frc971/control_loops/runge_kutta.h - RealtimeRoboticsGroup/test - Gitiles

 #ifndef FRC971_CONTROL_LOOPS_RUNGE_KUTTA_H_
 #define FRC971_CONTROL_LOOPS_RUNGE_KUTTA_H_

 #include <Eigen/Dense>

 namespace frc971 {
 namespace control_loops {

 // Implements Runge Kutta integration (4th order).  fn is the function to
 // integrate.  It must take 1 argument of type T.  The integration starts at an
 // initial value X, and integrates for dt.
 template <typename F, typename T>
 T RungeKutta(const F &fn, T X, double dt) {
   const double half_dt = dt * 0.5;
   T k1 = fn(X);
   T k2 = fn(X + half_dt * k1);
   T k3 = fn(X + half_dt * k2);
   T k4 = fn(X + dt * k3);
   return X + dt / 6.0 * (k1 + 2.0 * k2 + 2.0 * k3 + k4);
 }

 // Implements Runge Kutta integration (4th order).  This integrates dy/dt = fn(t,
 // y).  It must have the call signature of fn(double t, T y).  The
 // integration starts at an initial value y, and integrates for dt.
 template <typename F, typename T>
 T RungeKutta(const F &fn, T y, double t, double dt) {
   const double half_dt = dt * 0.5;
   T k1 = dt * fn(t, y);
   T k2 = dt * fn(t + half_dt, y + k1 / 2.0);
   T k3 = dt * fn(t + half_dt, y + k2 / 2.0);
   T k4 = dt * fn(t + dt, y + k3);

   return y + (k1 + 2.0 * k2 + 2.0 * k3 + k4) / 6.0;
 }

 // Implements Runge Kutta integration (4th order).  fn is the function to
 // integrate.  It must take 1 argument of type T.  The integration starts at an
 // initial value X, and integrates for dt.
 template <typename F, typename T, typename Tu>
 T RungeKuttaU(const F &fn, T X, Tu U, double dt) {
   const double half_dt = dt * 0.5;
   T k1 = fn(X, U);
   T k2 = fn(X + half_dt * k1, U);
   T k3 = fn(X + half_dt * k2, U);
   T k4 = fn(X + dt * k3, U);
   return X + dt / 6.0 * (k1 + 2.0 * k2 + 2.0 * k3 + k4);
 }

 }  // namespace control_loops
 }  // namespace frc971

 #endif  // FRC971_CONTROL_LOOPS_RUNGE_KUTTA_H_
	#ifndef FRC971_CONTROL_LOOPS_RUNGE_KUTTA_H_
	#define FRC971_CONTROL_LOOPS_RUNGE_KUTTA_H_

	#include <Eigen/Dense>

	namespace frc971 {
	namespace control_loops {

	// Implements Runge Kutta integration (4th order). fn is the function to
	// integrate. It must take 1 argument of type T. The integration starts at an
	// initial value X, and integrates for dt.
	template <typename F, typename T>
	T RungeKutta(const F &fn, T X, double dt) {
	const double half_dt = dt * 0.5;
	T k1 = fn(X);
	T k2 = fn(X + half_dt * k1);
	T k3 = fn(X + half_dt * k2);
	T k4 = fn(X + dt * k3);
	return X + dt / 6.0 * (k1 + 2.0 * k2 + 2.0 * k3 + k4);
	}

	// Implements Runge Kutta integration (4th order). This integrates dy/dt = fn(t,
	// y). It must have the call signature of fn(double t, T y). The
	// integration starts at an initial value y, and integrates for dt.
	template <typename F, typename T>
	T RungeKutta(const F &fn, T y, double t, double dt) {
	const double half_dt = dt * 0.5;
	T k1 = dt * fn(t, y);
	T k2 = dt * fn(t + half_dt, y + k1 / 2.0);
	T k3 = dt * fn(t + half_dt, y + k2 / 2.0);
	T k4 = dt * fn(t + dt, y + k3);

	return y + (k1 + 2.0 * k2 + 2.0 * k3 + k4) / 6.0;
	}

	// Implements Runge Kutta integration (4th order). fn is the function to
	// integrate. It must take 1 argument of type T. The integration starts at an
	// initial value X, and integrates for dt.
	template <typename F, typename T, typename Tu>
	T RungeKuttaU(const F &fn, T X, Tu U, double dt) {
	const double half_dt = dt * 0.5;
	T k1 = fn(X, U);
	T k2 = fn(X + half_dt * k1, U);
	T k3 = fn(X + half_dt * k2, U);
	T k4 = fn(X + dt * k3, U);
	return X + dt / 6.0 * (k1 + 2.0 * k2 + 2.0 * k3 + k4);
	}

	} // namespace control_loops
	} // namespace frc971

	#endif // FRC971_CONTROL_LOOPS_RUNGE_KUTTA_H_