// Arrival Class #ifndef _Arrival_H__ #define _Arrival_H__ #include "misc/Vector3.h" #include "misc/Quaternion.h" namespace orxonox { class Arrival { public: Vector3 location; //!< locationvector of the element Vector3 speed; //!< speedvector of the element Vector3 acceleration; //!< accelerationvector of the element Vector3 target; //!< target to arrive int accelerationForwards; //!< from steering-interface int MaxSpeed; //!< from steering-interface Arrival() { acceleration = (0,0,0); speed = (0,0,0); location = (0,0,0); target = (0,0,0); } Arrival(Vector3 location_, Vector3 speed_, Vector3 acceleration_, Vector3 target_) { acceleration = acceleration_; speed = speed_; location = location_; target = target_; } void setValues(Vector3 location_, Vector3 speed_, Vector3 acceleration_, Vector3 target_) { acceleration = acceleration_; speed = speed_; location = location_; target = target_; } void setTarget(Vector3 target_) { setValues(this->location, this->speed, this->acceleration, target_); } Vector3 getDirection() { Vector3 direction = target-location; } double relativeDirectApproach() { // Maxspeed / accelerationForwards = time needed to break with max acceleration // 2*getDistance()length/(MaxSpeed/accelerationForwards)^2 = required acceleration to arrive at the target with speed = 0 return (accelerationForwards / (2*getDirection().length() / ((MaxSpeed/accelerationForwards)*(MaxSpeed/accelerationForwards))) ); } void Approach() { Quaternion rotation = Quaternion(0,0,0,0); if (relativeDirectApproach() > 1) { float length = speed.length(); speed = (speed+getDirection()); speed.normalise(); speed = speed*length; if (relativeDirectApproach() > 4) { //accelerate } else { // speed will stay constant } } else { } } }; } #endif /* _Arrival_H__ */