/**************************************************************************/
/* nav_map.h */
/**************************************************************************/
/* This file is part of: */
/* GODOT ENGINE */
/* https://godotengine.org */
/**************************************************************************/
/* Copyright (c) 2014-present Godot Engine contributors (see AUTHORS.md). */
/* Copyright (c) 2007-2014 Juan Linietsky, Ariel Manzur. */
/* */
/* Permission is hereby granted, free of charge, to any person obtaining */
/* a copy of this software and associated documentation files (the */
/* "Software"), to deal in the Software without restriction, including */
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/* distribute, sublicense, and/or sell copies of the Software, and to */
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/* */
/* The above copyright notice and this permission notice shall be */
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/* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, */
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/**************************************************************************/
#ifndef NAV_MAP_H
#define NAV_MAP_H
#include "3d/nav_map_iteration_3d.h"
#include "3d/nav_mesh_queries_3d.h"
#include "nav_rid.h"
#include "nav_utils.h"
#include "core/math/math_defs.h"
#include "core/object/worker_thread_pool.h"
#include "servers/navigation/navigation_globals.h"
#include <KdTree2d.h>
#include <KdTree3d.h>
#include <RVOSimulator2d.h>
#include <RVOSimulator3d.h>
class NavLink;
class NavRegion;
class NavAgent;
class NavObstacle;
class NavMap : public NavRid {
/// Map Up
Vector3 up = Vector3(0, 1, 0);
/// To find the polygons edges the vertices are displaced in a grid where
/// each cell has the following cell_size and cell_height.
real_t cell_size = NavigationDefaults3D::navmesh_cell_size;
real_t cell_height = NavigationDefaults3D::navmesh_cell_height;
// For the inter-region merging to work, internal rasterization is performed.
Vector3 merge_rasterizer_cell_size = Vector3(cell_size, cell_height, cell_size);
// This value is used to control sensitivity of internal rasterizer.
float merge_rasterizer_cell_scale = 1.0;
bool use_edge_connections = true;
/// This value is used to detect the near edges to connect.
real_t edge_connection_margin = NavigationDefaults3D::edge_connection_margin;
/// This value is used to limit how far links search to find polygons to connect to.
real_t link_connection_radius = NavigationDefaults3D::link_connection_radius;
bool map_settings_dirty = true;
/// Map regions
LocalVector<NavRegion *> regions;
/// Map links
LocalVector<NavLink *> links;
/// RVO avoidance worlds
RVO2D::RVOSimulator2D rvo_simulation_2d;
RVO3D::RVOSimulator3D rvo_simulation_3d;
/// avoidance controlled agents
LocalVector<NavAgent *> active_2d_avoidance_agents;
LocalVector<NavAgent *> active_3d_avoidance_agents;
/// dirty flag when one of the agent's arrays are modified
bool agents_dirty = true;
/// All the Agents (even the controlled one)
LocalVector<NavAgent *> agents;
/// All the avoidance obstacles (both static and dynamic)
LocalVector<NavObstacle *> obstacles;
/// Are rvo obstacles modified?
bool obstacles_dirty = true;
/// Physics delta time
real_t deltatime = 0.0;
/// Change the id each time the map is updated.
uint32_t iteration_id = 0;
bool use_threads = true;
bool avoidance_use_multiple_threads = true;
bool avoidance_use_high_priority_threads = true;
// Performance Monitor
gd::PerformanceData performance_data;
struct {
SelfList<NavRegion>::List regions;
SelfList<NavLink>::List links;
SelfList<NavAgent>::List agents;
SelfList<NavObstacle>::List obstacles;
} sync_dirty_requests;
int path_query_slots_max = 4;
bool use_async_iterations = true;
uint32_t iteration_slot_index = 0;
LocalVector<NavMapIteration> iteration_slots;
mutable RWLock iteration_slot_rwlock;
NavMapIterationBuild iteration_build;
bool iteration_build_use_threads = false;
WorkerThreadPool::TaskID iteration_build_thread_task_id = WorkerThreadPool::INVALID_TASK_ID;
static void _build_iteration_threaded(void *p_arg);
bool iteration_dirty = true;
bool iteration_building = false;
bool iteration_ready = false;
void _build_iteration();
void _sync_iteration();
public:
NavMap();
~NavMap();
uint32_t get_iteration_id() const { return iteration_id; }
void set_up(Vector3 p_up);
Vector3 get_up() const {
return up;
