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RK4OneStep.cc
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1 #include "RK4OneStep.h"
3 
4 #include <iostream>
5 
7  const RKCartesianDerivative& deriv,
8  double step) const {
9  double s0 = 0; // derivatives do't depend on absolute value of the integration variable
10  CartesianState k1 = step * deriv(s0, start);
11  CartesianState k2 = step * deriv(s0 + step / 2, start + k1 / 2);
12  CartesianState k3 = step * deriv(s0 + step / 2, start + k2 / 2);
13  CartesianState k4 = step * deriv(s0 + step, start + k3);
14  /*
15  std::cout << "k1 = " << k1.position() << k1.momentum() << std::endl;
16  std::cout << "k2 = " << k2.position() << k2.momentum() << std::endl;
17  std::cout << "k3 = " << k3.position() << k3.momentum() << std::endl;
18  std::cout << "k4 = " << k4.position() << k4.momentum() << std::endl;
19 */
20  CartesianState result = start + k1 / 6 + k2 / 3 + k3 / 3 + k4 / 6;
21  return result;
22 }
start
Definition: start.py:1
step
step
Definition: StallMonitor.cc:94
RKCartesianDerivative
Definition: RKCartesianDerivative.h:6
CartesianState
Definition: CartesianState.h:8
RKCartesianDerivative.h
RK4OneStep::operator()
CartesianState operator()(const CartesianState &start, const RKCartesianDerivative &deriv, double step) const
Definition: RK4OneStep.cc:6
RK4OneStep.h
mps_fire.result
result
Definition: mps_fire.py:311