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/**************************************************************************/
/* godot_navigation_server_2d.cpp */
/**************************************************************************/
/* 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 */
/* without limitation the rights to use, copy, modify, merge, publish, */
/* distribute, sublicense, and/or sell copies of the Software, and to */
/* permit persons to whom the Software is furnished to do so, subject to */
/* the following conditions: */
/* */
/* The above copyright notice and this permission notice shall be */
/* included in all copies or substantial portions of the Software. */
/* */
/* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, */
/* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF */
/* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. */
/* IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY */
/* CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, */
/* TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE */
/* SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */
/**************************************************************************/
# include "godot_navigation_server_2d.h"
# ifdef CLIPPER2_ENABLED
# include "nav_mesh_generator_2d.h"
# endif // CLIPPER2_ENABLED
# include "servers/navigation_server_3d.h"
# define FORWARD_0(FUNC_NAME) \
GodotNavigationServer2D : : FUNC_NAME ( ) { \
return NavigationServer3D : : get_singleton ( ) - > FUNC_NAME ( ) ; \
}
# define FORWARD_0_C(FUNC_NAME) \
GodotNavigationServer2D : : FUNC_NAME ( ) \
const { \
return NavigationServer3D : : get_singleton ( ) - > FUNC_NAME ( ) ; \
}
# define FORWARD_1(FUNC_NAME, T_0, D_0, CONV_0) \
GodotNavigationServer2D : : FUNC_NAME ( T_0 D_0 ) { \
return NavigationServer3D : : get_singleton ( ) - > FUNC_NAME ( CONV_0 ( D_0 ) ) ; \
}
# define FORWARD_1_C(FUNC_NAME, T_0, D_0, CONV_0) \
GodotNavigationServer2D : : FUNC_NAME ( T_0 D_0 ) \
const { \
return NavigationServer3D : : get_singleton ( ) - > FUNC_NAME ( CONV_0 ( D_0 ) ) ; \
}
# define FORWARD_1_R_C(CONV_R, FUNC_NAME, T_0, D_0, CONV_0) \
GodotNavigationServer2D : : FUNC_NAME ( T_0 D_0 ) \
const { \
return CONV_R ( NavigationServer3D : : get_singleton ( ) - > FUNC_NAME ( CONV_0 ( D_0 ) ) ) ; \
}
# define FORWARD_2(FUNC_NAME, T_0, D_0, T_1, D_1, CONV_0, CONV_1) \
GodotNavigationServer2D : : FUNC_NAME ( T_0 D_0 , T_1 D_1 ) { \
return NavigationServer3D : : get_singleton ( ) - > FUNC_NAME ( CONV_0 ( D_0 ) , CONV_1 ( D_1 ) ) ; \
}
# define FORWARD_2_C(FUNC_NAME, T_0, D_0, T_1, D_1, CONV_0, CONV_1) \
GodotNavigationServer2D : : FUNC_NAME ( T_0 D_0 , T_1 D_1 ) \
const { \
return NavigationServer3D : : get_singleton ( ) - > FUNC_NAME ( CONV_0 ( D_0 ) , CONV_1 ( D_1 ) ) ; \
}
# define FORWARD_2_R_C(CONV_R, FUNC_NAME, T_0, D_0, T_1, D_1, CONV_0, CONV_1) \
GodotNavigationServer2D : : FUNC_NAME ( T_0 D_0 , T_1 D_1 ) \
const { \
return CONV_R ( NavigationServer3D : : get_singleton ( ) - > FUNC_NAME ( CONV_0 ( D_0 ) , CONV_1 ( D_1 ) ) ) ; \
}
# define FORWARD_5_R_C(CONV_R, FUNC_NAME, T_0, D_0, T_1, D_1, T_2, D_2, T_3, D_3, T_4, D_4, CONV_0, CONV_1, CONV_2, CONV_3, CONV_4) \
GodotNavigationServer2D : : FUNC_NAME ( T_0 D_0 , T_1 D_1 , T_2 D_2 , T_3 D_3 , T_4 D_4 ) \
const { \
return CONV_R ( NavigationServer3D : : get_singleton ( ) - > FUNC_NAME ( CONV_0 ( D_0 ) , CONV_1 ( D_1 ) , CONV_2 ( D_2 ) , CONV_3 ( D_3 ) , CONV_4 ( D_4 ) ) ) ; \
}
static RID rid_to_rid ( const RID d ) {
return d ;
}
static bool bool_to_bool ( const bool d ) {
return d ;
}
static int int_to_int ( const int d ) {
return d ;
}
