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

 #ifndef FRC971_CONTROL_LOOPS_FIXED_QUADRATURE_H_
 #define FRC971_CONTROL_LOOPS_FIXED_QUADRATURE_H_

 #include <array>

 #include <Eigen/Dense>

 namespace frc971::control_loops {

 // Implements Gaussian Quadrature integration (5th order).  fn is the function
 // to integrate.  It must take 1 argument of type T.  The integration is between
 // a and b.
 template <typename T, typename F>
 double GaussianQuadrature5(const F &fn, T a, T b) {
   // Pulled from Python.
   // numpy.set_printoptions(precision=20)
   // scipy.special.p_roots(5)
   const ::std::array<double, 5> x{
       {-9.06179845938663630633e-01, -5.38469310105682885670e-01,
        3.24607628916367383789e-17, 5.38469310105683218737e-01,
        9.06179845938663408589e-01}};

   const ::std::array<double, 5> w{
       {0.23692688505618844652, 0.4786286704993669705, 0.56888888888888811124,
        0.47862867049936674846, 0.23692688505618875183}};

   double answer = 0.0;
   for (int i = 0; i < 5; ++i) {
     const double y = (b - a) * (x[i] + 1) / 2.0 + a;
     answer += (b - a) / 2.0 * w[i] * fn(y);
   }
   return answer;
 }

 template <size_t N, typename F>
 Eigen::Matrix<double, N, 1> MatrixGaussianQuadrature5(const F &fn, double a,
                                                       double b) {
   // Pulled from Python.
   // numpy.set_printoptions(precision=20)
   // scipy.special.p_roots(5)
   const ::std::array<double, 5> x{
       {-9.06179845938663630633e-01, -5.38469310105682885670e-01,
        3.24607628916367383789e-17, 5.38469310105683218737e-01,
        9.06179845938663408589e-01}};

   const ::std::array<double, 5> w{
       {0.23692688505618844652, 0.4786286704993669705, 0.56888888888888811124,
        0.47862867049936674846, 0.23692688505618875183}};

   Eigen::Matrix<double, N, 1> answer;
   answer.setZero();
   for (int i = 0; i < 5; ++i) {
     const double y = (b - a) * (x[i] + 1) / 2.0 + a;
     answer += (b - a) / 2.0 * w[i] * fn(y);
   }
   return answer;
 }

 }  // namespace frc971::control_loops

 #endif  // FRC971_CONTROL_LOOPS_FIXED_QUADRATURE_H_
	#ifndef FRC971_CONTROL_LOOPS_FIXED_QUADRATURE_H_
	#define FRC971_CONTROL_LOOPS_FIXED_QUADRATURE_H_

	#include <array>

	#include <Eigen/Dense>

	namespace frc971::control_loops {

	// Implements Gaussian Quadrature integration (5th order). fn is the function
	// to integrate. It must take 1 argument of type T. The integration is between
	// a and b.
	template <typename T, typename F>
	double GaussianQuadrature5(const F &fn, T a, T b) {
	// Pulled from Python.
	// numpy.set_printoptions(precision=20)
	// scipy.special.p_roots(5)
	const ::std::array<double, 5> x{
	{-9.06179845938663630633e-01, -5.38469310105682885670e-01,
	3.24607628916367383789e-17, 5.38469310105683218737e-01,
	9.06179845938663408589e-01}};

	const ::std::array<double, 5> w{
	{0.23692688505618844652, 0.4786286704993669705, 0.56888888888888811124,
	0.47862867049936674846, 0.23692688505618875183}};

	double answer = 0.0;
	for (int i = 0; i < 5; ++i) {
	const double y = (b - a) * (x[i] + 1) / 2.0 + a;
	answer += (b - a) / 2.0 * w[i] * fn(y);
	}
	return answer;
	}

	template <size_t N, typename F>
	Eigen::Matrix<double, N, 1> MatrixGaussianQuadrature5(const F &fn, double a,
	double b) {
	// Pulled from Python.
	// numpy.set_printoptions(precision=20)
	// scipy.special.p_roots(5)
	const ::std::array<double, 5> x{
	{-9.06179845938663630633e-01, -5.38469310105682885670e-01,
	3.24607628916367383789e-17, 5.38469310105683218737e-01,
	9.06179845938663408589e-01}};

	const ::std::array<double, 5> w{
	{0.23692688505618844652, 0.4786286704993669705, 0.56888888888888811124,
	0.47862867049936674846, 0.23692688505618875183}};

	Eigen::Matrix<double, N, 1> answer;
	answer.setZero();
	for (int i = 0; i < 5; ++i) {
	const double y = (b - a) * (x[i] + 1) / 2.0 + a;
	answer += (b - a) / 2.0 * w[i] * fn(y);
	}
	return answer;
	}

	} // namespace frc971::control_loops

	#endif // FRC971_CONTROL_LOOPS_FIXED_QUADRATURE_H_