acetousk/auton.c

## auton.c
task leftPIDController()
{
		taskRunning=true;
    float  pidSensorCurrentValue;
    float  pidError;
    float  pidLastError;
    float  pidIntegral;
    float  pidDerivative;
    float  pidDrive;

    // If we are using an encoder then clear it
    if( SensorType[ LEFT_SENSOR_INDEX ] == sensorQuadEncoder )
        SensorValue[ LEFT_SENSOR_INDEX ] = 0;

    // Init the variables - thanks Glenn :)
    pidLastError  = 0;
    pidIntegral   = 0;

    while( true ){
    	if( pidRunning ){
        if(pidSensorCurrentValue==pidRequestedValue){
        	taskRunning = false;
        	stopTask(leftPIDController);
                        // Read the sensor value and scale
            pidSensorCurrentValue = SensorValue[ LEFT_SENSOR_INDEX ] * PID_SENSOR_SCALE;


            // calculate error
            pidError = pidSensorCurrentValue - pidRequestedValue;

                        // integral - if Ki is not 0
            if( pid_Ki != 0 )
                {
                // If we are inside controlable window then integrate the error
                if( abs(pidError) < PID_INTEGRAL_LIMIT )
                    pidIntegral = pidIntegral + pidError;
                else
                    pidIntegral = 0;
                }
            else
                pidIntegral = 0;

						// calculate the derivative
            pidDerivative = pidError - pidLastError;
            pidLastError  = pidError;

            // calculate drive
            pidDrive = (pid_Kp * pidError) + (pid_Ki * pidIntegral) + (pid_Kd * pidDerivative);

            // limit drive
            if( pidDrive > PID_DRIVE_MAX )
                pidDrive = PID_DRIVE_MAX;
            if( pidDrive < PID_DRIVE_MIN )
                pidDrive = PID_DRIVE_MIN;

            leftFunc(pidDrive); //my left side is master
						rightFunc(pidDrive); //my right side is slave
					}
      	}else{
            // clear all
            pidError      = 0;
            pidLastError  = 0;
            pidIntegral   = 0;
            pidDerivative = 0;

            leftFunc(0);
            rightFunc(0);
            }

        // Run at 50Hz
        wait1Msec( 25 );
        }
}

void drivePID(int clicks){

	// send the motor off somewhere
  pidRequestedValue= clicks*-1;

	// start the PID task
  startTask( leftPIDController );
  taskRunning=true;
	//	startTask( rightPIDController );

  // use joystick to modify the requested position
  while(taskRunning){
  	if(pidRequestedValue==clicks*-1)
  			taskRunning=false;
  	}
  	// maximum change for pidRequestedValue will be 127/4*20, around 640 counts per second
  	// free spinning motor is 100rmp so 1.67 rotations per second
		// 1.67 * 360 counts is 600
  	wait1Msec(20);

  resetEncoders();
	stopTask(leftPIDController);
}

## worstCaseScenario.c

//PID
//Drive Top Level
// PID using optical shaft encoder
//
// Shaft encoder has 360 pulses per revolution
#define PID_INTEGRAL_LIMIT  50
#define PD_INTEGRAL_LIMIT  50

#define LEFT_SENSOR_INDEX    leftEncoder
#define RIGHT_SENSOR_INDEX   rightEncoder
#define PID_SENSOR_SCALE     -1

#define LEFT_MOTOR_INDEX    left1
#define RIGHT_MOTOR_INDEX   right1
#define PID_MOTOR_SCALE     -1

#define PID_DRIVE_MAX       80
#define PID_DRIVE_MIN     (-80)

// These could be constants but leaving
// as variables allows them to be modified in the debugger "live"

