), oi->getDriveJoystickButton(9));
		if(oi->getDriveJoystickButton(6))
		{
			comp599->Start();
		}
		else if(oi->getDriveJoystickButton(7))
		{
			comp599->Stop();
		}
	}
Exemple #28
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	void OperatorControl()
	{
		compressor.Start();
		while (IsOperatorControl())
		{
			if(stick.GetRawButton(6)) //press the upper right trigger
			{
				piston.Set(true);
			}
			else if(stick.GetRawButton(8)) //press the lower right trigger
			{
				piston.Set(false);
			}
		}
		compressor.Stop();
	}
Exemple #29
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 void TeleopInit() {
 	//Open logging
 	if(!fout.is_open()) {
 		fout.open("logging.csv");
 		logheaders();
 	}
 	cameraLight->Set(Relay::kOff);
 	myDrive->SetPID(KP,KI,KD);
 	myDrive->EnablePID();
 	manualAngle = 0;
 	compressor->Start();
 	myDrive->setGyroDrive(true);
 	lc->setMode(0);
 	freshStart = false;
 	
 }
	/**
	 * Runs the motors with arcade steering. 
	 */
	void OperatorControl()
	{
		comp->Start();
		
	
		while(IsOperatorControl())
		{
			
			if(wasenabled == false && IsEnabled() == true)
			{
				
				//arm->initialize();
				
			
				wasenabled = true;
				
				//Wait(.5);
					
			}
			
			wasenabled = IsEnabled();
			d->go();
			
			//r->Set((r->kForward));
			

			
			//ds->PrintfLine(ds->kUser_Line1, "button 11: %d " ,stick->GetRawButton(11));
			//ds->PrintfLine(ds->kUser_Line2, "button 2: %d", stick->GetRawButton(2));
					
			//arm->pickup();
			
			if(stick->GetRawButton(7))
			{
				armlock->Set(armlock->kForward);
			}
			else
			{
				armlock->Set(armlock->kReverse);
			}
			ds->PrintfLine(ds->kUser_Line2, "button 7: %d", stick->GetRawButton(7));
			
			//arm->shoot();
			
		ds->UpdateLCD();
		}
	}