PIDImpl( double dt, double max, double min, double Kp, double Kd, double Ki );

#ifndef _PID_SOURCE_

#define _PID_SOURCE_

#include <iostream>

#include <cmath>

#include "pid.h"

using namespace std;

class PIDImpl

{

    public:

        PIDImpl( double dt, double max, double min, double Kp, double Kd, double Ki );

        ~PIDImpl();

        double calculate( double setpoint, double pv );

    private:

        double _dt;

        double _max;

        double _min;

        double _Kp;

        double _Kd;

        double _Ki;

        double _pre_error;

        double _integral;

};

PID::PID( double dt, double max, double min, double Kp, double Kd, double Ki )

{

    pimpl = new PIDImpl(dt,max,min,Kp,Kd,Ki);

}

double PID::calculate( double setpoint, double pv )

{

    return pimpl->calculate(setpoint,pv);

}

PID::~PID()

{

    delete pimpl;

}

/**

 * Implementation

 */

PIDImpl::PIDImpl( double dt, double max, double min, double Kp, double Kd, double Ki ) :

    _dt(dt),

    _max(max),

    _min(min),

    _Kp(Kp),

    _Kd(Kd),

    _Ki(Ki),

    _pre_error(0),

    _integral(0)

{

}

double PIDImpl::calculate( double setpoint, double pv )

{

    // Calculate error

    double error = setpoint - pv;

    // Proportional term

    double Pout = _Kp * error;

    // Integral term

    _integral += error * _dt;

    double Iout = _Ki * _integral;

    // Derivative term

    double derivative = (error - _pre_error) / _dt;

    double Dout = _Kd * derivative;

    // Calculate total output

    double output = Pout + Iout + Dout;

    // Restrict to max/min

    if( output > _max )

        output = _max;

    else if( output < _min )

        output = _min;

    // Save error to previous error

    _pre_error = error;

    return output;

}

PIDImpl::~PIDImpl()

{

}

#endif

#ifndef _PID_H_

#define _PID_H_

class PIDImpl;

class PID

{

    public:

        // Kp -  proportional gain

        // Ki -  Integral gain

        // Kd -  derivative gain

        // dt -  loop interval time

        // max - maximum value of manipulated variable

        // min - minimum value of manipulated variable

        PID( double dt, double max, double min, double Kp, double Kd, double Ki );

        // Returns the manipulated variable given a setpoint and current process value

        double calculate( double setpoint, double pv );

        ~PID();

    private:

        PIDImpl *pimpl;

};

#endif

#include "pid.h"

#include <stdio.h>

int main() {

    PID pid = PID(0.1, 100, -100, 0.1, 0.01, 0.5);

    double val = 20;

    for (int i = 0; i < 100; i++) {

        double inc = pid.calculate(0, val);

        printf("val:% 7.3f inc:% 7.3f\n", val, inc);

        val += inc;

    }

    return 0;

}