Add Pooh code

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Inex Code 2021-03-30 15:39:59 +00:00
parent 6a59f6a463
commit c9155b1450

276
UML1/superpooh.cpp Normal file
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#include <iostream>
#include <cmath>
#include <future>
#include <thread>
#include <chrono>
using namespace std;
class PIDImpl
{
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
PIDImpl(double dt, double max, double min, double Kp, double Kd, double Ki);
~PIDImpl();
// Returns the manipulated variable given a setpoint and current process value
double calculate(double setpoint, double pv);
private:
double _dt;
double _max;
double _min;
double _Kp;
double _Kd;
double _Ki;
double _pre_error;
double _integral;
};
/**
* 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;
//std::cout<<"out="<<output<< "Pout = "<< Pout <<" " <<Iout <<" "<< Dout <<std::endl;
// Restrict to max/min
if (output > _max)
output = _max;
else if (output < _min)
output = _min;
std::cout << "outB=" << output << std::endl;
// Save error to previous error
_pre_error = error;
return output;
}
PIDImpl::~PIDImpl()
{
}
enum ECmd
{
ENone,
EExit
};
ECmd cmd = ENone;
int counter = 0;
float getHZadFromUser()
{
return 10.;
}
class Bear
{
float h;
float m;
float v;
float a;
public:
Bear()
{
v = 0; // m/s
a = 0; // m/s2
m = 10; // kg
h = 0; // Текущая высота
}
float getH()
{
return h;
}
float getV()
{
return v;
}
float getM()
{
return m;
}
float getA()
{
return a;
}
virtual void calc(float dt, float extrnForce)
{
float dh;
v = v + a * dt;
dh = v * dt;
h = h + dh;
a = (extrnForce - 9.8 * m) / m; // m * a = mg - F
if (h < 0)
{ // Stay on the ground
h = 0.;
v = 0.;
a = 0.;
}
}
void eat(float mass)
{
m = m + mass;
}
virtual void show()
{
std::cout << "h=" << h << std::endl;
}
};
class Engine;
class Engine
{
float enginePower = 0; // n 0..500 n
float maxPower; // n
public:
Engine(float imaxPower)
{
enginePower = 0.;
maxPower = imaxPower;
}
void setPower(float enginePowerPercent)
{
if (enginePowerPercent > 100.)
enginePowerPercent = 100;
if (enginePowerPercent < -100.)
enginePowerPercent = -100;
enginePower = enginePowerPercent * (maxPower / 100.);
}
float getForce()
{
return enginePower;
}
};
class SmartFlyingBear : public Bear
{
PIDImpl *pid;
Engine *pengine;
float hZad;
public:
SmartFlyingBear(PIDImpl *ppid, Engine *ppengine)
{
pid = ppid;
pengine = ppengine;
hZad = 0;
}
void setHZad(float val)
{
hZad = val;
}
virtual void calc(float dt, float extrnForce)
{
float enginePowerPercent = 0;
if (pid != nullptr)
{
enginePowerPercent = pid->calculate(hZad, getH());
}
if (pengine != nullptr)
{
pengine->setPower(enginePowerPercent);
Bear::calc(dt, extrnForce + pengine->getForce());
}
}
};
int model()
{
//PIDImpl pid(0.1, 100, -100, 0.05, 0.001, 0.1);
//Bear pooh;
SmartFlyingBear superpooh(new PIDImpl(0.1, 100, -100, 0.15, 0.001, 0.01), new Engine(500.));
float t = 0; // Время моделирования
float dt = 0.1; // s
float lastT = -5;
float hZad = 0; // Измененение высоты за шаг моделирования
while (cmd != EExit)
{
hZad = getHZadFromUser(); // Неблокирующая функция для получения высоты
if (abs(superpooh.getH() - hZad) < 1 && abs(t - lastT) > 5) {
superpooh.eat(0.1);
lastT = t;
}
superpooh.setHZad(hZad);
superpooh.show();
superpooh.calc(dt, 0);
t = t + dt;
std::cout << "Weight = " << superpooh.getM() << std::endl;
std::cout << "Velocity = " << superpooh.getV() << std::endl;
std::cout << "Acceleration = " << superpooh.getA() << std::endl;
std::cout << "===========" << std::endl;
std::this_thread::sleep_for(std::chrono::milliseconds(50));
}
return 0;
}
int main() {
std::thread th(model);
char ch;
while (cmd != EExit)
{
std::cout << "Enter command (q to exit)" << std::endl;
std::cin >> ch;
if (ch == 'q') {
cmd = EExit;
th.join();
}
}
return 0;
}