}
void set_cell_size(real_t p_cell_size);
real_t get_cell_size() const {
return cell_size;
}
void set_cell_height(real_t p_cell_height);
real_t get_cell_height() const { return cell_height; }
void set_merge_rasterizer_cell_scale(float p_value);
float get_merge_rasterizer_cell_scale() const {
return merge_rasterizer_cell_scale;
}
void set_use_edge_connections(bool p_enabled);
bool get_use_edge_connections() const {
return use_edge_connections;
}
void set_edge_connection_margin(real_t p_edge_connection_margin);
real_t get_edge_connection_margin() const {
return edge_connection_margin;
}
void set_link_connection_radius(real_t p_link_connection_radius);
real_t get_link_connection_radius() const {
return link_connection_radius;
}
gd::PointKey get_point_key(const Vector3 &p_pos) const;
const Vector3 &get_merge_rasterizer_cell_size() const;
void query_path(NavMeshQueries3D::NavMeshPathQueryTask3D &p_query_task);
Vector3 get_closest_point_to_segment(const Vector3 &p_from, const Vector3 &p_to, const bool p_use_collision) const;
Vector3 get_closest_point(const Vector3 &p_point) const;
Vector3 get_closest_point_normal(const Vector3 &p_point) const;
gd::ClosestPointQueryResult get_closest_point_info(const Vector3 &p_point) const;
RID get_closest_point_owner(const Vector3 &p_point) const;
void add_region(NavRegion *p_region);
void remove_region(NavRegion *p_region);
const LocalVector<NavRegion *> &get_regions() const {
return regions;
}
void add_link(NavLink *p_link);
void remove_link(NavLink *p_link);
const LocalVector<NavLink *> &get_links() const {
return links;
}
bool has_agent(NavAgent *agent) const;
void add_agent(NavAgent *agent);
void remove_agent(NavAgent *agent);
const LocalVector<NavAgent *> &get_agents() const {
return agents;
}
void set_agent_as_controlled(NavAgent *agent);
void remove_agent_as_controlled(NavAgent *agent);
bool has_obstacle(NavObstacle *obstacle) const;
void add_obstacle(NavObstacle *obstacle);
void remove_obstacle(NavObstacle *obstacle);
const LocalVector<NavObstacle *> &get_obstacles() const {
return obstacles;
}
Vector3 get_random_point(uint32_t p_navigation_layers, bool p_uniformly) const;
void sync();
void step(real_t p_deltatime);
void dispatch_callbacks();
// Performance Monitor
int get_pm_region_count() const { return performance_data.pm_region_count; }
int get_pm_agent_count() const { return performance_data.pm_agent_count; }
int get_pm_link_count() const { return performance_data.pm_link_count; }
int get_pm_polygon_count() const { return performance_data.pm_polygon_count; }
int get_pm_edge_count() const { return performance_data.pm_edge_count; }
int get_pm_edge_merge_count() const { return performance_data.pm_edge_merge_count; }
int get_pm_edge_connection_count() const { return performance_data.pm_edge_connection_count; }
int get_pm_edge_free_count() const { return performance_data.pm_edge_free_count; }
int get_pm_obstacle_count() const { return performance_data.pm_obstacle_count; }
int get_region_connections_count(NavRegion *p_region) const;
Vector3 get_region_connection_pathway_start(NavRegion *p_region, int p_connection_id) const;
Vector3 get_region_connection_pathway_end(NavRegion *p_region, int p_connection_id) const;
void add_region_sync_dirty_request(SelfList<NavRegion> *p_sync_request);
void add_link_sync_dirty_request(SelfList<NavLink> *p_sync_request);
void add_agent_sync_dirty_request(SelfList<NavAgent> *p_sync_request);
void add_obstacle_sync_dirty_request(SelfList<NavObstacle> *p_sync_request);
void remove_region_sync_dirty_request(SelfList<NavRegion> *p_sync_request);
void remove_link_sync_dirty_request(SelfList<NavLink> *p_sync_request);
void remove_agent_sync_dirty_request(SelfList<NavAgent> *p_sync_request);
void remove_obstacle_sync_dirty_request(SelfList<NavObstacle> *p_sync_request);
void set_use_async_iterations(bool p_enabled);
bool get_use_async_iterations() const;
private:
void _sync_dirty_map_update_requests();
void _sync_dirty_avoidance_update_requests();
void compute_single_step(uint32_t index, NavAgent **agent);
void compute_single_avoidance_step_2d(uint32_t index, NavAgent **agent);
void compute_single_avoidance_step_3d(uint32_t index, NavAgent **agent);
void _sync_avoidance();
void _update_rvo_simulation();
void _update_rvo_obstacles_tree_2d();
void _update_rvo_agents_tree_2d();
void _update_rvo_agents_tree_3d();
void _update_merge_rasterizer_cell_dimensions();
};
#endif // NAV_MAP_H