//auton vars
//Left
float  pid_Kp = 0.7;
float  pid_Ki = 0.09;
float  pid_Kd = 0.5;

static int   pidRunning = 1;
static float pidRequestedValue;

bool taskRunning=false;

bool driveReverse=false;
	task leftPIDController()
	{
	taskRunning=true;
	float pidSensorCurrentValue;
	float pidError;
	float pidLastError;
	float pidIntegral;
	float pidDerivative;
	float pidDrive;

	// If we are using an encoder then clear it
	if( SensorType[ LEFT_SENSOR_INDEX ] == sensorQuadEncoder )
	SensorValue[ LEFT_SENSOR_INDEX ] = 0;

	// Init the variables - thanks Glenn :)
	pidLastError = 0;
	pidIntegral = 0;

	while( true ){
	if( pidRunning ){
	if(pidSensorCurrentValue==pidRequestedValue){
	taskRunning = false;
	stopTask(leftPIDController);
	// Read the sensor value and scale
	pidSensorCurrentValue = SensorValue[ LEFT_SENSOR_INDEX ] * PID_SENSOR_SCALE;


	// calculate error
	pidError = pidSensorCurrentValue - pidRequestedValue;

	// integral - if Ki is not 0
	if( pid_Ki != 0 )
	{
	// If we are inside controlable window then integrate the error
	if( abs(pidError) < PID_INTEGRAL_LIMIT )
	pidIntegral = pidIntegral + pidError;
	else
	pidIntegral = 0;
	}
	else
	pidIntegral = 0;

	// calculate the derivative
	pidDerivative = pidError - pidLastError;
	pidLastError = pidError;

	// calculate drive
	pidDrive = (pid_Kp * pidError) + (pid_Ki * pidIntegral) + (pid_Kd * pidDerivative);

	// limit drive
	if( pidDrive > PID_DRIVE_MAX )
	pidDrive = PID_DRIVE_MAX;
	if( pidDrive < PID_DRIVE_MIN )
	pidDrive = PID_DRIVE_MIN;

	leftFunc(pidDrive); //my left side is master
	rightFunc(pidDrive); //my right side is slave
	}
	}else{
	// clear all
	pidError = 0;
	pidLastError = 0;
	pidIntegral = 0;
	pidDerivative = 0;

	leftFunc(0);
	rightFunc(0);
	}

	// Run at 50Hz
	wait1Msec( 25 );
	}
	}

	void drivePID(int clicks){

	// send the motor off somewhere
	pidRequestedValue= clicks*-1;

	// start the PID task
	startTask( leftPIDController );
	taskRunning=true;
	// startTask( rightPIDController );

	// use joystick to modify the requested position
	while(taskRunning){
	if(pidRequestedValue==clicks*-1)
	taskRunning=false;
	}
	// maximum change for pidRequestedValue will be 127/4*20, around 640 counts per second
	// free spinning motor is 100rmp so 1.67 rotations per second
	// 1.67 * 360 counts is 600
	wait1Msec(20);

	resetEncoders();
	stopTask(leftPIDController);
	}

	//PID
	//Drive Top Level
	// PID using optical shaft encoder
	//
	// Shaft encoder has 360 pulses per revolution
	#define PID_INTEGRAL_LIMIT 50
	#define PD_INTEGRAL_LIMIT 50

	#define LEFT_SENSOR_INDEX leftEncoder
	#define RIGHT_SENSOR_INDEX rightEncoder
	#define PID_SENSOR_SCALE -1

	#define LEFT_MOTOR_INDEX left1
	#define RIGHT_MOTOR_INDEX right1
	#define PID_MOTOR_SCALE -1

	#define PID_DRIVE_MAX 80
	#define PID_DRIVE_MIN (-80)

	// These could be constants but leaving
	// as variables allows them to be modified in the debugger "live"

	//auton vars
	//Left
	float pid_Kp = 0.7;
	float pid_Ki = 0.09;
	float pid_Kd = 0.5;

	static int pidRunning = 1;
	static float pidRequestedValue;

	bool taskRunning=false;

	bool driveReverse=false;