static uint32_t uint32_to_uint32 ( const uint32_t d ) {
return d ;
}
static real_t real_to_real ( const real_t d ) {
return d ;
}
static Vector3 v2_to_v3 ( const Vector2 d ) {
return Vector3 ( d . x , 0.0 , d . y ) ;
}
static Vector2 v3_to_v2 ( const Vector3 & d ) {
return Vector2 ( d . x , d . z ) ;
}
static Vector < Vector3 > vector_v2_to_v3 ( const Vector < Vector2 > & d ) {
Vector < Vector3 > nd ;
nd . resize ( d . size ( ) ) ;
for ( int i ( 0 ) ; i < nd . size ( ) ; i + + ) {
nd . write [ i ] = v2_to_v3 ( d [ i ] ) ;
}
return nd ;
}
static Vector < Vector2 > vector_v3_to_v2 ( const Vector < Vector3 > & d ) {
Vector < Vector2 > nd ;
nd . resize ( d . size ( ) ) ;
for ( int i ( 0 ) ; i < nd . size ( ) ; i + + ) {
nd . write [ i ] = v3_to_v2 ( d [ i ] ) ;
}
return nd ;
}
static Transform3D trf2_to_trf3 ( const Transform2D & d ) {
Vector3 o ( v2_to_v3 ( d . get_origin ( ) ) ) ;
Basis b ;
b . rotate ( Vector3 ( 0 , - 1 , 0 ) , d . get_rotation ( ) ) ;
b . scale ( v2_to_v3 ( d . get_scale ( ) ) ) ;
return Transform3D ( b , o ) ;
}
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static Transform2D trf3_to_trf2 ( const Transform3D & d ) {
Vector3 o = d . get_origin ( ) ;
Vector3 nx = d . xform ( Vector3 ( 1 , 0 , 0 ) ) - o ;
Vector3 nz = d . xform ( Vector3 ( 0 , 0 , 1 ) ) - o ;
return Transform2D ( nx . x , nx . z , nz . x , nz . z , o . x , o . z ) ;
}
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static ObjectID id_to_id ( const ObjectID & id ) {
return id ;
}
static Callable callable_to_callable ( const Callable & c ) {
return c ;
}
static Ref < NavigationMesh > poly_to_mesh ( Ref < NavigationPolygon > d ) {
if ( d . is_valid ( ) ) {
return d - > get_navigation_mesh ( ) ;
} else {
return Ref < NavigationMesh > ( ) ;
}
}
void GodotNavigationServer2D : : init ( ) {
# ifdef CLIPPER2_ENABLED
navmesh_generator_2d = memnew ( NavMeshGenerator2D ) ;
ERR_FAIL_NULL_MSG ( navmesh_generator_2d , " Failed to init NavMeshGenerator2D. " ) ;
# endif // CLIPPER2_ENABLED
}
void GodotNavigationServer2D : : sync ( ) {
# ifdef CLIPPER2_ENABLED
if ( navmesh_generator_2d ) {
navmesh_generator_2d - > sync ( ) ;
}
# endif // CLIPPER2_ENABLED
}
void GodotNavigationServer2D : : finish ( ) {
# ifdef CLIPPER2_ENABLED
if ( navmesh_generator_2d ) {
navmesh_generator_2d - > finish ( ) ;
memdelete ( navmesh_generator_2d ) ;
navmesh_generator_2d = nullptr ;
}
# endif // CLIPPER2_ENABLED
}
void GodotNavigationServer2D : : parse_source_geometry_data ( const Ref < NavigationPolygon > & p_navigation_mesh , const Ref < NavigationMeshSourceGeometryData2D > & p_source_geometry_data , Node * p_root_node , const Callable & p_callback ) {
ERR_FAIL_COND_MSG ( ! Thread : : is_main_thread ( ) , " The SceneTree can only be parsed on the main thread. Call this function from the main thread or use call_deferred(). " ) ;
ERR_FAIL_COND_MSG ( ! p_navigation_mesh . is_valid ( ) , " Invalid navigation polygon. " ) ;
ERR_FAIL_NULL_MSG ( p_root_node , " No parsing root node specified. " ) ;
ERR_FAIL_COND_MSG ( ! p_root_node - > is_inside_tree ( ) , " The root node needs to be inside the SceneTree. " ) ;
# ifdef CLIPPER2_ENABLED
ERR_FAIL_NULL ( NavMeshGenerator2D : : get_singleton ( ) ) ;
NavMeshGenerator2D : : get_singleton ( ) - > parse_source_geometry_data ( p_navigation_mesh , p_source_geometry_data , p_root_node , p_callback ) ;
# endif // CLIPPER2_ENABLED
}
void GodotNavigationServer2D : : bake_from_source_geometry_data ( const Ref < NavigationPolygon > & p_navigation_mesh , const Ref < NavigationMeshSourceGeometryData2D > & p_source_geometry_data , const Callable & p_callback ) {
