y2019/vision/constants.h - RealtimeRoboticsGroup/test - Gitiles

 #ifndef _Y2019_VISION_CONSTANTS_H_
 #define _Y2019_VISION_CONSTANTS_H_

 #include <math.h>
 #include <array>
 #include <string>

 namespace y2019 {
 namespace vision {

 // Position of the idealized camera in 3d space.
 struct CameraGeometry {
   static constexpr size_t kNumParams = 4;
   // In Meters from floor under imu center.
   std::array<double, 3> location{{0, 0, 0}};
   double heading = 0.0;

   void set(double *data) {
     location[0] = data[0];
     location[1] = data[1];
     location[2] = data[2];
     heading = data[3];
   }
   static CameraGeometry get(const double *data) {
     CameraGeometry out;
     out.location[0] = data[0];
     out.location[1] = data[1];
     out.location[2] = data[2];
     out.heading = data[3];
     return out;
   }

   void dump(std::basic_ostream<char> &o) const;
 };

 struct IntrinsicParams {
   static constexpr size_t kNumParams = 3;

   double mount_angle = 0.819433 / 180.0 * M_PI;  // 9.32615 / 180.0 * M_PI;
   double focal_length = 666.763;                 // 734.328;
   // This is a final rotation where the camera isn't straight.
   double barrel_mount = 2.72086 / 180.0 * M_PI;

   void set(double *data) {
     data[0] = mount_angle;
     data[1] = focal_length;
     data[2] = barrel_mount;
   }
   static IntrinsicParams get(const double *data) {
     IntrinsicParams out;
     out.mount_angle = data[0];
     out.focal_length = data[1];
     out.barrel_mount = data[2];
     return out;
   }
   void dump(std::basic_ostream<char> &o) const;
 };

 // Metadata about the calibration results (Should be good enough to reproduce).
 struct DatasetInfo {
   int camera_id;
   // In meters from IMU start.
   std::array<double, 2> to_tape_measure_start;
   // In meters,
   std::array<double, 2> tape_measure_direction;
   // This will multiply tape_measure_direction and thus has no units.
   double beginning_tape_measure_reading;
   const char *filename_prefix;
   int num_images;

   void dump(std::basic_ostream<char> &o) const;
 };

 struct CameraCalibration {
   IntrinsicParams intrinsics;
   CameraGeometry geometry;
   DatasetInfo dataset;
 };

 const CameraCalibration *GetCamera(int camera_id);

 void DumpCameraConstants(int camera_id, const CameraCalibration &value);

 }  // namespace vision
 }  // namespace y2019

 #endif  // _Y2019_VISION_CONSTANTS_H_
	#ifndef _Y2019_VISION_CONSTANTS_H_
	#define _Y2019_VISION_CONSTANTS_H_

	#include <math.h>
	#include <array>
	#include <string>

	namespace y2019 {
	namespace vision {

	// Position of the idealized camera in 3d space.
	struct CameraGeometry {
	static constexpr size_t kNumParams = 4;
	// In Meters from floor under imu center.
	std::array<double, 3> location{{0, 0, 0}};
	double heading = 0.0;

	void set(double *data) {
	location[0] = data[0];
	location[1] = data[1];
	location[2] = data[2];
	heading = data[3];
	}
	static CameraGeometry get(const double *data) {
	CameraGeometry out;
	out.location[0] = data[0];
	out.location[1] = data[1];
	out.location[2] = data[2];
	out.heading = data[3];
	return out;
	}

	void dump(std::basic_ostream<char> &o) const;
	};

	struct IntrinsicParams {
	static constexpr size_t kNumParams = 3;

	double mount_angle = 0.819433 / 180.0 * M_PI; // 9.32615 / 180.0 * M_PI;
	double focal_length = 666.763; // 734.328;
	// This is a final rotation where the camera isn't straight.
	double barrel_mount = 2.72086 / 180.0 * M_PI;

	void set(double *data) {
	data[0] = mount_angle;
	data[1] = focal_length;
	data[2] = barrel_mount;
	}
	static IntrinsicParams get(const double *data) {
	IntrinsicParams out;
	out.mount_angle = data[0];
	out.focal_length = data[1];
	out.barrel_mount = data[2];
	return out;
	}
	void dump(std::basic_ostream<char> &o) const;
	};

	// Metadata about the calibration results (Should be good enough to reproduce).
	struct DatasetInfo {
	int camera_id;
	// In meters from IMU start.
	std::array<double, 2> to_tape_measure_start;
	// In meters,
	std::array<double, 2> tape_measure_direction;
	// This will multiply tape_measure_direction and thus has no units.
	double beginning_tape_measure_reading;
	const char *filename_prefix;
	int num_images;

	void dump(std::basic_ostream<char> &o) const;
	};

	struct CameraCalibration {
	IntrinsicParams intrinsics;
	CameraGeometry geometry;
	DatasetInfo dataset;
	};

	const CameraCalibration *GetCamera(int camera_id);

	void DumpCameraConstants(int camera_id, const CameraCalibration &value);

	} // namespace vision
	} // namespace y2019

	#endif // _Y2019_VISION_CONSTANTS_H_