// -*- tab-width: 4; Mode: C++; c-basic-offset: 4; indent-tabs-mode: t -*- #ifndef AP_MATH_H #define AP_MATH_H // Assorted useful math operations for ArduPilot(Mega) #include #include #include #include "rotations.h" #include "vector2.h" #include "vector3.h" #include "matrix3.h" #include "quaternion.h" #include "polygon.h" // define AP_Param types AP_Vector3f and Ap_Matrix3f AP_PARAMDEFV(Matrix3f, Matrix3f, AP_PARAM_MATRIX3F); AP_PARAMDEFV(Vector3f, Vector3f, AP_PARAM_VECTOR3F); // a varient of asin() that always gives a valid answer. float safe_asin(float v); // a varient of sqrt() that always gives a valid answer. float safe_sqrt(float v); // find a rotation that is the combination of two other // rotations. This is used to allow us to add an overall board // rotation to an existing rotation of a sensor such as the compass enum Rotation rotation_combination(enum Rotation r1, enum Rotation r2, bool *found = NULL); // return distance in meters between two locations float get_distance(const struct Location *loc1, const struct Location *loc2); // return distance in centimeters between two locations int32_t get_distance_cm(const struct Location *loc1, const struct Location *loc2); // return bearing in centi-degrees between two locations int32_t get_bearing_cd(const struct Location *loc1, const struct Location *loc2); // see if location is past a line perpendicular to // the line between point1 and point2. If point1 is // our previous waypoint and point2 is our target waypoint // then this function returns true if we have flown past // the target waypoint bool location_passed_point(struct Location &location, struct Location &point1, struct Location &point2); #endif // AP_MATH_H