ERR_FAIL_COND_MSG ( ! p_navigation_mesh . is_valid ( ) , " Invalid navigation polygon. " ) ;
ERR_FAIL_COND_MSG ( ! p_source_geometry_data . is_valid ( ) , " Invalid NavigationMeshSourceGeometryData2D. " ) ;
# ifdef CLIPPER2_ENABLED
ERR_FAIL_NULL ( NavMeshGenerator2D : : get_singleton ( ) ) ;
NavMeshGenerator2D : : get_singleton ( ) - > bake_from_source_geometry_data ( p_navigation_mesh , p_source_geometry_data , p_callback ) ;
# endif // CLIPPER2_ENABLED
}
void GodotNavigationServer2D : : bake_from_source_geometry_data_async ( const Ref < NavigationPolygon > & p_navigation_mesh , const Ref < NavigationMeshSourceGeometryData2D > & p_source_geometry_data , const Callable & p_callback ) {
ERR_FAIL_COND_MSG ( ! p_navigation_mesh . is_valid ( ) , " Invalid navigation mesh. " ) ;
ERR_FAIL_COND_MSG ( ! p_source_geometry_data . is_valid ( ) , " Invalid NavigationMeshSourceGeometryData2D. " ) ;
# ifdef CLIPPER2_ENABLED
ERR_FAIL_NULL ( NavMeshGenerator2D : : get_singleton ( ) ) ;
NavMeshGenerator2D : : get_singleton ( ) - > bake_from_source_geometry_data_async ( p_navigation_mesh , p_source_geometry_data , p_callback ) ;
# endif // CLIPPER2_ENABLED
}
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bool GodotNavigationServer2D : : is_baking_navigation_polygon ( Ref < NavigationPolygon > p_navigation_polygon ) const {
return NavMeshGenerator2D : : get_singleton ( ) - > is_baking ( p_navigation_polygon ) ;
}
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GodotNavigationServer2D : : GodotNavigationServer2D ( ) { }
GodotNavigationServer2D : : ~ GodotNavigationServer2D ( ) { }
TypedArray < RID > FORWARD_0_C ( get_maps ) ;
TypedArray < RID > FORWARD_1_C ( map_get_links , RID , p_map , rid_to_rid ) ;
TypedArray < RID > FORWARD_1_C ( map_get_regions , RID , p_map , rid_to_rid ) ;
TypedArray < RID > FORWARD_1_C ( map_get_agents , RID , p_map , rid_to_rid ) ;
TypedArray < RID > FORWARD_1_C ( map_get_obstacles , RID , p_map , rid_to_rid ) ;
RID FORWARD_1_C ( region_get_map , RID , p_region , rid_to_rid ) ;
RID FORWARD_1_C ( agent_get_map , RID , p_agent , rid_to_rid ) ;
RID FORWARD_0 ( map_create ) ;
void FORWARD_2 ( map_set_active , RID , p_map , bool , p_active , rid_to_rid , bool_to_bool ) ;
bool FORWARD_1_C ( map_is_active , RID , p_map , rid_to_rid ) ;
void GodotNavigationServer2D : : map_force_update ( RID p_map ) {
NavigationServer3D : : get_singleton ( ) - > map_force_update ( p_map ) ;
}
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uint32_t GodotNavigationServer2D : : map_get_iteration_id ( RID p_map ) const {
return NavigationServer3D : : get_singleton ( ) - > map_get_iteration_id ( p_map ) ;
}
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void FORWARD_2 ( map_set_cell_size , RID , p_map , real_t , p_cell_size , rid_to_rid , real_to_real ) ;
real_t FORWARD_1_C ( map_get_cell_size , RID , p_map , rid_to_rid ) ;
void FORWARD_2 ( map_set_use_edge_connections , RID , p_map , bool , p_enabled , rid_to_rid , bool_to_bool ) ;
bool FORWARD_1_C ( map_get_use_edge_connections , RID , p_map , rid_to_rid ) ;
void FORWARD_2 ( map_set_edge_connection_margin , RID , p_map , real_t , p_connection_margin , rid_to_rid , real_to_real ) ;
real_t FORWARD_1_C ( map_get_edge_connection_margin , RID , p_map , rid_to_rid ) ;
void FORWARD_2 ( map_set_link_connection_radius , RID , p_map , real_t , p_connection_radius , rid_to_rid , real_to_real ) ;
real_t FORWARD_1_C ( map_get_link_connection_radius , RID , p_map , rid_to_rid ) ;
Vector < Vector2 > FORWARD_5_R_C ( vector_v3_to_v2 , map_get_path , RID , p_map , Vector2 , p_origin , Vector2 , p_destination , bool , p_optimize , uint32_t , p_layers , rid_to_rid , v2_to_v3 , v2_to_v3 , bool_to_bool , uint32_to_uint32 ) ;
