/** * PANDA 3D SOFTWARE * Copyright (c) Carnegie Mellon University. All rights reserved. * * All use of this software is subject to the terms of the revised BSD * license. You should have received a copy of this license along * with this source code in a file named "LICENSE." * * @file collisionSphere.h * @author drose * @date 2000-04-24 */ #ifndef COLLISIONSPHERE_H #define COLLISIONSPHERE_H #include "pandabase.h" #include "collisionSolid.h" #include "parabola.h" #include "collisionBox.h" /** * A spherical collision volume or object. */ class EXPCL_PANDA_COLLIDE CollisionSphere : public CollisionSolid { PUBLISHED: INLINE explicit CollisionSphere(const LPoint3 ¢er, PN_stdfloat radius); INLINE explicit CollisionSphere(PN_stdfloat cx, PN_stdfloat cy, PN_stdfloat cz, PN_stdfloat radius); virtual LPoint3 get_collision_origin() const; protected: INLINE CollisionSphere(); public: INLINE CollisionSphere(const CollisionSphere ©); virtual CollisionSolid *make_copy(); virtual PT(CollisionEntry) test_intersection(const CollisionEntry &entry) const; virtual void xform(const LMatrix4 &mat); virtual PStatCollector &get_volume_pcollector(); virtual PStatCollector &get_test_pcollector(); virtual void output(std::ostream &out) const; INLINE static void flush_level(); PUBLISHED: INLINE void set_center(const LPoint3 ¢er); INLINE void set_center(PN_stdfloat x, PN_stdfloat y, PN_stdfloat z); INLINE const LPoint3 &get_center() const; INLINE void set_radius(PN_stdfloat radius); INLINE PN_stdfloat get_radius() const; PUBLISHED: MAKE_PROPERTY(center, get_center, set_center); MAKE_PROPERTY(radius, get_radius, set_radius); protected: virtual PT(BoundingVolume) compute_internal_bounds() const; virtual PT(CollisionEntry) test_intersection_from_sphere(const CollisionEntry &entry) const; virtual PT(CollisionEntry) test_intersection_from_line(const CollisionEntry &entry) const; virtual PT(CollisionEntry) test_intersection_from_ray(const CollisionEntry &entry) const; virtual PT(CollisionEntry) test_intersection_from_segment(const CollisionEntry &entry) const; virtual PT(CollisionEntry) test_intersection_from_capsule(const CollisionEntry &entry) const; virtual PT(CollisionEntry) test_intersection_from_parabola(const CollisionEntry &entry) const; virtual PT(CollisionEntry) test_intersection_from_box(const CollisionEntry &entry) const; virtual void fill_viz_geom(); protected: bool intersects_line(double &t1, double &t2, const LPoint3 &from, const LVector3 &delta, PN_stdfloat inflate_radius) const; bool intersects_parabola(double &t, const LParabola ¶bola, double t1, double t2, const LPoint3 &p1, const LPoint3 &p2) const; LVertex compute_point(PN_stdfloat latitude, PN_stdfloat longitude) const; private: LPoint3 _center; PN_stdfloat _radius; static PStatCollector _volume_pcollector; static PStatCollector _test_pcollector; public: static void register_with_read_factory(); virtual void write_datagram(BamWriter *manager, Datagram &me); protected: static TypedWritable *make_CollisionSphere(const FactoryParams ¶ms); void fillin(DatagramIterator &scan, BamReader *manager); public: static TypeHandle get_class_type() { return _type_handle; } static void init_type() { CollisionSolid::init_type(); register_type(_type_handle, "CollisionSphere", CollisionSolid::get_class_type()); } virtual TypeHandle get_type() const { return get_class_type(); } virtual TypeHandle force_init_type() {init_type(); return get_class_type();} private: static TypeHandle _type_handle; }; #include "collisionSphere.I" #endif