unsupported/doc/examples/EulerAngles.cpp - eigen - Git at Google

 #include <unsupported/Eigen/EulerAngles>
 #include <iostream>

 using namespace Eigen;

 int main()
 {
   // A common Euler system by many armies around the world,
   //  where the first one is the azimuth(the angle from the north -
   //   the same angle that is show in compass)
   //  and the second one is elevation(the angle from the horizon)
   //  and the third one is roll(the angle between the horizontal body
   //   direction and the plane ground surface)
   // Keep remembering we're using radian angles here!
   typedef EulerSystem<-EULER_Z, EULER_Y, EULER_X> MyArmySystem;
   typedef EulerAngles<double, MyArmySystem> MyArmyAngles;

   MyArmyAngles vehicleAngles(
     3.14/*PI*/ / 2, /* heading to east, notice that this angle is counter-clockwise */
     -0.3, /* going down from a mountain */
     0.1); /* slightly rolled to the right */

   // Some Euler angles representation that our plane use.
   EulerAnglesZYZd planeAngles(0.78474, 0.5271, -0.513794);

   MyArmyAngles planeAnglesInMyArmyAngles(planeAngles);

   std::cout << "vehicle angles(MyArmy):     " << vehicleAngles << std::endl;
   std::cout << "plane angles(ZYZ):        " << planeAngles << std::endl;
   std::cout << "plane angles(MyArmy):     " << planeAnglesInMyArmyAngles << std::endl;

   // Now lets rotate the plane a little bit
   std::cout << "==========================================================\n";
   std::cout << "rotating plane now!\n";
   std::cout << "==========================================================\n";

   Quaterniond planeRotated = AngleAxisd(-0.342, Vector3d::UnitY()) * planeAngles;

   planeAngles = planeRotated;
   planeAnglesInMyArmyAngles = planeRotated;

   std::cout << "new plane angles(ZYZ):     " << planeAngles << std::endl;
   std::cout << "new plane angles(MyArmy): " << planeAnglesInMyArmyAngles << std::endl;

   return 0;
 }
	#include <unsupported/Eigen/EulerAngles>
	#include <iostream>

	using namespace Eigen;

	int main()
	{
	// A common Euler system by many armies around the world,
	// where the first one is the azimuth(the angle from the north -
	// the same angle that is show in compass)
	// and the second one is elevation(the angle from the horizon)
	// and the third one is roll(the angle between the horizontal body
	// direction and the plane ground surface)
	// Keep remembering we're using radian angles here!
	typedef EulerSystem<-EULER_Z, EULER_Y, EULER_X> MyArmySystem;
	typedef EulerAngles<double, MyArmySystem> MyArmyAngles;

	MyArmyAngles vehicleAngles(
	3.14/PI/ / 2, /* heading to east, notice that this angle is counter-clockwise */
	-0.3, /* going down from a mountain */
	0.1); /* slightly rolled to the right */

	// Some Euler angles representation that our plane use.
	EulerAnglesZYZd planeAngles(0.78474, 0.5271, -0.513794);

	MyArmyAngles planeAnglesInMyArmyAngles(planeAngles);

	std::cout << "vehicle angles(MyArmy): " << vehicleAngles << std::endl;
	std::cout << "plane angles(ZYZ): " << planeAngles << std::endl;
	std::cout << "plane angles(MyArmy): " << planeAnglesInMyArmyAngles << std::endl;

	// Now lets rotate the plane a little bit
	std::cout << "==========================================================\n";
	std::cout << "rotating plane now!\n";
	std::cout << "==========================================================\n";

	Quaterniond planeRotated = AngleAxisd(-0.342, Vector3d::UnitY()) * planeAngles;

	planeAngles = planeRotated;
	planeAnglesInMyArmyAngles = planeRotated;

	std::cout << "new plane angles(ZYZ): " << planeAngles << std::endl;
	std::cout << "new plane angles(MyArmy): " << planeAnglesInMyArmyAngles << std::endl;

	return 0;
	}