Vector2 FORWARD_2_R_C ( v3_to_v2 , map_get_closest_point , RID , p_map , const Vector2 & , p_point , rid_to_rid , v2_to_v3 ) ;
RID FORWARD_2_C ( map_get_closest_point_owner , RID , p_map , const Vector2 & , p_point , rid_to_rid , v2_to_v3 ) ;
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Vector2 GodotNavigationServer2D : : map_get_random_point ( RID p_map , uint32_t p_naviation_layers , bool p_uniformly ) const {
Vector3 result = NavigationServer3D : : get_singleton ( ) - > map_get_random_point ( p_map , p_naviation_layers , p_uniformly ) ;
return v3_to_v2 ( result ) ;
}
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RID FORWARD_0 ( region_create ) ;
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void FORWARD_2 ( region_set_enabled , RID , p_region , bool , p_enabled , rid_to_rid , bool_to_bool ) ;
bool FORWARD_1_C ( region_get_enabled , RID , p_region , rid_to_rid ) ;
void FORWARD_2 ( region_set_use_edge_connections , RID , p_region , bool , p_enabled , rid_to_rid , bool_to_bool ) ;
bool FORWARD_1_C ( region_get_use_edge_connections , RID , p_region , rid_to_rid ) ;
void FORWARD_2 ( region_set_enter_cost , RID , p_region , real_t , p_enter_cost , rid_to_rid , real_to_real ) ;
real_t FORWARD_1_C ( region_get_enter_cost , RID , p_region , rid_to_rid ) ;
void FORWARD_2 ( region_set_travel_cost , RID , p_region , real_t , p_travel_cost , rid_to_rid , real_to_real ) ;
real_t FORWARD_1_C ( region_get_travel_cost , RID , p_region , rid_to_rid ) ;
void FORWARD_2 ( region_set_owner_id , RID , p_region , ObjectID , p_owner_id , rid_to_rid , id_to_id ) ;
ObjectID FORWARD_1_C ( region_get_owner_id , RID , p_region , rid_to_rid ) ;
bool FORWARD_2_C ( region_owns_point , RID , p_region , const Vector2 & , p_point , rid_to_rid , v2_to_v3 ) ;
void FORWARD_2 ( region_set_map , RID , p_region , RID , p_map , rid_to_rid , rid_to_rid ) ;
void FORWARD_2 ( region_set_navigation_layers , RID , p_region , uint32_t , p_navigation_layers , rid_to_rid , uint32_to_uint32 ) ;
uint32_t FORWARD_1_C ( region_get_navigation_layers , RID , p_region , rid_to_rid ) ;
void FORWARD_2 ( region_set_transform , RID , p_region , Transform2D , p_transform , rid_to_rid , trf2_to_trf3 ) ;
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Transform2D GodotNavigationServer2D : : region_get_transform ( RID p_region ) const {
return trf3_to_trf2 ( NavigationServer3D : : get_singleton ( ) - > region_get_transform ( p_region ) ) ;
}
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void GodotNavigationServer2D : : region_set_navigation_polygon ( RID p_region , Ref < NavigationPolygon > p_navigation_polygon ) {
NavigationServer3D : : get_singleton ( ) - > region_set_navigation_mesh ( p_region , poly_to_mesh ( p_navigation_polygon ) ) ;
}
int FORWARD_1_C ( region_get_connections_count , RID , p_region , rid_to_rid ) ;
Vector2 FORWARD_2_R_C ( v3_to_v2 , region_get_connection_pathway_start , RID , p_region , int , p_connection_id , rid_to_rid , int_to_int ) ;
Vector2 FORWARD_2_R_C ( v3_to_v2 , region_get_connection_pathway_end , RID , p_region , int , p_connection_id , rid_to_rid , int_to_int ) ;
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Vector2 GodotNavigationServer2D : : region_get_random_point ( RID p_region , uint32_t p_navigation_layers , bool p_uniformly ) const {
Vector3 result = NavigationServer3D : : get_singleton ( ) - > region_get_random_point ( p_region , p_navigation_layers , p_uniformly ) ;
return v3_to_v2 ( result ) ;
}
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RID FORWARD_0 ( link_create ) ;
