#ifndef path_hh #define path_hh // io-hub - Modular Input/Output. {{{ // // Copyright (C) 2013 Nicolas Schodet // // APBTeam: // Web: http://apbteam.org/ // Email: team AT apbteam DOT org // // This program is free software; you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation; either version 2 of the License, or // (at your option) any later version. // // This program is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // // You should have received a copy of the GNU General Public License // along with this program; if not, write to the Free Software // Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. // // }}} #include "defs.hh" extern "C" { #include "modules/path/astar/astar.h" } #if 0 /** Number of possible obstacles. */ static const uint8_t PATH_OBSTACLES_NB = (4+1/*cake*/); /** Number of points for the cake */ #define PATH_CAKE_POINTS_NB 10 /** Number of points per standard obstacle. */ #define PATH_OBSTACLES_POINTS_NB 6 #define PATH_RESERVED_POINTS_NB 2 /** Number of points. */ #define PATH_POINTS_NB (PATH_RESERVED_POINTS_NB + \ (PATH_OBSTACLES_NB * PATH_OBSTACLES_POINTS_NB) + \ (PATH_CAKE_POINTS_NB - PATH_OBSTACLES_POINTS_NB) + \ 1 /*debug*/) /** Number of nodes. */ #define PATH_NODES_NB PATH_POINTS_NB #endif /** Angle between obstacles points. */ #define PATH_OBSTACLES_POINTS_ANGLE(pOINTS_NB) ((1L << 24) / (pOINTS_NB)) /** Obstacle */ typedef struct path_obstacle_t { /** Center. */ vect_t c; /** Radius. */ uint16_t r; /** factor */ int factor; } path_obstacle_t; /** Path finding class */ class Path { public: /** Initialise path */ Path(); /** Reset path computation, remove every obstacles */ void reset(void); /** Add an obstacle on the field */ void add_obstacle(const vect_t &c, const int r, const int factor, const int points_nb); /** Set a moving obstacle position, radius and factor*/ void obstacle(int index, const vect_t &c, int r, int factor = 0); /** Set path source and destination */ void endpoints(const vect_t &src, const vect_t &dst); /** Compute path with the given escape factor */ void compute(int factor = 0); /** Return a point vector by index */ vect_t& get_point_vect(const uint8_t index); /** Return a point index */ int get_point_index(const vect_t& point); /** Get next point in computed path, return false if none (no path found or last point given yet) */ bool get_next(vect_t &p); /** Find all neighbors of a given node, fill the astar_neighbor structure */ uint8_t find_neighbors(uint8_t node, struct astar_neighbor_t *neighbors); /** Prepare score computation for the given source, with given escape factor */ void prepare_score(const vect_t &src, int factor = 0); /** Return score for a given destination, using a previous preparation (also reuse previously given escape factor) */ uint16_t get_score(const vect_t &dst); private: /** Number of possible obstacles. */ static const uint8_t PATH_OBSTACLES_NB = (4+1/*cake*/); /** Number of points for the cake */ static const uint8_t PATH_CAKE_POINTS_NB = 10; /** Number of points per standard obstacle. */ static const uint8_t PATH_OBSTACLES_POINTS_NB = 6; /** Number of reserved points for the 2 endpoints */ static const uint8_t PATH_RESERVED_POINTS_NB = 2; /** Number of points. */ static const uint8_t PATH_POINTS_NB = (PATH_RESERVED_POINTS_NB + (PATH_OBSTACLES_NB * PATH_OBSTACLES_POINTS_NB) + (PATH_CAKE_POINTS_NB - PATH_OBSTACLES_POINTS_NB) + 1 /*debug*/); /** Number of nodes. */ static const uint8_t PATH_NODES_NB = PATH_POINTS_NB; /** Borders, any point outside borders is eliminated. */ const int16_t border_xmin, border_ymin, border_xmax, border_ymax; /** Escape factor, 0 if none. */ uint8_t escape_factor; /** List of obstacles. */ path_obstacle_t obstacles[PATH_OBSTACLES_NB]; /** Number of obstacles */ uint8_t obstacles_nb; /** List of navigation points */ vect_t points[PATH_POINTS_NB]; /** Number of navigation points */ uint8_t points_nb; /** List of nodes used for A*. */ struct astar_node_t astar_nodes[PATH_NODES_NB]; /** Which node to look at for next step. */ uint8_t next_node; /** TRUE when a path has been found */ bool path_found; }; #endif // path_hh