1 /*! \brief RRT* structure and default procedures.
10 #include <json/json.h>
18 /*! Compute elapsed time class. */
21 std::chrono::high_resolution_clock::time_point tstart_;
27 /*! Store RRT node. */
28 class RRTNode : public virtual Pose, public virtual CarMove {
32 RRTNode* p_ = nullptr;
34 /*! Get cost to parent. */
37 /*! Set cost to parent. */
40 /*! Get cumulative cost from root. */
43 /*! Get parent node. */
46 /*! Set parent node. */
49 bool operator==(RRTNode const& n);
52 class RRTGoal : public virtual RRTNode, public virtual PoseRange {
54 using PoseRange::PoseRange;
57 /*! RRT* algorithm basic class. */
62 unsigned int icnt_ = 0;
64 std::default_random_engine gen_;
65 std::vector<RRTNode> nodes_;
66 std::vector<RRTNode> steered_;
67 std::vector<RRTNode*> path_;
68 RRTNode* nn_ = nullptr;
69 std::vector<RRTNode*> nv_;
73 double last_goal_cc_ = 0.0;
74 double min_gamma_eta() const;
75 bool should_continue() const;
76 void join_steered(RRTNode* f);
80 bool goal_drivable_from(RRTNode const& f);
81 virtual void store(RRTNode n);
82 virtual double cost_build(RRTNode const& f, RRTNode const& t) const;
83 virtual double cost_search(RRTNode const& f, RRTNode const& t) const;
84 virtual void find_nn(RRTNode const& t);
85 virtual void find_nv(RRTNode const& t);
86 virtual void compute_path();
87 virtual void steer(RRTNode const& f, RRTNode const& t) = 0;
88 virtual bool collide_steered() = 0;
89 virtual RRTNode sample() = 0;
90 virtual bool should_finish() const = 0;
94 /*! Get iterations counter. */
95 unsigned int icnt() const;
97 /*! Set iterations counter. */
98 void icnt(unsigned int i);
100 /*! Return elapsed time. */
103 /*! Generate JSON output. */
104 Json::Value json() const;
106 /*! Load JSON input. */
107 void json(Json::Value jvi);
109 /*! Run next RRT* iteration. */
112 /*! Reset the algorithm. */
113 virtual void reset();
117 #endif /* RRTS_RRTS_H */