void FORWARD_2 ( link_set_map , RID , p_link , RID , p_map , rid_to_rid , rid_to_rid ) ;
RID FORWARD_1_C ( link_get_map , RID , p_link , rid_to_rid ) ;
void FORWARD_2 ( link_set_enabled , RID , p_link , bool , p_enabled , rid_to_rid , bool_to_bool ) ;
bool FORWARD_1_C ( link_get_enabled , RID , p_link , rid_to_rid ) ;
void FORWARD_2 ( link_set_bidirectional , RID , p_link , bool , p_bidirectional , rid_to_rid , bool_to_bool ) ;
bool FORWARD_1_C ( link_is_bidirectional , RID , p_link , rid_to_rid ) ;
void FORWARD_2 ( link_set_navigation_layers , RID , p_link , uint32_t , p_navigation_layers , rid_to_rid , uint32_to_uint32 ) ;
uint32_t FORWARD_1_C ( link_get_navigation_layers , RID , p_link , rid_to_rid ) ;
void FORWARD_2 ( link_set_start_position , RID , p_link , Vector2 , p_position , rid_to_rid , v2_to_v3 ) ;
Vector2 FORWARD_1_R_C ( v3_to_v2 , link_get_start_position , RID , p_link , rid_to_rid ) ;
void FORWARD_2 ( link_set_end_position , RID , p_link , Vector2 , p_position , rid_to_rid , v2_to_v3 ) ;
Vector2 FORWARD_1_R_C ( v3_to_v2 , link_get_end_position , RID , p_link , rid_to_rid ) ;
void FORWARD_2 ( link_set_enter_cost , RID , p_link , real_t , p_enter_cost , rid_to_rid , real_to_real ) ;
real_t FORWARD_1_C ( link_get_enter_cost , RID , p_link , rid_to_rid ) ;
void FORWARD_2 ( link_set_travel_cost , RID , p_link , real_t , p_travel_cost , rid_to_rid , real_to_real ) ;
real_t FORWARD_1_C ( link_get_travel_cost , RID , p_link , rid_to_rid ) ;
void FORWARD_2 ( link_set_owner_id , RID , p_link , ObjectID , p_owner_id , rid_to_rid , id_to_id ) ;
ObjectID FORWARD_1_C ( link_get_owner_id , RID , p_link , rid_to_rid ) ;
RID GodotNavigationServer2D : : agent_create ( ) {
RID agent = NavigationServer3D : : get_singleton ( ) - > agent_create ( ) ;
return agent ;
}
void FORWARD_2 ( agent_set_avoidance_enabled , RID , p_agent , bool , p_enabled , rid_to_rid , bool_to_bool ) ;
bool FORWARD_1_C ( agent_get_avoidance_enabled , RID , p_agent , rid_to_rid ) ;
void FORWARD_2 ( agent_set_map , RID , p_agent , RID , p_map , rid_to_rid , rid_to_rid ) ;
void FORWARD_2 ( agent_set_neighbor_distance , RID , p_agent , real_t , p_dist , rid_to_rid , real_to_real ) ;
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real_t GodotNavigationServer2D : : agent_get_neighbor_distance ( RID p_agent ) const {
return NavigationServer3D : : get_singleton ( ) - > agent_get_neighbor_distance ( p_agent ) ;
}
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void FORWARD_2 ( agent_set_max_neighbors , RID , p_agent , int , p_count , rid_to_rid , int_to_int ) ;
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int GodotNavigationServer2D : : agent_get_max_neighbors ( RID p_agent ) const {
return NavigationServer3D : : get_singleton ( ) - > agent_get_max_neighbors ( p_agent ) ;
}
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void FORWARD_2 ( agent_set_time_horizon_agents , RID , p_agent , real_t , p_time_horizon , rid_to_rid , real_to_real ) ;
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real_t GodotNavigationServer2D : : agent_get_time_horizon_agents ( RID p_agent ) const {
return NavigationServer3D : : get_singleton ( ) - > agent_get_time_horizon_agents ( p_agent ) ;
}
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void FORWARD_2 ( agent_set_time_horizon_obstacles , RID , p_agent , real_t , p_time_horizon , rid_to_rid , real_to_real ) ;
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real_t GodotNavigationServer2D : : agent_get_time_horizon_obstacles ( RID p_agent ) const {
return NavigationServer3D : : get_singleton ( ) - > agent_get_time_horizon_obstacles ( p_agent ) ;
}
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void FORWARD_2 ( agent_set_radius , RID , p_agent , real_t , p_radius , rid_to_rid , real_to_real ) ;
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real_t GodotNavigationServer2D : : agent_get_radius ( RID p_agent ) const {
return NavigationServer3D : : get_singleton ( ) - > agent_get_radius ( p_agent ) ;
}
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void FORWARD_2 ( agent_set_max_speed , RID , p_agent , real_t , p_max_speed , rid_to_rid , real_to_real ) ;
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real_t GodotNavigationServer2D : : agent_get_max_speed ( RID p_agent ) const {
return NavigationServer3D : : get_singleton ( ) - > agent_get_max_speed ( p_agent ) ;
}
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void FORWARD_2 ( agent_set_velocity_forced , RID , p_agent , Vector2 , p_velocity , rid_to_rid , v2_to_v3 ) ;
void FORWARD_2 ( agent_set_velocity , RID , p_agent , Vector2 , p_velocity , rid_to_rid , v2_to_v3 ) ;
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Vector2 GodotNavigationServer2D : : agent_get_velocity ( RID p_agent ) const {
return v3_to_v2 ( NavigationServer3D : : get_singleton ( ) - > agent_get_velocity ( p_agent ) ) ;
}
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void FORWARD_2 ( agent_set_position , RID , p_agent , Vector2 , p_position , rid_to_rid , v2_to_v3 ) ;
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Vector2 GodotNavigationServer2D : : agent_get_position ( RID p_agent ) const {
return v3_to_v2 ( NavigationServer3D : : get_singleton ( ) - > agent_get_position ( p_agent ) ) ;
}
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bool FORWARD_1_C ( agent_is_map_changed , RID , p_agent , rid_to_rid ) ;
void FORWARD_2 ( agent_set_paused , RID , p_agent , bool , p_paused , rid_to_rid , bool_to_bool ) ;
bool FORWARD_1_C ( agent_get_paused , RID , p_agent , rid_to_rid ) ;
void FORWARD_1 ( free , RID , p_object , rid_to_rid ) ;
void FORWARD_2 ( agent_set_avoidance_callback , RID , p_agent , Callable , p_callback , rid_to_rid , callable_to_callable ) ;
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bool GodotNavigationServer2D : : agent_has_avoidance_callback ( RID p_agent ) const {
return NavigationServer3D : : get_singleton ( ) - > agent_has_avoidance_callback ( p_agent ) ;
}
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void FORWARD_2 ( agent_set_avoidance_layers , RID , p_agent , uint32_t , p_layers , rid_to_rid , uint32_to_uint32 ) ;
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uint32_t GodotNavigationServer2D : : agent_get_avoidance_layers ( RID p_agent ) const {
return NavigationServer3D : : get_singleton ( ) - > agent_get_avoidance_layers ( p_agent ) ;
}
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void FORWARD_2 ( agent_set_avoidance_mask , RID , p_agent , uint32_t , p_mask , rid_to_rid , uint32_to_uint32 ) ;
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uint32_t GodotNavigationServer2D : : agent_get_avoidance_mask ( RID p_agent ) const {
return NavigationServer3D : : get_singleton ( ) - > agent_get_avoidance_mask ( p_agent ) ;
}
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void FORWARD_2 ( agent_set_avoidance_priority , RID , p_agent , real_t , p_priority , rid_to_rid , real_to_real ) ;
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real_t GodotNavigationServer2D : : agent_get_avoidance_priority ( RID p_agent ) const {
return NavigationServer3D : : get_singleton ( ) - > agent_get_avoidance_priority ( p_agent ) ;
}
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RID GodotNavigationServer2D : : obstacle_create ( ) {
RID obstacle = NavigationServer3D : : get_singleton ( ) - > obstacle_create ( ) ;
return obstacle ;
}
void FORWARD_2 ( obstacle_set_avoidance_enabled , RID , p_obstacle , bool , p_enabled , rid_to_rid , bool_to_bool ) ;
bool FORWARD_1_C ( obstacle_get_avoidance_enabled , RID , p_obstacle , rid_to_rid ) ;
void FORWARD_2 ( obstacle_set_map , RID , p_obstacle , RID , p_map , rid_to_rid , rid_to_rid ) ;
RID FORWARD_1_C ( obstacle_get_map , RID , p_obstacle , rid_to_rid ) ;
void FORWARD_2 ( obstacle_set_paused , RID , p_obstacle , bool , p_paused , rid_to_rid , bool_to_bool ) ;
bool FORWARD_1_C ( obstacle_get_paused , RID , p_obstacle , rid_to_rid ) ;
void FORWARD_2 ( obstacle_set_radius , RID , p_obstacle , real_t , p_radius , rid_to_rid , real_to_real ) ;
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real_t GodotNavigationServer2D : : obstacle_get_radius ( RID p_obstacle ) const {
return NavigationServer3D : : get_singleton ( ) - > obstacle_get_radius ( p_obstacle ) ;
}
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void FORWARD_2 ( obstacle_set_velocity , RID , p_obstacle , Vector2 , p_velocity , rid_to_rid , v2_to_v3 ) ;
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Vector2 GodotNavigationServer2D : : obstacle_get_velocity ( RID p_obstacle ) const {
return v3_to_v2 ( NavigationServer3D : : get_singleton ( ) - > obstacle_get_velocity ( p_obstacle ) ) ;
}
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void FORWARD_2 ( obstacle_set_position , RID , p_obstacle , Vector2 , p_position , rid_to_rid , v2_to_v3 ) ;
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Vector2 GodotNavigationServer2D : : obstacle_get_position ( RID p_obstacle ) const {
return v3_to_v2 ( NavigationServer3D : : get_singleton ( ) - > obstacle_get_position ( p_obstacle ) ) ;
}
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void FORWARD_2 ( obstacle_set_avoidance_layers , RID , p_obstacle , uint32_t , p_layers , rid_to_rid , uint32_to_uint32 ) ;
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uint32_t GodotNavigationServer2D : : obstacle_get_avoidance_layers ( RID p_obstacle ) const {
return NavigationServer3D : : get_singleton ( ) - > obstacle_get_avoidance_layers ( p_obstacle ) ;
}
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void GodotNavigationServer2D : : obstacle_set_vertices ( RID p_obstacle , const Vector < Vector2 > & p_vertices ) {
NavigationServer3D : : get_singleton ( ) - > obstacle_set_vertices ( p_obstacle , vector_v2_to_v3 ( p_vertices ) ) ;
}
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Vector < Vector2 > GodotNavigationServer2D : : obstacle_get_vertices ( RID p_obstacle ) const {
return vector_v3_to_v2 ( NavigationServer3D : : get_singleton ( ) - > obstacle_get_vertices ( p_obstacle ) ) ;
}
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void GodotNavigationServer2D : : query_path ( const Ref < NavigationPathQueryParameters2D > & p_query_parameters , Ref < NavigationPathQueryResult2D > p_query_result ) const {
ERR_FAIL_COND ( ! p_query_parameters . is_valid ( ) ) ;
ERR_FAIL_COND ( ! p_query_result . is_valid ( ) ) ;
const NavigationUtilities : : PathQueryResult _query_result = NavigationServer3D : : get_singleton ( ) - > _query_path ( p_query_parameters - > get_parameters ( ) ) ;
p_query_result - > set_path ( vector_v3_to_v2 ( _query_result . path ) ) ;
p_query_result - > set_path_types ( _query_result . path_types ) ;
p_query_result - > set_path_rids ( _query_result . path_rids ) ;
p_query_result - > set_path_owner_ids ( _query_result . path_owner_ids ) ;
}